The popular Sunday Scrambles at the Bicester Heritage site are now an established fixture in the event’s calendar. Taking place three times a year, in January, late April and early October, each follows the same formula, of being a bit like an enlarged and prolonged Breakfast Club meet. Over the years, though, things have changed a bit. Early on, these were very relaxed events indeed, but soon the word got out and the crowds starting to come in numbers that created huge traffic queues getting in and out, so changes had to be made, with a requirement for advance tickets (and a cut off beyond which the event was declared as “sold out”, and then the Car Clubs were given rules that, if obeyed (and everyone did, apart from Posche Club GB who had probably created the problem in the first place), precluded most of them from attending as a Club. And then there was the post-Covid recovery when the events were so popular that some of the events were extended to cover a second day to cope with demand, but now things seem to have settled down a bit. Car Clubs are no more – unless members convoy in and park in general parking as a group – but dealers and traders appear to have been encouraged to come along instead (I presume they pay more!), and the number of supercars seems to increase with every event. The ticket prices have seen steep increases, too. Pre Covid it was £8.00 a person, but every event since Covid has seen the cost go up and up, so this one was a fairly steep £23.00 plus booking fee. What do you get for your money? Well, lots of cars, as this report evidences.
CAR of the YEAR
There was a special display comprising some – but by no means all – of the winners of the “Car of the Year” competition, reassembling the cars which had featured in a recent article in “Classic and Sportscar” magazine. This contest has been running for 60 years, with the first winner being the Austin 1800, back in 1964. 60 cars would take up a lot of space, so there was a representative sample of 3 cars from each decade, just as had been in the magazine feature, with priority given to some of the more “worthy” winners, it being noted that some years, either the competition was not that stiff or the judges must have had a rush of blood to their (often xenophobic) heads. I mean, why on earth did the Peugeot 307 win? Or the second generation Megane? Or the Renault R9?
1965 – Rover 2000: Whilst the 3 litre P5 model may have been thought of as a replacement for the top end of the long running P4 Rovers, it was really this car, the P6 model, first seen in October 1963 which was its true successor. Very different from the long-running 60/75/80/90/95/100/105/110 models, this car took some of its inspiration, it is claimed, from the Citroen DS as well as lessons learned from Rover’s Jet Turbine program of the 1950s and early 60s. It was a “clean sheet” design, carrying nothing over, and was advanced for the time with a de Dion tube suspension at the rear, four-wheel disc brakes (inboard on the rear), and a fully synchromesh transmission. The unibody design featured non-stressed panels bolted to a unit frame. The de Dion set-up was unique in that the “tube” was in two parts that could telescope, thereby avoiding the need for sliding splines in the drive shafts, with consequent stiction under drive or braking torque, while still keeping the wheels vertical and parallel in relation to the body. The Rover 2000 won industry awards for safety when it was introduced and included a carefully designed “safety” interior. One innovative feature was the prism of glass on the top of the front side lights. This allowed the driver to see the front corner of the car in low light conditions, and also confirmed that they were operative. One unique feature of the Rover 2000 was the design of the front suspension system, in which a bell crank (an L-shaped rotating bracket trailing the upper hub carrier joint) conveyed the vertical motion of the wheel to a fore-and-aft-horizontally mounted spring fastened to the rear wall of the engine compartment. A single hydraulically damped arm was mounted on the firewall for the steering. The front suspension was designed to allow as much width for the engine compartment as possible so that Rover’s Gas Turbine engine could be fitted. In the event, the engine was never used for the production vehicle, but the engine compartment width helped the accommodation of the V8 engine adopted years after the car’s initial launch for the 2000. The luggage compartment was limited in terms of usable space, because of the “base unit” construction, complex rear suspension and, in series II vehicles, the battery location. Lack of luggage space (and hence the need to re-locate the spare tyre) led to innovative options for spare tyre provision including boot lid mountings and optional Dunlop Denovo run-flat technology. The car’s primary competitor on the domestic UK market was the Triumph 2000, also released in October 1963, just one week after the Rover, and in continental Europe, it contended in the same sector as the Citroen DS which, like the initial Rover offering, was offered only with a four-cylinder engine – a deficiency which in the Rover was resolved, four years after its launch, when Rover’s compact V8 was engineered to fit into the engine bay. The Rover 2000 interior was not as spacious as those of its Triumph and Citroen rivals, especially in the back, where its sculpted two-person rear seat implied that Rover customers wishing to accommodate three in the back of a Rover should opt for the larger and older Rover 3 Litre. The first P6 used a 1,978 cc engine designed specifically for the car, which put out around 104 bhp. That was not enough to live up to the sports saloon ambitions, so Rover later developed a twin SU carburettor version with a re-designed top end and marketed the revised specification vehicles as the 2000 TC. The 2000 TC was launched in March 1966 for export markets in North America and continental Europe, relenting and making it available to UK buyers later that year. This engine generated around 124 bhp. The standard specification engines continued in production in vehicles designated as 2000 SC models. These featured the original single SU. More performance was to come. Rover saw Buick’s compact 3528 cc V8 unit that they had been looking at developing as the means of differentiating the P6 from its chief rival, the Triumph 2000. They purchased the rights to the innovative aluminium engine, and, once improved for production by Rover’s own engineers, it became an instant hit. The Rover V8 engine, as it became known, outlived its original host, the P5B, by more than thirty years. The 3500 was introduced in April 1968, one year after the Rover company was purchased by Triumph’s owner, Leyland and continued to be offered until 1977. The light metal V8 engine weighed the same as the four-cylinder unit of the Rover 2000, and the more powerful car’s maximum speed of 114 mph as well as its 10.5-second acceleration time from 0–60 mph were considered impressive, and usefully faster than most of the cars with which, on the UK market, the car competed on price and specifications. It was necessary to modify the under-bonnet space to squeeze the V8 engine into the P6 engine bay: the front suspension cross-member had to be relocated forward, while a more visible change was an extra air intake beneath the front bumper to accommodate the larger radiator. There was no longer space under the bonnet for the car’s battery, which in the 3500 retreated to a position on the right side of the boot. Nevertheless, the overall length and width of the body were unchanged when compared with the smaller-engined original P6. Having invested heavily in the car’s engine and running gear, the manufacturer left most other aspects of the car unchanged. However, the new Rover 3500 could be readily distinguished from the 2000 thanks to various prominent V8 badges on the outside and beneath the radio. The 3500 was also delivered with a black vinyl covering on the C-pillar, although this decoration later appeared also on four-cylinder cars. A 3-speed Borg Warner 35 automatic was the only transmission until the 1971 addition of a four-speed manual 3500S model, fitted with a modified version of the gearbox used in the 2000/2200. The letter “S” did not denote “Sport”, it was chosen because it stood for something specific on those cars: “Synchromesh”. However it is important to note that the 3500S was noticeably quicker than the automatic version of this car with a 0-60mph time of 9 seconds, compared with 10.1 for the standard car. Moreover, due to the fuel-guzzling nature of automatic gearboxes of this era, the manual car’s official cycle was 24mpg compared to the automatic’s 22mpg. The Series II, or Mark II as it was actually named by Rover, was launched in 1970. All variants carried the battery in the boot and had new exterior fixtures such as a plastic front air intake (to replace the alloy version), new bonnet pressings (with V8 blips even for the 4-cylinder-engined cars) and new rear lights. The interior of the 3500 and 2000TC versions was updated with new instrumentation with circular gauges and rotary switches. The old-style instrumentation with a linear speedometer and toggle switches continued on the 2000SC versions. The final changes to the P6 came in the autumn of 1973 when the 2200 SC and 2200 TC replaced the 2000 SC and TC. These cars used an enlarged 2,205 cc version of the 2000 engine, which increased power outputs to 98 and 115 bhp respectively as well as offering improved torque. The P6 was replaced by the SD1 Rover, a completely different sort of car indeed, after 322,302 cars had been built. Seen here was an late model 3500S, a very aspirational car in its day..
1966 – Renault R16: By the early 1960s, Renault was building a series of small cars, like the hatchback Renault R4 and the slightly larger rear engined Renault Dauphine. They had built a much larger model, the Frégate, between 1951–1960, but with a modest production total of 163,383 units, it had not been replaced. A number of design studies were produced, as with people gaining more money after the lean years of the 1950s, it was clear that there was a market for large family cars in France, which rivals Citroen, with their DS and Peugeot with the 404 were dominating. Renault conceived a car that would be a bit smaller, and quite a bit cheaper than the Citroen, aiming at a gap in that marque’s model range. Whether they knew it or not at the time is unclear but we no know that Citroen themselves were planning to fill the gap between the 2CV/Ami and the much larger ID and DS. It was called Projet F, but when they got word of what Renault were planning, Citroen cancelled their car. That left the field clear for Renault. Under the skin, the layout of the R16 actually owed quite a lot of the much older Citroën Traction Avant – front-wheel drive, engine mounted inline behind the transmission. torsion bar suspension, and column mounted gearlever. In addition the car had an aluminium engine and an electric cooling fan, both technical innovations. The big innovation, however, was the modern, practical bodystyle – introducing the hatchback to the mid size family segment. This allowed the interior to be immensely flexible, and could be configured in seven different ways. This body style was halfway between a saloon and an estate, and, before the term hatchback was coined, journalists struggled to describe it. A review in the English Motoring Illustrated in May 1965 stated: “The Renault Sixteen can thus be described as a large family car but one that is neither a four door saloon and nor is it quite an estate. But, importantly, it is a little different.” One peculiarity of the R16, and the later Renault R5, is that the two back wheel axles shafts are not in-line. The left wheelbase is 70 mm (2.76 in) longer than the right wheelbase, to accommodate the torsion bar suspension. This and the soft front seats gives the car a particularly smooth ride even over big bumps. The suspension had the longest travel on a car of this size; if the handbrake was applied and reverse gear engaged, the rear bumper would rise about one foot. The engine was mounted north-south in the front, behind the gearbox/transaxle. This contributed to the handling and balance of this car by keeping the weight closer to the centre of the car. Traditional front drive layouts are either east-west or in some cases north-south but with the engine in front of the transmission. Although this north-south/forward gearbox layout gave excellent handling, servicing access to the engine was so difficult that the Renault 16’s successor, the Renault 20, kept the north-south layout but put the engine ahead of the gearbox. Gear changing was performed by means of a column-mounted lever which allowed for a more spacious front cabin, Column changes were fairly rare by the 1960s, but the design was forced on Renault by the position of the transmission in front of the engine. Pre-launch publicity was extensive, with semi-authorised media leaks. The French magazine ” L’Auto-Journal” had reported details of the car, in an exclusive report, towards the end of 1963. During October 1964, timed to coincide with the Paris Motor Show, Renault distributed photographs of its innovative new family car, still at this stage described simply as the forthcoming “Renault 1500”, for publication as “scoop” pictures in various magazines. It was only two months later that the car, now officially named a “Renault 16”, was approved for sale by the French homologation authorities. The car was shown to the world’s press in a presentation on the Côte-d’Azur in the first few days of January 1965. Series production started in March 1965 at the company’s recently completed Sandouville plant, a few kilometres to the east of Le Havre. The car had its formal launch in March 1965 at the Geneva Motor Show, and was made available for sale to the public during June 1965. Equipment levels were high for the price. Initially, Renault sold the R16 with just a 1470cc petrol engine in Grand Luxe (GL) and Super specifications, for both of which 55 PS (54 hp) was claimed. The Renault R16 was voted European Car of the Year by a board of European motoring journalists in 1966. It was the third year of the accolade’s existence, and the Renault 16 was the first French winner of the award. Demand was strong right from the word go. Minor changes were made for 1967, when ventilation and heating were both improved, and the dashboard was redesigned. An automatically operated choke became available. These early cars are very rare now. They are most easily identified by the slightly ovoid shaped rear lights. At the Geneva Motor Show in March 1968, Renault presented a more powerful model, the 1565cc TS which could top 100 mph. It also featured an all-new instrument panel that included a tachometer and water temperature gauge, and many other new features including two-speed windscreen wipers, a heated rear window, passenger reading light, and optional powered windows. An automatic transmission version, designated the Renault 16 TA, was introduced a year later at the 1969 Geneva Motor Show. Other changes included giving the other R16 models the same wheels and brakes as the TS, and that model got standard reversing lights mounted beneath the tail-lights. The other models had them available as an optional extra. Renault started to assemble the car in Australia, to get around the punitive import restrictions in that country. By this time, the model had been launched in the US market as well. The 16 had no major competitors until the arrival of the Alec Issigonis designed Austin Maxi in 1969, but the BL car remained barely known outside the UK, whereas the Renault found favour across Europe. In 1970, racing driver Stirling Moss exclaimed: “There is no doubt that the Renault 16 is the most intelligently engineered automobile I have ever encountered and I think that each British motorcar manufacturer would do well to purchase one just to see how it is put together”. In 1971, the R16 underwent a mild revamp. Among the most obvious changes were new rectangular taillights. The Grand Luxe and Super were replaced by the L and TL specifications, both of which gained the same 1565cc engine as the TS (but with the cylinder head from the 1470cc). The TA was discontinued and an automatic transmission was made available as an option across the whole R16 range. The top-line model was the TX, launched at the Paris Motor Show in October 1973, featuring an enlarged 1647cc version of the TS engine, coupled with a 5-speed manual transmission, still operated by a column change. The specification included power windows for the front doors and central door locking, one of the first family cars in Europe to feature such equipment. The TX was distinguishable from other R16s by its four rectangular headlights. One more visual change was to come, in 1974 when the aluminium grille of all the other models was replaced by a black plastic one. By now, the car was over 10 years old and new rivals had appeared on the market, such as VW’s Passat (though it did not receive a hatchback until 1977) and the Chrysler Alpine. Renault came up with a cheaper version of the larger R30 model, the R20 in late 1975 as the planned replacement, but they kept the R16 in production right through until January 1980. It was not until 1989, when a hatchback version of the R21 joined the saloon model that Renault would have another hatch model of this size in their range. The R16 had been a great success, with 1,845,959 R16s produced during a production run of 15 years. The car sold well in most of Europe, winning praise for its spacious and comfortable interior. Retired Renault styling chief Patrick le Quément made no secret of his admiration for the R16 — and incorporated a subtle tribute to its “bird-beak” grille in the corporate look he devised for models such as the Laguna, Mégane and Scénic that the company launched in the 1990s. Sadly, the R16 suffered from rust problems like most other cars of the period, and so there are not many left.
1968 – NSU Ro80
1970 – Fiat 128: Named European Car of the Year in 1970, over three million were manufactured, but few are left.. Introduced in 1969, it was built in an entirely new plant in Rivalta, north-west of Turin, specifically to manufacture the car. With engineering by Dante Giacosa and engine design by Aurelio Lampredi, the 128 was noted for its relatively roomy passenger and cargo volume — enabled by a breakthrough innovation to the front-engine, front-drive layout which became the layout “adopted by virtually every other manufacturer in the world”. Front-wheel drive had previously been introduced to small, inexpensive cars with the British Mini. As engineered by Alec Issigonis, the compact arrangement located the transmission and engine sharing a single oil sump — despite disparate lubricating requirements — and had the engine’s radiator mounted to the side of the engine, away from the flow of fresh air and drawing heated rather than cool air over the engine. The layout often required the engine be removed to service the clutch. As engineered by Dante Giacosa, the 128 featured a transverse-mounted engine with unequal length drive shafts and an innovative clutch release mechanism. The layout enabled the engine and gearbox to be located side by side without sharing lubricating fluid while orienting an electrically controlled cooling fan toward fresh air flow. Fiat tested this then new engineering for a full five years in the Autobianchi Primula, Fiat’s less market-critical subsidiary, Autobianchi which allowed them to sufficiently resolve the layout’s disadvantages, including uneven side-to-side power transmission, uneven tyre wear and potential torque steer, the tendency for the power of the engine alone to steer the car under heavy acceleration. The compact and efficient layout — a transversely-mounted engine with transmission mounted beside the engine driving the front wheels through an offset final-drive and unequal-length driveshafts — subsequently became common with competitors and arguably an industry standard. The 128 used an all new 1.1 litre Fiat SOHC engine, engineered by noted engine designer Aurelio Lampredi, featuring an iron block mated to an aluminium head along with a belt-driven single overhead camshaft producing 49 hp. The 128 was styled similarly to the 124 and 125 and featured rack-and-pinion steering, front disc brakes, independent rear suspension with a transverse leaf spring, and a strut-type front suspension with integral anti-roll bar. Initially, the 128 was available as a two-door or four-door sedan. At the 1970 Turin Motor Show a three-door station wagon model called “Familiare” was added to the line-up. The car was only available with a 1116 cc engine on launch, though the two-door-only 128 Rally edition launched in 1971 used a 1,290 cc unit. Also in 1971, the Sport Coupé, an all-new coupé body on a shortened 128 platform, was unveiled at the Turin Show. At launch it was available with both existing 128 engines. The 128 range underwent a facelift in 1972, featuring a revised grille. 1974 saw the launch of the 128 Special, which used the Rally engine in a four-door sedan body. In 1975 the 128 3P (3-door) Berlinetta replaced the Sport Coupé. In 1976, the range received new bumpers, rectangular headlights, tail lights and dashboard as well as modifications to the engines. At this time, the wagon was also renamed the “Panorama”. Production of all 128s except that of the base 1,100 cc powered model ended in 1979 after the introduction of the Fiat Ritmo/Strada in 1978. In 1980 production of the small three-door station wagon Panorama was dropped from the range and 128 production finally ended in 1985
1978 – Porsche 928
1980 – Lancia Delta: Lancia launched the Delta in 1979, as what we would now think of as a “premium hatch”. Offered in 1300 and 1500cc engines, this car, which collected the prestigious “Car of the year” award a few months later, brought Italian style and an expensive feeling interior to a new and lower price point in the market than Lancia had occupied since the early days of the Fulvia some 15 years earlier. The range grew first when a model was offered using the 4 speed AP automatic transmission and then in late 1982, more powerful models started to appear, with first a 1600cc engine, and then one with fuel injection, before the introduction of the HF Turbo. All these cars kept the same appearance and were quite hard to tell apart. These were the volume models of the range, but now they are very definitely the rare ones, as it is the performance versions which have survived and are now much loved classics, even though relatively were sold when they were new, thanks to a combination of the fact that they were quite costly and that they only ever came with left hand drive.
1983 – Audi 100: The third generation Audi 100 launched in September 1982 with aerodynamic styling, contrasting the boxy styling of its predecessor, and offering a much improved drag coefficient, 0.30 on base model. The aerodynamic C3 bodywork featured pin-mounted flush windows, offering a key reduction in aerodynamic drag. Altogether, the aerodynamic body increased the fuel efficiency and top speed versus other cars of similar engine size. The C3 introduced Audi’s proprietary restraint system, marketed as procon-ten. Two-door models were no longer offered, and the Audi 100 Avant was now positioned as a station wagon rather than a hatchback – the Avant designation would be used for all Audi station wagons from that point forward. The Avant featured an available extra folding third row seat — not available in conjunction with ABS-brakes as the brake control unit sat in the same space. The 200, launched in 1983 continued as the upmarket variant with several versions of the 2.2 L turbo 5-cylinder available in different markets over its life ranging in power outputs from 165 PS MC engine, through the 200 PS versions to the final 220 PS 20-valve 3B engine available from 1991. The 1983 Audi 200 Turbo had a top speed of 139 mph (224 km/h). The MC turbo engine was available in the 100 as well for some markets. In January 1988 the Audi 100 received a minor facelift, including flush fitting door handles. The 1991 200 20V featured flared (vs. flat) front and rounded rear wheel arches to accommodate wider wheel and tyre combinations to be fitted to 20V models. U.S. magazine articles of the period reported 0-60 times of the 20-valve Audi 200 under 7 seconds, with 1/4 mile times in the mid to upper 15 second mark. The Audi 100 also featured a 2.5 L straight-five direct injection turbo-diesel (TDI) model with 120 PS introduced in January 1990 (engine code 1T). This was the first model to wear the TDI label. It had a brief career in the C3, being replaced in December of that year when the C4 arrived.
1988 – Peugeot 405: The Peugeot 405 is a large family car released by the French automaker Peugeot in July 1987, and which continues to be manufactured under licence outside France, having been discontinued in Europe in 1997. It was voted European Car of the Year for 1988 by the largest number of votes in the history of the contest. About 2.5 million vehicles have been sold worldwide, both in LHD and RHD, as a saloon and estate. In early 2020, the 33-year production run of the Peugeot 405 was counted as the twentieth most long-lived single generation car in history.” Its appearance is similar to the Alfa Romeo 164, launched the same year and also styled by Pininfarina. While the 405 shares its floorpan with the Citroën BX, it does not have that car’s hydropneumatic suspension except 4×4 version on the rear axle (SRix4, Mi16x4 and T16). As with the BX, the 405 used TU/XU petrol and XUD diesel engines. The 405 was the last Peugeot vehicle sold in the United States, on sale between 1988 and 1991, including the Mi16. The 405 has been available in LHD, and RHD versions, as a saloon and estate, in front wheel, and four wheel drive. No coupé model was ever offered to the public, unlike the 504 and later 406: only two examples of the purpose-built 405 Turbo 16 (not to be confused with 405 T16) were made. In July 1987, Peugeot unveiled ten versions of the 405 saloon simultaneously for the 1988 model year, with sales on the continent beginning in October 1987 and sales in the United Kingdom beginning in January 1988. It succeeded the long-running Peugeot 305, but also the Chrysler Alpine hatchback and Solara saloon which had been discontinued when the Talbot brand was axed a year earlier. The slightly smaller 305 was discontinued from the Peugeot range soon after the 405’s launch, with production of the larger 505 ending a few years later. Peugeot’s new range-topping model after 1989 was the larger 605. Estate sales began in May 1988, although the British market did not receive estate versions until October 1988. No coupé was ever offered to the public, unlike the 504 and later 406. Right hand drive versions being produced at the former plant of Rootes/Chrysler at Ryton near Coventry, and left hand drive production taking place at Sochaux in France. Four cylinder petrol engines ranging from 1.4 to 1.9 litres and 65 to 160 bhp were available. In 1988, naturally aspirated (1.9) and turbocharged (1.8) diesel engines were added to the range. The 500,000th 405 was produced during 1989, followed by the one millionth 405 to leave the Sochaux factory in 1990. This was also when the BE1 transmission was replaced by the BE3. In 1991, there were updates to the dashboard, steering wheel, and soundproofing, but for 1992, the Phase II model arrived with a new boot with better ingress, new rear lights and boot design, and a new dashboard. 405 production had reached over 1,500,000 by this time. The 405 was one of Europe’s best selling larger family cars, particularly in France and Britain. It was the eighth best selling car in Britain in 1992 and 1993. The 405 also became a popular model in Thailand, following the success of the Peugeot 505 after the Government of Thailand cancelled a restriction on CBU car imports in the late 1980s. The 405 range included three petrol engines and two diesel engines, all four cylinders, in a variety of states of tune and specification. The range was tailored to suit different export markets. The 1.6 litre saloon featured a low drag co efficient of Cd=0.29, with other models varying up to Cd=0.33. The 1,360 cc engine was fitted with a four-speed manual gearbox. It produces 70 bhp at 5,600 rpm. The 1,580 cc engine was fitted with a five speed manual gearbox and produced 92 hp at 6,000 rpm. The 1.9 litre engine was available with a five speed manual gearbox, with an option of an automatic in the lower powered version. The eight valve version of the 1905 cc engine was available in two levels of tune; 110 bhp or 125 bhp, with numbers varying somewhat depending on the year and the market. A 16-valve version was available with the Mi16 model and this produced 160 bhp at 6,500 rpm and could reach a top speed of 220 km/h (137 mph). The catalyzed version produces 148 bhp with a top speed of 214 km/h (133 mph). In 1992, the range was facelifted. While the changes were deep, including a modified bottom plate and chassis structure, the design was almost indistinguishable from the pre-facelift model. The windscreens were now bonded; all of these changes increased torsional rigidity considerably while still allowing a deeper opening for the bootlid of the sedan. The taillights were also redesigned and the trim piece between them removed, all in the image of the bigger 605. The interior was also redone, with an all new dashboard and door trim, inheriting many detail parts as well as the overall appearance from the 605. In April 1993, the T16 was introduced to celebrate the successes of the competition model, with a 2.0 litre 16 valve turbocharged XU10J4TE engine with water cooled chargecooler, constant four wheel drive with 53/47% power distribution and self regulating hydraulic rear axle. It was never built in a right hand drive model. The T16 produced 200 bhp at 1.1 bar (16 psi) (normal boost) or 220 bhp at 1.3 bar (19 psi) (overboost) which lasts for 45 seconds. 1,061 examples were built, 60 of them for the French Police. The diesel engine options included a 1,905 cc unit producing 70 hp at 4,600 rpm or a turbocharged 1,769 cc unit producing 90 hp. At launch in Britain in January 1988, the 405 was available with a choice 1.6, and 1.9 carbureted engines, and an injected 1.9. Both diesel and petrol engines were available at launch. Late 1988 saw the debut of the performance model, the Mi 16. Addition of the estate and a 1.8 litre turbo diesel. Late 1989: four wheel drive Mi16x4, GRiX4 were added. 1990: Update to dashboard. 1992: Updates to interior, 1.9s petrol engine replaced by a catalysed 2.0. 1994: power steering and remote central locking become standard on all models. Driver’s airbag added. 1995: Executive and Quasar models added. 1996: 405 saloon replaced by the 406. Estate revised and sold until replaced by the 406 estate in 1997. Other engines included 1.4, 1.6, and 1.8. Other styles included the GE, GL, GLx4, GLD, GLDT, GR, GTXi, GTXDT, Le Mans, LX, Mi, Style D, Style DT, Quasar, SRi, SRDT, STi, and STDT. In the autumn of 1995, the 405’s replacement, the 406 was introduced and the 405 saloon was discontinued. An airbag had been available on the 405 since 1994, and standard on the left hand drive Mi16 and T16. At the beginning of 1997, the estate version of the 406 was launched, marking the end of European 405 production after ten years.
1990 – Citroen XM
1998 – Alfa Romeo 156: When the 156 was launched in 1997, things looked very bright for Alfa. Striking good looks were matched by a driving experience that the press reckoned was better than any of its rivals. The car picked up the Car of the Year award at the end of the year. and when it went on sale in the UK in early 1998, waiting lists soon stretched out more than 12 months. Reflecting the way the market was going, Alfa put a diesel engine under the bonnet, launched a (not very good, it has to be admitted) automated transmission with the SeleSpeed, added a very pretty if not that commodious an estate model they called Sport Wagon and then added a top spec 3.2 litre GTA with its 250 bhp engine giving it a performance to outrun all its rivals. And yet, it did not take long before the press turned on the car, seduced by the latest 3 Series once more, citing build quality issues which were in fact far from universal. The 156 received a very minor facelift in 2002 and a more significant one in late 2003 with a new front end that was a clue to what would come with the car’s successor. Production ceased in 2005.
1999 – Ford Focus: Ford of Europe introduced the Focus in 1998 to the European market as a replacement for the Ford Escort. The Focus Mk 1 was awarded the 1999 European Car of the Year award. The project manager for the Ford Focus at Dunton was Rose Mary Farenden. Ford of North America began marketing the Focus in September 1999 for the 2000 model year, with some changes from the European version. The car was launched as a three-door hatchback, four-door sedan, and five-door wagon; a five-door hatchback debuted in 2001. In 2002, Ford launched its highest performance version of the Focus, called the Focus RS. It came with a 2.0-litre turbocharged Duratec RS engine, a Quaife ATB limited-slip differential, an AP Racing clutch, and a revolutionary design front suspension strut system called “Revo-knuckle”- as marketed by Ford, Sachs Racing dampers Brembo brakes, 18” O.Z Racing alloy wheels, Michelin Pilot Sport tyres and a host of other performance changes, combined with a much more aggressive appearance, and was available only in Ford’s Imperial blue. Tickford Engineering won the engineering contract for the research, development and to oversee production of the Mk 1 Focus RS. Tickford made substantial modifications to the base unit, with up to 70% of the base components either updated, re-engineered or completely redesigned. Despite the development being carried out in the United Kingdom, Ford produced the Focus RS in the Saarlouis plant in Germany between 2002 and 2003 making a limited run of 4501 cars only. This original Focus RS was only available in Europe; just under half (2147) of these were sold in the UK. For decades, in the U.S., small cars like the Focus were seen as a tool to draw in younger buyers looking for a cheap basic transportation and to increase auto makers’ fleet average fuel economies to meet U.S. federal standards. Ford was said not to be concerned about losing money on the Focus so the company could sell gas guzzlers for big profits. However, recent sales of new Focuses have been able to maintain lower or overall discounting incentive rates than many competing vehicles in its class. Many industry insiders view cars like the Focus as ‘compliance cars’ because of their role in helping to bring up the corporate fleet average fuel economy to meet current fuel-economy standards.
2004 – Fiat Panda
2005 – Toyota Prius
2019 – Jaguar i-Pace
ABARTH
There are no Club bookings for events like this any more, so it is down to individuals to bring their cars along, either as part of the display or simply to be found by those who wander around the public car parks. That means there were only three Abarths that I found, all three of them 500-based models. These have been on sale now since the end of 2008, following a launch at the Paris Show that year. Since that time there have been a number of detailed changes to the standard cars and a lot of limited editions. Those who really know the marque can spot most of them, but some are so subtle that unless there is a badge you can see, you will not be quite sure which version you are looking at. It used to be relatively easy, when the model was first launched, as there was only one version as shipped ex works called the 500. It had a 135 bhp 1.4 litre turbo-charged engine coupled to a five speed manual gearbox, with 16″ alloys as standard, and the option of 17″ wheels, and a colour palette comprising of two whites (BossaNova White, the standard colour, or the pearlescent Funk White), Red (Pasadoble), Pale Grey (Campovolo) or Black. If you wanted more power – 160 bhp – then you could order an Esseesse kit, which came in a large wooden crate, containing new wheels, springs, an ECU upgrade, the Monza exhaust system and badging. It was dealer fitted and could be applied at any time within the first 12 months or 10,000 miles from registration. Needless to say, it proved popular. As were many of the optional extras, with stickers for the sides, a large scorpion for the bonnet and even a chequered pattern for the roof among the personalisation options offered.
What is known as the Series 4 version of the familiar 595 reached the markets in the middle of 2016. After rumours had circulated all winter following the launch of the facelifted Fiat 500 last year, Abarth finally unveiled the Series 4 at the end of May 2016. Initially, we were told that the cars would not be available in the UK until September, but that came forward somewhat, with dealers all receiving demo cars in June, and the first customers taking delivery in July. Three regular production versions of both the closed car and the open-topped C were initially available, all badged 595, and called Custom, Turismo and Competizione, as before, though numerous limited edition models have since appeared and in most case disappeared. The most significant changes with the Series 4 are visual, with a couple of new colours, including the much asked for Modena Yellow and a different red, called Abarth Red, which replaces both the non-metallic Officina and – slightly surprisingly – the tri-coat pearlescent Cordolo Red. as well as styling changes front and rear. The jury is still out on these, with many, me included, remaining to be convinced. At the front, the new air intake does apparently allow around 15 – 20 % more air in and out, which will be welcome, as these cars do generate quite a lot of heat under the bonnet. Competizione models for the UK retain the old style headlights, as they have Xenon lights as standard, whereas the Custom and Turismo cars have reshaped units. At the back, there are new light clusters and a new rear bumper and diffuser. Inside, the most notable change is the replacement of the Blue & Me system with a more modern uConnect Audio set up, which brings a new colour screen to the dash. Mechanically, there is an additional 5 bhp on the Custom (now 145) and Turismo (now 165 bhp) and the option of a Limited Slip Diff for the Competizione, which is likely to prove a popular option. Details of the interior trim have changed, with a filled-in glovebox like the US market cars have always had, and electric windows switches that are like the US ones, as well as a part Alcantara trim to the steering wheel in Competizione cars. There were only a couple of them here: one was a standard looking model and there was also Mark Roasales’ much modified car which arrived as part of a supercar convoy.
In 1971 the Fiat 124 Spider was prepared for the World Rally Championship when Abarth became involved with its production and development. Abarth designer Ing. Colucci was responsible for getting the 124 Spider into Group 4 rally trim. Over this period the Abarth Spider was relatively successful with wins at the 1972 Hessen Rally, Acropolis Rally, 1973 Polish Rally, 19th on the 1973 RAC rally and seventh to mostly the Alpine Renaults on the 1973 Monte Carlo Rally. The Spider continued to perform with first, second and third in the 1974 eighth Portuguese TAP Rally, sixth in the 1974 1000 Lakes, fourth in the 1975 Monte Carlo Rally and also with Markku Alén driving the spider to third place. By 1976 the days of 124 rallying were numbered due to the appearance of the Fiat-Abarth 131. The Fiat Abarth 124 Rally is a street legal rally version of the 124 Sport Spider sold to the masses, known also as “124 Abarth Stradale”, introduced in November 1972. Its main purpose was to receive FIA homologation in the special grand touring cars (group 4) racing class, and replace the 1.6-litre Fiat Sport Spider rally cars which were presently being campaigned. At the time 124 had already won the 1972 European Rally Championship at the hands of Raffaele Pinto and Gino Macaluso. The 124 Rally was added to the Sport Spider range, which included the 1600 and 1800 models; the first 500 examples produced were earmarked for the domestic Italian market. Amongst the most notable modifications over the standard spider there were independent rear suspension, engine upgrades, lightweight body panels, and a rigid hard top. In place of the usual rear solid axle, there is independent suspension from lower wishbones, the original trailing arms, an upper strut and an anti-roll bar. At the front a radius rod on each side was added to the standard double wishbones. The Abarth-tuned type 132 AC 4.000 1.8-litre, twin-cam engine was brought from the standard 118 to 128 PS DIN (126 hp) by replacing the standard twin-choke carburettor with double vertical twin-choke Weber 44 IDFs, and by fitting an Abarth exhaust with a dual exit exhaust. The 9.8:1 compression ratio was left unchanged. The transmission is the all-synchronised five-speed optional on the other Sport Spider models, and brakes are discs on all four corners. Despite the 20 kg (44 lb) four-point roll bar fitted, kerb weight is 938 kg (2,068 lb), roughly 25 kg (55 lb) less than the regular 1.8-litre Sport Spider. Engine bonnet, boot lid and the fixed hard top are fibreglass, painted matt black, the rear window is perspex and the doors aluminium. Front and rear bumpers were deleted and replaced by simple rubber bumperettes. A single matte black wing mirror was fitted. Matte black wheel arch extensions house 185/70 VR 13 Pirelli CN 36 tyres on 5.5 J × 13″ four-spoke alloy wheels. Inside centre console, rear occasional seats, and glovebox lid were eliminated; while new features were anodised aluminium dashboard trim, a small three-spoke leather-covered Abarth steering wheel, and Recaro corduroy-and-leather bucket seats as an extra-cost option. The car carries Fiat badging front and rear, Abarth badges and “Fiat Abarth” scripts on the front wings, and Abarth wheel centre caps. Only three paint colours were available: Corsa red, white, and light blue.
ALFA ROMEO
There were a number of examples of the 105 Series Coupe, with 1750 GTV and 2000 GTV and some earlier cars here. There’s a complex history to this much-loved classic. The first car was called the Alfa Romeo Giulia Sprint GT, and was revealed at a press event held at the then newly opened Arese plant on 9 September 1963, and displayed later the same month at the Frankfurt Motor Show. In its original form the Bertone body is known as scalino (step) or “step front”, because of the leading edge of the engine compartment lid which sat 1/4 an inch above the nose of the car. The Giulia Sprint GT can be distinguished from the later models by a number of features including: Exterior badging: Alfa Romeo logo on the front grille, a chrome script reading “Giulia Sprint GT” on the boot lid, and rectangular “Disegno di Bertone” badges aft of the front wheel arches; flat, chrome grille in plain, wide rectangular mesh without additional chrome bars; single-piece chrome bumpers; no overriders. Inside the cabin the padded vinyl dashboard was characterised by a concave horizontal fascia, finished in grey anti-glare crackle-effect paint. Four round instruments were inset in the fascia in front of the driver. The steering wheel was non-dished, with three aluminium spokes, a thin bakelite rim and a centre horn button. Vinyl-covered seats with cloth centres and a fully carpeted floor were standard, while leather upholstery was an extra-cost option. After initially marketing it as a four-seater, Alfa Romeo soon changed its definition of the car to a more realistic 2+2. The Giulia Sprint GT was fitted with the 1,570 cc version of Alfa Romeo’s all-aluminium twin cam inline four (78 mm bore × 82 mm stroke), which had first debuted on the 1962 Giulia Berlina. Breathing through two twin-choke Weber 40 DCOE 4 carburettors, on the Sprint GT this engine produced 105 hp at 6,000 rpm. Like all subsequent models, the Sprint GT was equipped with an all-synchromesh 5-speed manual transmission. The braking system comprised four Dunlop disc brakes and a vacuum servo. The rear brakes featured an unusual arrangement with the slave cylinders mounted on the axle tubes, operating the calipers by a system of levers and cranks. According to Alfa Romeo the car could reach a top speed of “over 180 km/h (112 mph)”. In total 21,902 Giulia Sprint GT were produced from 1963 to 1965, when the model was superceded by the Giulia Sprint GT Veloce. Of these 2,274 were right hand drive: 1,354 cars fully finished in Arese, and 920 shipped in complete knock-down kit form for foreign assembly. For 1966, the Giulia Sprint GT was replaced by the Alfa Romeo Giulia Sprint GT Veloce, which was very similar but featuring a number of improvements: a revised engine—slightly more powerful and with more torque—better interior fittings and changes to the exterior trim. Alongside the brand new 1750 Spider Veloce which shared its updated engine the Sprint GT Veloce was introduced at the 36th Geneva Motor Show in March 1966, and then tested by the international specialist press in Gardone on the Garda Lake. Production had began in 1965 and ended in 1968. The Giulia Sprint GT Veloce can be most easily distinguished from other models by the following features: badging as per Giulia Sprint GT, with the addition of round enamel badges on the C-pillar—a green Quadrifoglio (four-leaf clover) on an ivory background—and a chrome “Veloce” script on the tail panel; black mesh grille with three horizontal chrome bars; the grille heart has 7 bars instead of 6; stainless steel bumpers, as opposed to the chromed mild steel bumpers on the Giulia Sprint GT. The bumpers are the same shape, but are made in two pieces (front) and three pieces (rear) with small covers hiding the joining rivets. Inside the main changes from the Giulia Sprint GT were imitation wood dashboard fascia instead of the previous anti-glare grey finish, front seats revised to a mild “bucket” design, and a dished three aluminium spoke steering wheel, with a black rim and horn buttons through the spokes. The Veloce’s type 00536 engine, identical to the Spider 1600 Duetto’s, featured modifications compared to the Giulia Sprint GT’s type 00502—such as larger diameter exhaust valves. As a result it produced 108 hp at 6,000 rpm, an increase of 3 hp over the previous model, and significantly more torque. The top speed now exceeded 185 km/h (115 mph). Early Giulia Sprint GT Veloces featured the same Dunlop disc brake system as the Giulia Sprint GT, while later cars substituted ATE disc brakes as pioneered on the GT 1300 Junior in 1966. The ATE brakes featured an handbrake system entirely separate from the pedal brakes, using drum brakes incorporated in the rear disc castings. Though the Sprint GT Veloce’s replacement—the 1750 GT Veloce—was introduced in 1967, production continued throughout the year and thirty final cars were completed in 1968. By then total Giulia Sprint GT Veloce production amounted to 14,240 examples. 1,407 of these were right hand drive cars, and 332 right hand drive complete knock-down kits. The Alfa Romeo 1750 GT Veloce (also known as 1750 GTV) appeared in 1967 along with the 1750 Berlina sedan and 1750 Spider. The same type of engine was used to power all three versions; this rationalisation was a first for Alfa Romeo. The 1750 GTV replaced the Giulia Sprint GT Veloce and introduced many updates and modifications. Most significantly, the engine capacity was increased to 1779 cc displacement. Peak power from the engine was increased to 120 hp at 5500 rpm. The stroke was lengthened from 82 to 88.5 mm over the 1600 engine, and a reduced rev limit from 7000 rpm to 6000 rpm. Maximum torque was increased to 137 lb·ft at 3000 rpm. A higher ratio final drive was fitted (10/41 instead of 9/41) but the same gearbox ratios were retained. The result was that, on paper, the car had only slightly improved performance compared to the Giulia Sprint GT Veloce, but on the road it was much more flexible to drive and it was easier to maintain higher average speeds for fast touring. For the United States market, the 1779 cc engine was fitted with a fuel injection system made by Alfa Romeo subsidiary SPICA, to meet emission control laws that were coming into effect at the time. Fuel injection was also featured on Canadian market cars after 1971. Carburettors were retained for other markets. The chassis was also significantly modified. Tyre size went to 165/14 from 155/15 and wheel size to 5 1/2J x 14 instead of 5J x 15, giving a wider section and slightly smaller rolling diameter. The suspension geometry was also revised, and an anti-roll bar was fitted to the rear suspension. ATE disc brakes were fitted from the outset, but with bigger front discs and calipers than the ones fitted to GT 1300 Juniors and late Giulia Sprint GT Veloces. The changes resulted in significant improvements to the handling and braking, which once again made it easier for the driver to maintain high average speeds for fast touring. The 1750 GTV also departed significantly from the earlier cars externally. New nose styling eliminated the “stepped” bonnet of the Giulia Sprint GT, GTC, GTA and early GT 1300 Juniors and incorporated four headlamps. For the 1971 model year, United States market 1750 GTV’s also featured larger rear light clusters (there were no 1970 model year Alfas on the US market). Besides the chrome “1750” badge on the bootlid, there was also a round Alfa Romeo badge. Similar Quadrofoglio badges to those on the Giulia Sprint GT Veloce were fitted on C pillars, but the Quadrofoglio was coloured gold instead of green. The car also adopted the higher rear wheelarches first seen on the GT 1300 Junior. The interior was also much modified over that of earlier cars. There was a new dashboard with large speedometer and tachometer instruments in twin binnacles closer to the driver’s line of sight. The instruments were mounted at a more conventional angle, avoiding the reflections caused by the upward angled flat dash of earlier cars. Conversely, auxiliary instruments were moved to angled bezels in the centre console, further from the driver’s line of sight than before. The new seats introduced adjustable headrests which merged with the top of the seat when fully down. The window winder levers, the door release levers and the quarterlight vent knobs were also restyled. The remote release for the boot lid, located on the inside of the door opening on the B-post just under the door lock striker, was moved from the right hand side of the car to the left hand side. The location of this item was always independent of whether the car was left hand drive or right hand drive. Early (Series 1) 1750 GTV’s featured the same bumpers as the Giulia Sprint GT Veloce, with the front bumper modified to mount the indicator / sidelight units on the top of its corners, or under the bumper on US market cars. The Series 2 1750 GTV of 1970 introduced other mechanical changes, including a dual circuit braking system (split front and rear, with separate servos). The brake and clutch pedals on left hand drive cars were also of an improved pendant design, instead of the earlier floor-hinged type. On right hand drive cars the floor-hinged pedals were retained, as there was no space for the pedal box behind the carburettors. Externally, the series 2 1750 GTV is identified by new, slimmer bumpers with front and rear overriders. The combined front indicator and sidelight units were now mounted to the front panel instead of the front bumper, except again on the 1971-72 US/Canadian market cars. The interior was slightly modified, with the seats retaining the same basic outline but following a simpler design. 44,269 1750 GTVs were made before their replacement came along. That car was the 2000GTV. Introduced in 1971, together with the 2000 Berlina sedan and 2000 Spider, the 2 litre cars were replacements for the 1750 range. The engine displacement was increased to 1962 cc. The North American market cars had fuel injection, but everyone else retained carburettors. Officially, both versions generated the same power, 130 hp at 5500 rpm. The interior trim was changed, with the most notable differences being the introduction of a separate instrument cluster, instead of the gauges installed in the dash panel in earlier cars. Externally the 2000 GTV is most easily distinguished by its grille with horizontal chrome bars, featuring protruding blocks forming the familiar Alfa heart in outline, smaller hubcaps with exposed wheel nuts, optional aluminium alloy wheels of the same size as the standard 5. 1/2J × 14 steel items, styled to the “turbina” design first seen on the alloy wheels of the Alfa Romeo Montreal, and the larger rear light clusters first fitted to United States market 1750 GTV’s were standard for all markets. From 1974 on, the 105 Series coupé models were rationalised and these external features became common to post-1974 GT 1300 Junior and GT 1600 Junior models, with only few distinguishing features marking the difference between models. 37,459 2000 GTVs were made before production ended and these days they are very sought after with prices having sky-rocketed in recent years.
It was great to see the fabulous Alfa 164 here. I love these cars with my affection stemming from the fact that I had the pleasure of driving one for 4 years and 160,000 miles and to this day, it is the car I regret parting with more than any other of the fleet that I have owned over the years. When I bought mine, Alfa were selling a very small number of cars per month in the UK, so they were never that common, and sadly, survival rates are very low. Most people who know anything about the history of the 164 will be aware that this is one of the four so-called Type 4 cars, a joint venture involving Alfa Romeo, Fiat, Lancia and Saab. In 1978 these four marques agreed to each develop an executive saloon based on a shared platform to compete against the likes of the Ford Granada and Opel Rekord (Vauxhall Carlton) as well as more premium saloons by BMW and Mercedes-Benz in the form of the 5-Series and E-Class, respectively. Alfa’s Project 164 started life as Project 154 and was completed in 1981, then still under Alfa Romeo. A year later, that project morphed into the 164 based on the Type Four platform. This new model was designed by Enrico Fumia of Pininfarina, with a wedge shape that afforded it a leading drag coefficient of Cd=0.30. The design would later influence the rest of the Alfa Romeo range starting in 1990 with the major redesign of the 33 and culminating with the 155, and Pininfarina also adapted it (much to the maker’s chagrin) for the 1987 Peugeot 405 and the 1989 Peugeot 605 saloons. Initial testing of the 164’s dynamic elements (engine and drivetrain) began in 1984, where mules based on the then contemporary Giulietta were used. In 1985, the first pre-production 164’s were put through their paces on the road. Heavily disguised, with many false panels and even a false nose design (borrowing heavily from the then equally undeveloped 155), sporting 4 round headlamps, these vehicle mules served to test the 164 for the gruelling 1 million kilometre static and road testing demanded of the design. In 1986 and 1987, the first 150 164’s were given their pre-production testing. In terms of engineering demands, these exceeded every Alfa before, and by quite a substantial margin. In Morocco, desert testing saw 5 grey 164 Twinsparks and V6’s undergo the equivalent of the Paris-Dakar rally. Road conditions varied from good tarmac to off-road conditions, and accelerometers confirmed the superiority of the 164 in terms of passenger comfort. This data was cross-confirmed in the engineering laboratory with a sophisticated dummy in the driver’s seat, with accelerometers both in its seat, and in its ears to mimic that of the semi-circular canals of the ear. The Twinspark and the V6 underwent handling trials at Arese. The Twinspark displayed very mature driving manners at the limit, with minimal skid. The V6 displayed a 25% increase in at-the-limit skid, a natural consequence of its greater nose weight. ABS testing confirmed that the Twinspark has superior braking to the V6. Brake linings of the 164’s were run at maximum braking until they literally glowed with heat, and displayed no deviation in form. The 164 was the first Alfa to feature slotted double-walled disc brakes. At no point were the discs drilled to release excess heat, the original design being demonstrated to be excellent. Sound production was tested in an anechoic chamber, the car being subjected to stress and road noise testing, with instruments and with live subjects at the wheel, on a specially designed rig. Electromagnetic stability of the complex electronic system was also tested, in an anechoic chamber equipped with EM emitters (radar). The 164 engines were run to destruction, the Twinspark proving to be the most robust, and with the longest possible engine life. The V6 displayed only 10% shorter overall engine life. All this testing meant that by the time the production car, called the 164 was unveiled at the 1987 Frankfurt Motor Show – the last model to be developed while the Alfa Romeo was still a fully independent company, even though the launch was a few months after the takeover by Fiat – that the car was far more thoroughly developed and tested than any Alfa preceding it. There were plenty of innovations in the build, too, thanks to the extensive use of galvanised steel for the frame and various body panels for the first time in the brand’s history. Moreover, the car featured advanced electronics thanks to the most complex wiring harness fitted to any Alfa Romeo. For example: it had three onboard computers (one for air conditioning, one for instrumentation, and one for the engine management); air conditioning and instrument functions shared a multiple-mode coded Zilog Z80-class microcontroller for dashboard functioning). The instrumentation included a full range of gauges including an advanced check-panel.. The car was a sensation at launch. For a start, it looked fantastic thanks to Enrico Fumia of Pininfarina’ design. The first 1:1 scale model of the car had been produced in 1982 and design cues had been publicly revealed on the Alfa Romeo Vivace concept car, which was exhibited at the 1986 Turin Motorshow that went on to influence the design of the Alfa Romeo GTV and Spider (916 series) launched in 1993, but the result was distinctive and elegant and very different from any of its rivals, or indeed any of the other Tipo 4 cars. The 164 became the first Alfa to benefit from extensive use of computer aided design, used to calculate structural stresses that resulted in a very rigid but still relatively lightweight chassis. Although sharing the same platform as that of the Lancia Thema, Fiat Croma and Saab 9000, by virtue of the fact that it was the last of the four to enter production, it featured unique front suspension geometry and the most distinctive styling of the lot. In fact, for example, the other cars all shared identical side door panels. Though still voluminous, the 164 had the tightest aperture to the boot, which had a 510-Litre capacity. The interior was spacious and modern, available with standard velour seating or leather trim depending on the model. Its dashboard continued the avantgarde design of the exterior with a centre dashboard that was dominated by a large number of seemingly identical buttons arranged in rows. Air-direction within the ventilation system was controlled by a pair of servomechanisms, which were constructed using notoriously fragile plastic gears that were prone to failure. Depending on the model, the 164 could feature automatic climate control and electronically controlled damping suspension – the latter, for example, in the sports-oriented Quadrifoglio Verde (“Green Cloverleaf “) and 164S models. This suspension actively reduced damping in response to conditions to provide a dynamic compromise between road holding and comfort. At launch, the original 164 range comprised three models: a 148 bhp 2.0 Twin Spark, the 192 bhp 3.0i V6 12-valve and a 2.5 Turbodiesel (badged “TD”). It took a year before the first cars reached the UK and the first eighteen months saw only the 3 litre model offered. The bigger selling 2.0 TS arrived in the simmer of 1990, just before the range was expanded by the 4-cylinder 2.0i Turbo, the sports-oriented 3.0i V6 Quadrifoglio Verde (badged “QV” or “S”) and North American export versions that included the luxury-oriented 164 L (“L” for Lusso) and the 164 S (in essence, the “QV”). Apart from minor running production upgrades, the next change came in 1993 with the launch of the 164 Super. Key differences on the outside consisted of larger bumpers with chrome trimmings added to the upper edge and revised headlights with a slimmer profile. Inside, there were revised instruments and a centre console that featured more delineated switchgear. The range was now also bolstered by a 3.0 V6 24V with a 24-valve engine upgrade and the 3.0 V6 Quadrifoglio 4 (badged “Q4”), which was the most powerful and sole all wheel drive variant built. Production ended in late 1997, with a gap of nearly two years before the replacement model would go on sale.
When it came to replacing the 33, Alfa decided that they needed not just a five door hatch, but a three door as well, just as had been offered with the AlfaSud. The three door model, the Alfa Romeo 145 (Tipo 930A) was first to appear, making its debut on static display at the April 1994 Turin Motor Show and then at the Paris Motor Show in July. A simultaneous European commercial launch was planned for 9 September, but it was delayed until October. It was only in April 1992 that work had begun on a second car, the 146 or Tipo 930B, derived from and to be sold alongside the 145; with its more traditionally Alfa Romeo style it was aimed at a different clientele, that of the outgoing Alfa Romeo 33. The 146 premiéred in November 1994 at the Bologna Motor Show and went on sale in May 1995. The two cars shared design plans and interior components from the B-pillar forwards, but with very different looking rear ends. Based, as they were, on the Fiat Group’s Tipo Due (Type Two) platform, the 145 and 146 had a unibody structure, front MacPherson strut and rear trailing arm suspensions. A peculiarity of these cars is that they were designed to be fitted with both longitudinal engines (the older Boxers) and with transverse engines (the diesels and the Twin Spark). The former were mounted in the same configuration as on the 33 or Alfasud, that is longitudinally overhanging the front axle with the gearbox towards the cabin; the latter in the conventional transverse position with the gearbox to the left side. All engines were coupled to 5-speed manual transmissions. Steering was rack and pinion, with standard hydraulic power assistance. At launch the engine line-up for both cars comprised a 1.9-litre inline-four turbo diesel and the boxer petrol engines from the 33, in 1.3 8-valve, 1.6 8-valve and range topping 1.7 16-valve flat four forms. Depending on the market, the engines were available in either or both base and better equipped L (for “Lusso”) trim levels; L trim standard equipment was richer on larger engined cars. Flagship sport models with the two-litre 16-valve Twin Spark inline-four engine from the Alfa Romeo 155 arrived a year after the début: the 145 Quadrifoglio and 146 ti. Each of the two-litre versions had a unique trim level; both included richer standard equipment than L trims, like ABS, leather-wrapped steering wheel and shifter knob and available Recaro sport seats. The 145 Quadrifoglio (145 Cloverleaf in the UK), launched at the September 1995 Frankfurt Motor Show and on sale from October,had deep body-colour side skirts with “green cloverleaf” badges and 5-hole alloy wheels. The 146 ti went on sale in February 1996. It came with painted side skirts, a boot spoiler and 12-hole alloy wheels. Two-litre cars were equipped with stiffer suspension, uprated all-disk braking system, ABS, wider, lower-profile tires and ‘quick-rack’ direct steering (also seen on the 155, GTV and Spider) which improved responsiveness, but also compromised the turning circle. The sporty suspension set-up was harsher than many others in its category at the time, but this was in line with the Fiat Group’s marketing of Alfa Romeo as a sporting brand and it is said to have resulted in class leading handling. From January 1997 all the boxer engines were phased out in favour of 1.4, 1.6 and 1.8 versions of the Twin Spark 16-valve engine.1.8-litre cars adopted the sport chassis, steering and brakes of the Quadrifoglio/ti, and also offered some of their optional equipment such as the sport seats. At the same time the interior was updated: a new air conditioning system, a redesigned dashboard an upholstered insert were fitted. Outside changes were minor: new wheel covers and alloy wheels and a wider choice of paint colours. In late 1997 Alfa Romeo introduced the Junior, a trim level targeted at young buyers that combined the sport styling and chassis setup of the range topping models with the affordable entry-level 1.4 powertrain, later with 1.6 engine too. Based on the 1.4 L, Junior cars were distinguished by the Quadrifoglio’s side skirts with “Junior” badges, specific 15 inch alloy wheels, and by the stainless steel exhaust tip (as well as, on the 146, the boot spoiler) from the ti. A year later 1.8 and 2.0 Twin Spark engines received the updates first introduced on the Alfa Romeo 156; thanks to variable length intake manifolds the two powertrains gained 4-5 PS and reached peak torque at engine speeds some 500 rpm lower. At the Geneva Motor Show in March 1999 Alfa Romeo introduced the restyled ’99 line-up for both models. The new common rail direct injection 1.9 JTD turbo diesel replaced the 1.9 TD. The main changes outside were new, body-colour bumpers with round fog lights and narrow protection strips; the interior got new upholstery and detail trim changes such as chrome vent surrounds. Optional side airbags complemented the already available passenger and standard driver airbags. The Junior trim level was discontinued, in favour of “pack sport” option package that included side skirts, rear spoiler, alloy wheels, leather-wrapped steering wheel and sport seats, all standard features on the two-litre models. A second “pack lusso” package offered leather steering wheel, velour upholstery and mahogany wood trim. In September of the next year, at the Paris Motor Show the all-new Alfa Romeo 147 was presented Eventually, in 2000, the 145/146 cars were superseded by the all-new 147, which was a far bigger commercial success, with its acclaimed styling front end and improved quality. Still, many enthusiasts feel that it lost a little of the special feel and Alfa Romeo that the 145 had. 221,037 145s and 233,295 146s were built, There are depressingly few survivors of either model in the UK.
The 916 Series cars were conceived to replace two very different models in the Alfa range. First of these was the open topped 105 Series Spider which had been in production since 1966 and by the 1990s was long overdue a replacement. Alfa decided to combine a follow on to the Alfetta GTV, long out of production, with a new Spider model, and first work started in the late 1980s. The task was handed to Pininfarina, and Enrico Fumia’s initial renderings were produced in September 1987, with the first clay models to complete 1:1 scale model made in July 1988. Fumia produced something rather special. Clearly an Italian design, with the Alfa Romeo grille with dual round headlights, recalling the Audi-based Pininfarina Quartz, another design produced by Enrico Fumia back in 1981, the proposal was for a car that was low-slung, wedge-shaped with a low nose and high kicked up tail. The back of the car is “cut-off” with a “Kamm tail” giving improved aerodynamics. The Spider would share these traits with the GTV except that the rear is rounded, and would feature a folding soft-top with five hoop frame, which would completely disappear from sight under a flush fitting cover. An electric folding mechanism would be fitted as an option. Details included a one-piece rear lamp/foglamp/indicator strip across the rear of the body, the minor instruments in the centre console angled towards the driver. The exterior design was finished in July 1988. After Vittorio Ghidella, Fiat’s CEO, accepted the design, Alfa Romeo Centro Stile under Walter de Silva was made responsible for the completion of the detail work and also for the design of the interiors, as Pininfarina’s proposal was not accepted. The Spider and GTV were to be based on the then-current Fiat Group platform, called Tipo Due, in this case a heavily modified version with an all new multilink rear suspension. The front suspension and drivetrain was based on the 1992 Alfa Romeo 155 saloon. Chief engineer at that time was Bruno Cena. Drag coefficient was 0.33 for the GTV and 0.38 for the Spider. Production began in late 1993 with four cars, all 3.0 V6 Spiders, assembled at the Alfa Romeo Arese Plant in Milan. In early 1994 the first GTV was produced, with 2.0 Twin Spark engine. The first premiere was then held at the Paris Motor Show in 1994. The GTV and Spider were officially launched at the Geneva Motor Show in March 1995 and sales began the same year. The cars were well received. At launch, many journalists commented that Alfa had improved overall build quality considerably and that it came very close to equalling its German rivals. I can vouch for that, as I owned an early GTV for eighteen months, and it was a well built and reliable car. In 1997 a new engine, a 24-valve 3.0 litre V6, was available for the GTV along with bigger, 12.0 inch brakes and red four-pot calipers from Brembo. The console knobs were changed from round central to rectangle ones and to a three-spoke steering wheel. Some versions were upgraded with different front bumper mesh to bring the wind noise down to 74 dBA. In May 1998 the cars were revamped for the first time, creating the Phase 2 models. Most of the alterations were inside. The interior was changed with new centre console, painted letters on skirt seals, changed controls and switches arrangement and different instrument cluster. Outside, the main changes included chrome frame around the grille and colour-coded side skirts and bumpers. A new engine was introduced, the 142 bhp 1.8 Twin Spark, and others were changed: the 2.0 Twin Spark was updated with a modular intake manifold with different length intakes and a different plastic cover. Power output of the 2.0 TS was raised to 153 bhp. Engines changed engine management units and have a nomenclature of CF2. The dashboard was available in two new colours in addition to the standard black: Red Style and Blue Style, and with it new colour-coded upholstery and carpets. The 3.0 24V got a six-speed manual gearbox as standard and the 2.0 V6 TB engine was now also available for the Spider. August 2000 saw the revamp of engines to comply with new emission regulations, Euro3. The new engines were slightly detuned, and have a new identification code: CF3. 3.0 V6 12V was discontinued for the Spider and replaced with 24V Euro3 version from the GTV. 2.0 V6 Turbo and 1.8 T.Spark were discontinued as they did not comply with Euro3 emissions. By the 2001-2002 model year, only 2 engines were left, the 2.0 Twin.Spark and 3.0 V6 24V, until the Phase 3 engine range arrived. The Arese plant, where the cars had been built, was closing and, in October 2000, the production of GTV/Spider was transferred to Pininfarina Plant in San Giorgio Canavese in Turin. In 2003 there was another and final revamp, creating the Phase 3, also designed in Pininfarina but not by Enrico Fumia. The main changes were focused on the front with new 147-style grille and different front bumpers with offset numberplate holder. Change to the interior was minimal with different centre console and upholstery pattern and colours available. Instrument illumination colour was changed from green to red. Main specification change is an ASR traction control, not available for 2.0 TS Base model. New engines were introduced: 163 bhp 2.0 JTS with direct petrol injection and 237 hp 3.2 V6 24V allowing a 158 mph top speed. Production ceased in late 2004, though some cars were still available for purchase till 2006. A total of 80,747 cars were made, and sales of the GTV and Spider were roughly equal. More V6 engined GTVs than Spiders were made, but in 2.0 guise, it was the other way round with the open model proving marginally more popular.
Seen in the main car parks were a number of examples of the still-current Giulia.
ALPINA
An interesting variant of the M20 engine was Alpina’s C2. The first C2 combined the wider bore of the M20B25 with the slightly larger 76.8 mm crankshaft of an M20B23, to create a torquier engine of 2552 cc. This version put out 185 PS and 265 Nm (195 lb/ft), 74 units were built between 1985 and November 1986. After the C2 2.7 appeared in the spring of 1986, the 2.5 was slightly upgraded and gained 5 horsepower. However, to indicate its “little brother” position in the lineup, the name was changed to C1 2.5. When the September 1987 facelift model of the E30 was introduced, the 2.5 litre C1 was discontinued, although a few cars were finished into 1988. The larger yet 2.7 litre unit was introduced in February 1986 in uncatalyzed C2/1 form. This engine, sharing the dimensions of the M20B27, develops 210 PS at 5800 rpm and shows what the engine was really capable of. Originally installed in the E30-based Alpina C2 2.7, with available four-wheel drive, the catalyzed C2/2 appeared in the interim C2 2.7 Kat in March 1987. This was then renamed “B3 2.7” five months later, by which time the “C2” labelled cars were discontinued. The B3 2.7 continued to be available until June 1992, in all body variants and drivetrain configurations (excepting automatics) in which the E30 was offered. Around 1986, 67 “B6 2.7”-labelled C2-engined E30s were built for export to Japan, where the larger 3.0 L B6 3.5 had a hard time passing emissions regulations. Aside from the C2 drivetrain, the B6 2.7 is cosmetically identical to the B6 3.5. Later C2 2.5 models (C2 /3 2.5) were based on the 325i. Alpina used the M20B25 engine with very few modifications compared to earlier models. Again the cylinder head was decked to increase compression ratio, and it was ported and polished. The ECU was also remapped. Max power is 188 hp, with 235 Nm (173 lb/ft) of torque. 0–100 km/h (62 mph) was achieved in 7.2 seconds. Top speed is 220 km/h (137 mph). Only 50 cars were built. The C2 /1 2.7 used the 325e eta model engine block, crank and rods, but with custom flat head pistons provided by Mahle. Originally Alpina modified the “200” casting number cylinder head specific to the 325e with bigger intake valves, larger air intake ports, and redesigned the valve chamber for better flow. A more aggressive camshaft was used, with higher lift and duration, and harder valve springs were installed. Compression ratio was increased to 10.2:1. The C2/1 2.7 made 210 bhp with 267 Nm (197 lb/ft) of torque and was the fastest E30 available at the time[citation needed] (227 km/h (141 mph) top speed). 108 cars were built. Later C2 /2 2.7 (and early 1987 B3 2.7) used the M20B25 block with ETA (325e) crank and rods. The intake manifold was also redesigned for better flow. The head was decked to improve compression ratio (10.1:1 for models with the 731 head, 9.6:1 for later “885” head models with catalytic converter) and matched with custom pistons – flat Mahle pistons for engines equipped with the 731 head, and domed KS pistons for engines equipped with the 885 head. Larger throttle bodies were installed (the C2/2 version uses the same throttle body as the M20B25 325i). A total of 309 cars were built between 1986 and 1987. The C2/2 2.7 makes 204 bhp and 266 Nm (196 lb/ft) of torque. Top speed is 224 km/h (139 mph) and 0–100 km/h (62 mph) is achieved in 7.5 seconds. The B3 2.7 is similar to late C2/2 2.7 cars. It uses the M20B25 block with M20B27 crank and custom rods. The 885 head is exclusively used for the B3 model. The head is decked ~ 1 mm to improve CR to 9.6:1 and matched with custom domed KS or Mahle pistons. Intake and cylinder head are ported and polished. Custom ECU mapping is used. Engine management is Bosch Motronic 1.3. The B3 2.7 is equipped with a catalytic converter to conform to emission standard of the time. Performance numbers are similar to the later C2/2 2.7 cars. 254 cars were built from 1987 to 1992.
The B3 3.3 version of the E46 3 Series was launched in saloon form at the 1999 Geneva Show, with the coupe following at Frankfurt later in the year., the Touring at Geneva in 2000 and finally a convertible at the 2000 Birmingham Show It had an engine which was based on that of the US spec M3 unit. but enlarged with longer bore and stroke, as well as a different cylinder head and lighter pistons, giving it an output of 280 bhp. A six speed Getrag manual box was standard with a five speed Switchtronic unit an option. The suspension was uprated with stiffer dampers. Outside the changes were subtle with larger spoilers front and rear the only clue if the customer opted not to have the marque’s distinctive pin-striping. Inside there were the usual Alpina touches including sports seats in Alpina stitched leather and bespoke instruments. In 2002, Alpina updated the car to the 3.3S, with a more powerful 305 bhp of the same engine. Most of these cars were based on the post-facelift E46.
The Alpina version of the E85 Z4 came at the 2003 Frankfurt Show and was called the Roadster S. Based on the 3 litre Z4, it used an Alpina tuned version of the older N52 engine to give 300 bhp which was coupled to a 6 speed auto box. Alpina modified the suspension and made minor tweaks to the exterior as well as applying their usual changes to the interior.
Also here was a more recent Alpina B4, based on the previous generation F30 cars.
ALVIS
“In the Alvis Speed 25 the makers have produced a car which will delight those who appreciate fast motoring with an ample margin of safety. A very quick response to the accelerator is matched by exceptional steadiness under heavy braking conditions, light and accurate steering, and road holding of that special quality which is so rarely encountered these days” (Speed 25 Road Test, Motorsport 1936). Launched in August 1936, the Alvis Speed 25 was designed to take advantage of Britain’s rapidly improving road network. Marrying sportscar-like performance to an impressive degree of refinement, the newcomer’s sophisticated chassis layout incorporated independent transverse-leaf front suspension, a four-speed all synchromesh gearbox and large-diameter four-wheel drum brakes. Featuring a balanced seven-bearing crankshaft and novel spring-cluster overhead valve gear, its triple SU carburettor fed 3571cc straight-six engine was quoted as developing 108bhp @ 3,800rpm. A notably smooth and flexible unit, it endowed the model with near 100mph performance. Principally bodied by Charlesworth (Sports Saloon / Drophead Coupe) or Cross & Ellis (Tourer), the Alvis Speed 25 stole sales from both the Bentley 4.25 litre and Lagonda LG45 alike. Only in production from 1936 to 1940, just 391 cars are thought to have left the Holyhead Road factory. Supplied new via B. Waterhouse & Sons Ltd of Bradford (or so its locally issued ‘CKW 91’ number plate would imply), chassis 14591 began life as a Charlesworth-bodied Sports Saloon. Surviving World War Two, the Alvis was registered to Hinde & Lewis of Wolverhampton on 25th October 1948. Acquired by Henry Winfield Ltd of Hemel Hempstead on 12th August 1954, the Speed 25 SC remained with them until January 1965 when it was sold to Colin Holloway of Surrey. A keen member of the Alvis Owners Club and Vintage Sports Car Club, Mr Holloway attended numerous events aboard ‘CKW 91’ as well as using it as an everyday car. Invited to represent Alvis in an ‘All Makes’ parade at Brooklands, the Speed 25 SC underwent some bodywork renovation and a colour change from Blue to Blue over Black during 1969. Laid-up in a barn some six years later due to a cracked exhaust manifold, ‘CKW 91’ entered the current ownership during October 2002. Relocating to the vendor’s North Yorkshire workshop after slumbering for decades, the Alvis was completely dismantled. Shot blasted and repainted, the chassis was fitted with a new petrol tank and wheel bearings and also had its back axle, suspension and brakes refurbished. The original engine was overhauled via a crankshaft regrind, re-metalled bearings and fresh pistons etc. The associated ancillaries were rejuvenated too. A comprehensive rewire was carried out and the four-speed all synchromesh gearbox found to need nothing more than an oil change. On examination the Charlesworth Sports Saloon body proved to be in a very sorry state with rotten woodwork, badly corroded aluminium door pillars and the wings being held on with many wood screws to gain a purchase in the decaying timber frame. The decision was taken to have a new drop-head body crafted by The Carrosserie Company (UK) Ltd which they also painted and installed. The upholstery was renewed and a new lined hood fitted. All the brightwork was re-chromed. The total cost of the restoration was in excess of £140,000. Accompanying paperwork encompasses two continuation buff logbooks and assorted restoration photographs.
Conceived in 1956, and launched as the TD21, this was quite a departure from the lovely, but rather “post-war” TC21. However, on its arrival in dealer’s showrooms, it quickly set about changing established views of the Alvis. Following the loss of coachbuilders Mulliner and Tickford (who were now tied to other companies), Alvis turned to the Swiss coachbuilder, Graber whose tradition of producing sleek, modern and very elegant saloons and dropheads proved a good fit in terms of the way Alvis saw their future. Graber first presented this new style to the Alvis board in late 1957 who were very impressed with the Swiss company’s flowing design and commissioned the body to be built on the new TD chassis. To ease logistical problems, Park Ward of London, built the Graber designed bodies in the UK. The Alvis Three Litre TD21 Series I was produced between the end of 1958 and April 1962, and was powered by the TC’s 2993 cc engine, uprated by 15bhp to 115 as a result of an improved cylinder head design and an increased compression ratio. A new four-speed gearbox from the Austin-Healey 100 was incorporated, while the suspension remained similar to the cars predecessor, independent at the front using coil springs and leaf springs at the rear, but the track was increased slightly and a front anti-roll bar added. From 1959 the all drum brake set up was changed to discs at the front retaining drums at the rear. In April 1962, the car was upgraded with four wheel Dunlop disc brakes in place of the disc/drum combination, aluminium doors, a five-speed ZF gearbox and pretty recessed spotlights either side of the grille, these improvements coming together to create the TD21 Series II. The car would be updated in 1963 to create the TE21, with its distinctive dual headlights proving a recognition point, and the later TF21, continuing in production until 1967 at which point Alvis ceased car manufacture.
AMILCAR
ARMSTRONG SIDDELEY
The Armstrong Siddeley Typhoon is a two-door, four-seat fixed-head coupé automobile produced by the British company Armstrong Siddeley from 1946 until 1949. It was based on the Armstrong Siddeley Lancaster saloon and continued the company’s theme of naming cars after Hawker Siddeley World War II aircraft. The chassis had independent front suspension using longitudinal torsion bars and a live rear axle with leaf springs. A Girling hydro-mechanical braking system was fitted, with the front drums hydraulically operated while those at the rear used rod and cable. At first the Typhoon were fitted with a 70 bhp 1991 cc, six-cylinder, overhead-valve engine, carried over from the pre-war 16 hp model, but from 1949 this changed to 2309 cc and 75 bhp by increasing the cylinder bore from 65 to 70 mm. Hydraulic tappets were fitted to most engines, but towards the end of production there was a change to solid tappets. There was a choice of manual four-speed with synchromesh on the top three ratios or pre-selector gearbox. The four-seat, two-door body was made of steel and aluminium panels fitted over a wood-and-aluminium frame with a fabric roof. The doors were rear hinged, an arrangement that got the name of suicide doors. At launch, the car cost £1214 on the UK market. 1701 were sold.
ASTON MARTIN
With more short chassis cars than tourers being produced in 1929, the efforts of the Aston Martin works were clearly going towards the sports end of the market. By the end of the year the ‘Standard Sports Model’ had developed into the ‘Four-seater “International” Sports Model’, more commonly known simply as the “International”. It was quickly and widely regarded as one of the best light sports cars of the day. The name “International” was coined to cash in on the works’ racing efforts. The appearance of the cars at Brooklands race track and in rallies, sprints and hill climbs all around the country alongside the works team cars, increased the cars’ sporting reputation. The “International” was truly a sports car in the best tradition of the earlier Bamford and Martin cars. Now with twin 1⅛” carburettors it had dry sump lubrication as standard, which kept the temperature of the oil at least 10 degrees cooler than in the wet sump engines. It was fitted with relatively large fourteen inch diameter brakes operated by Perrot shafts at the front. The “International” was expensive but performance was good enough for the motoring press to praise the car highly. A significant amount of advertising was placed in the popular motoring press highlighting competition successes. The “International” had a similar but dimensionally different chassis to the ‘Standard Sports Model’. Also slightly different, was the brake arrangement, and the gearbox was moved back in the chassis to leave more room in the driver’s side foot-well. These small modifications were typical of the subtle development that all the Bertelli cars went through. This was in part a result of Bertelli driving the cars himself in competition. For example, he would have been well aware that the gearbox of the early cars needed to be moved back; he would have had a pain in his left leg where they constantly rubbed! Renwick and Bertelli had designed and developed a simple yet rugged 1½ litre sports car. The build quality was very high with the best standard of materials used throughout. The entire car (with the exception of the steering box) was designed and built at the factory (from November 1929, now Aston Martin Ltd). It was very carefully assembled with engines, rear axles and gearboxes all tested on their own dynamometers, after which they were stripped and checked. This made it very expensive to produce. However, the simplicity and elegance of the design made for an efficient little sports car, which had the legs of many of its competitors.
Representing the longest lived design in Aston Martin’s history were a number of DBS and V8 cars. By the mid 1960s, Aston Martin’s customers had been clamouring for an eight-cylinder car, so Aston Martin designed a larger car. The engine was not ready, however, so in 1967 the company released the DBS with the straight-six Vantage engine from the DB6. Two years later, Tadek Marek’s V8 was ready, and Aston released the DBS V8. Though the body and name was shared with the six-cylinder DBS, the V8 sold for much more. The body was a modern reinterpretation of the traditional Aston Martin look, with a squared-off grille and four headlights (though some consider the styling derivative of the early Ford Mustang). Distinguishing features of the V8 model are the larger front air dam and lack of wire wheels, though some six-cylinder DBS cars also used the V8’s alloy wheels. The tail lights were taken from the Hillman Hunter. A road test report of the time noted that the car had gained 250 lb in weight with the fitting of the V8 in place of the previously used six-cylinder unit, despite the manufacturer’s assurance that the engine weighed only 30 lb more than the older straight-six. Other contributions to the weight gain included heavier ventilated brake discs, air conditioning, fatter tyres, a new and stronger ZF gearbox as well as some extra bodywork beneath the front bumper. Marek’s V8 engine displaced 5,340 cc and used Bosch fuel injection. Output was not officially released, but estimates centre around 315 hp. The DBS V8 could hit 60 mph in 5.9 seconds and had a top speed of nearly 160 mph. 402 DBS V8s were built. In April 1972, the DBS V8 became just the Aston Martin V8 as the six-cylinder DBS was dropped, leaving just this car and the six-cylinder Vantage in production. The V8 became known as the AM V8, a model retroactively referred to as the Series 2 V8 to separate it from later models. Visual differences included twin quartz headlights and a mesh grille, a front design which was to last until the end of production in 1989. AM V8 cars, produced from May 1972 through July 1973, used a similar engine to the DBS V8, albeit with Bosch fuel injection rather than the earlier carburettors. Just 288 Series 2 cars were built. Although David Brown had left the company, he had overseen development of this model. The first 34 cars still carried leftover “DBS V8” badging. The car switched back to Weber carburettors for the Series 3 in 1973, ostensibly to help the car pass new stricter emissions standards in California but most likely because Aston Martin was unable to make the Bosch fuel injection system work correctly. These cars are distinguished by a taller bonnet scoop to accommodate four twin-choke (two-barrel) Weber carbs. The car produced 310 hp and could reach 60 mph in 6.1 seconds with an automatic transmission or 5.7 with a manual. Performance suffered with emissions regulations, falling to 288 hp in 1976. The next year, a more powerful “Stage 1” engine with new camshafts and exhaust brought it up to 305 hp. Production of Series 3 cars lasted from 1973 through October 1978, but was halted for all of 1975. 967 examples were produced in this time. While earlier V8 cars have louvers cut into the little panel mounted beneath the rear windshield, the Series 3 and later cars instead have a small lip at the bottom of this panel, just ahead of the leading edge of the bootlid. The “Oscar India” specification was introduced in October 1978 at the Birmingham International Motor Show. Visually, the former scoop on the bonnet gave way to a closed “power bulge”, while a spoiler was integrated into the tail. Most Oscar India cars were equipped with a Chrysler “Torqueflite” three-speed automatic transmission, with wood trim fitted for the first time since the DB2/4 of the 1950s. Just 352 Oscar India models were built from 1978 through 1985. The power of the now de-smogged engines kept dropping on American market cars, down to a low of 245 hp in the early eighties. The convertible “Volante” was introduced in June 1978, but featured the Series 4 bonnet a few months before the coupé received the Oscar India update. The Volante Series 1 weighs 70 kg (155 lb) more than the coupé, due to the necessity of reinforcing the frame. US market cars received much larger bumpers beginning with the 1980 model year, adding weight and somewhat marring the car’s lines. Owners of US-specified cars often modify them to have the slimmer European bumpers. By 1981, the success of the Volante meant that the coupé model was only built on individual demand. The fuel-injected Series 5 cars were introduced in January 1986 at the New York International Auto Show. The compact Weber/Marelli system no longer needed the space of the previous carburettors, so the bonnet bulge was virtually eliminated. 405 Series 5 cars were built before production ceased in 1989. The Volante Series 2 received the same changes; 216 were built.
The V8 Zagato model Aston Martin was a grand tourer of the 1980s. Just 52 examples of the coupé and 37 of the convertible were built between 1986 and 1990. The coupé was first unveiled at the 1986 Geneva Motor Show, and orders were quickly taken despite only showing the drawing of the car. The decision to build the later convertible was controversial – all 52 coupés had already been purchased at the height of the supercar speculation market and owners felt that producing additional cars would lower the value of the coupés. The convertibles consistently fetch higher prices than the roofed versions. As the name suggests, the V8 Zagato was based on the Aston Martin V8 Vantage but with a body by the coachbuilder Zagato. The design was an angular modern interpretation of the Aston Martin DB4 GT Zagato of the 1960s. The squared off grille was especially controversial. The Zagato was powered by a 430 bhp (436 PS) V8 engine with twin choke Weber carburettors. The all-alloy car could reach 300 km/h (186 mph). It was a luxurious car with a price tag of $156,600 at the time, but with the high rarity, and being released at the supercar price boom of 1987 to 1990, and by the end of the decade, the car was changing hands for £450,000. The later convertible sold for $171,000. The comedian Rowan Atkinson purchased the first right-hand-drive car produced in 1998 and had it converted to Aston Martin Owners’ Club racing series C2 specifications. He crashed it in July 2001 whilst competing at an enthusiasts’ meeting, but walked away unhurt. The conversion was undertaken by Aston Martin Works Service with a total rebuild cost of around £220,000. The Tadek Marek 5.3 V8 engine was reworked to produce an estimated 482 bhp (489 PS), carrying the unique designation 580XR. The car retired from racing in 2007 and Atkinson sold it in 2008 for £122,500.
The Aston Martin V12 Vanquish was designed by Ian Callum and bore a large resemblance to the production DB7 Vantage. However, the car had a strong influence from the Project Vantage Concept prototype which debuted with a V12 engine at the North American International Auto Show in January 1998. As underneath the car featured a strong aluminium/carbon composite construction, bonded chassis with a 5,935 cc V12 engine. It was available in 2+0 and 2+2 seating configurations. The 48-valve 60° engine produces 460 bhp and 400 lb⋅ft of torque. It is controlled by a drive-by-wire throttle and a six-speed Electrohydraulic manual transmission. The standard Vanquish model had 14.0 inch drilled and ventilated disc brakes with four-pot calipers, ABS, with electronic brake distribution. Its appearance in the 2002 James Bond film Die Another Day earned the V12 Vanquish the number three spot on the list of Best Film Cars Ever, behind the Minis from The Italian Job, and DB5 from Goldfinger & Thunderball. The car also appears in the video games Need For Speed: Hot Pursuit 2, James Bond 007: Nightfire, and James Bond 007: Everything or Nothing. The Vanquish S debuted at the 2004 Paris Auto Show, with increased horsepower and performance and slight styling revisions. The engine displacement remained at 5,935 cc with power increased from 460 to 520 bhp. Visual changes included new wheels, a slightly different nose shape, a new raised bootlid with a larger integrated spoiler incorporating the third high level brake light (in the rear window on the original Vanquish), a Vanquish S badge on the bootlid (the original Vanquish had no rear model designation) and the addition of a small front splitter (although this was mainly done for aerodynamic reasons). As part of its improvements, the Vanquish S featured a slightly improved coefficient of drag of 0.32 (from 0.33), with help from a redesigned splitter and boot lid. Its front and rear track were 1,524 mm (60.0 inches) and 1,529 mm (60.2 inches), respectively. It also incorporated the features of a 2004 option package, the Sports Dynamic Pack, which incorporated sportier suspension, steering, and brake features. This model was sold for the 2005 (alongside the base Vanquish) and 2006 (as a stand-alone) model years in the United States with only minor running changes; it was not sold in the United States for 2007. The Vanquish S featured larger brakes than the V12 Vanquish; 14.9 in front discs with six-pot calipers and 13.0 inches rear discs. The end of the Vanquish’s production run was celebrated with the Vanquish S Ultimate Edition. Aston Martin announced that the last 50 cars built would have a new ‘Ultimate Black’ exterior colour, upgraded interior, and personalised sill plaques. 1086 Vanquish S were built. With a 200+ MPH top speed, the Vanquish S was (as measured by top speed capability) the fastest Aston Martin ever until the Vantage V12 S was introduced in May 2013. Vanquish production ended on 19 July 2007, coinciding with the closing of the company’s Newport Pagnell factory after 49 years of operation.
Several of the recently superceded Vantage model were here. Following the unveiling of the AMV8 Vantage concept car in 2003 at the North American International Auto Show designed by Henrik Fisker, the production version, known as the V8 Vantage was introduced at the Geneva Motor Show in 2005. The two seat, two-door coupé had a bonded aluminium structure for strength and lightness. The 172.5 inch (4.38 m) long car featured a hatchback-style tailgate for practicality, with a large luggage shelf behind the seats. In addition to the coupé, a convertible, known as the V8 Vantage Roadster, was introduced later in that year. The V8 Vantage was initially powered by a 4.3 litre quad-cam 32-valve V8 which produced 380 bhp at 7,300 rpm and 409 Nm (302 lb/ft) at 5,000 rpm. However, models produced after 2008 had a 4.7-litre V8 with 420 bhp and 470 Nm (347 lbft) of torque. Though based loosely on Jaguar’s AJ-V8 engine architecture, this engine was unique to Aston Martin and featured race-style dry-sump lubrication, which enabled it to be mounted low in the chassis for an improved centre of gravity. The cylinder block and heads, crankshaft, connecting rods, pistons, camshafts, inlet and exhaust manifolds, lubrication system and engine management were all designed in house by Aston Martin and the engine was assembled by hand at the AM facility in Cologne, Germany, which also built the V12 engine for the DB9 and Vanquish. The engine was front mid-mounted with a rear-mounted transaxle, giving a 49/51 front/rear weight distribution. Slotted Brembo brakes were also standard. The original V8 Vantage could accelerate from 0 to 60 mph in 4.8 seconds before topping out at 175 mph. In 2008, Aston Martin introduced an aftermarket dealer approved upgrade package for power and handling of the 4.3-litre variants that maintained the warranty with the company. The power upgrade was called the V8 Vantage Power Upgrade, creating a more potent version of the Aston Martin 4.3-litre V8 engine with an increase in peak power of 20 bhp to 400 bhp while peak torque increased by 10 Nm to 420 Nm (310 lb/ft). This consists of the fitting of the following revised components; manifold assembly (painted Crackle Black), valved air box, right and left hand side vacuum hose assemblies, engine bay fuse box link lead (ECU to fuse box), throttle body to manifold gasket, intake manifold gasket, fuel injector to manifold seal and a manifold badge. The V8 Vantage had a retail price of GB£79,000, US$110,000, or €104,000 in 2006, Aston Martin planned to build up to 3,000 per year. Included was a 6-speed manual transmission and leather-upholstery for the seats, dash board, steering-wheel, and shift-knob. A new 6-speed sequential manual transmission, similar to those produced by Ferrari and Lamborghini, called Sportshift was introduced later as an option. An open-topped model was added to the range in 2006 and then in the quest for more power a V12 Vantage joined the range not long after.
During 2016, a handful of lucky customers were able to take delivery of one (or both) of a couple of very special versions of the Vantage offered, the GT8 and GT12, and an example of the latter was here. First of them was the Vantage GT12. This started out as the Aston Martin Vantage GT3 special edition when it was unveiled at the Geneva Motor Show 2015. The company said that they would only manufacture 100 cars. After a complaint from Porsche over the use of the “GT3” moniker, the car was renamed the Vantage GT12. It features a new iteration of the 6.0-litre V12 that produces 592 bhp and 461 lb/ft of torque. It has a kerb weight of 1,535 kg (3,384 lb), and can accelerate from 0 to 60 mph in 3.5 seconds. There were sufficient external alterations that you would know that you were looking at something very special. For the Vantage GT8, which was launched a year later, Aston decided to make more cars – 150 of them, which was 50 more than the GT12. The GT8 features the same 4.7-litre V8 as found in the base Vantage but with power now increased to 440 bhp, and has a top speed of 190 mph (310 km/h). The GT8 is available with either a 6-speed manual or a 7-speed Sportshift II automated manual transmission, and has a kerb weight of 1,510 kg (3,329 lb), a 100 kg (220 lb) reduction over the V8 Vantage S.
The Aston Martin DB11 is a two-door grand touring car. It was available as both a coupe and a convertible, the latter known as the “Volante”. The British carmaker Aston Martin produced the DB11 from 2016 to 2023 when it was replaced by the DB12. The DB11 succeeded the DB9, which the company made between 2004 and 2016. Designed by Marek Reichman, who became lead designer in May 2005, the DB11 debuted at the Geneva Motor Show in March 2016. The first model of Aston Martin’s “second-century plan”, the DB11—like its predecessor and its platform siblings—incorporates aluminium extensively throughout its body. Official manufacture of the DB11 began at the facility in Gaydon, Warwickshire, in September 2016. Two engine configurations of the DB11 were available: a 4.0-litre V8-engine model produced by Mercedes-AMG and a 5.2-litre V12-engine model produced by Aston Martin. The Volante version of the DB11 was introduced in October 2017. In 2018, Aston Martin and its racing division replaced the DB11 V12 with the DB11 V12 AMR, which included an increased engine output. The V8-powered model also received an enhancement in engine performance in 2021. Aston Martin began producing the DB9—a grand touring car—in January 2004 at the facility in Gaydon, Warwickshire. It was the first car built on the vertical–horizontal platform—a design in which all vehicles that used it extensively incorporated aluminium throughout their construction. This platform formed the basis of the Vantage in 2005, the DBS in 2007, the Rapide in 2010, the Vanquish in 2012 and the Lagonda Taraf in 2014. In 2015, Aston Martin announced that the DB9’s successor would be named the “DB11”. The upcoming range, known as the “second-century plan”, which the DB11 was a part of, was to introduce a refreshed design approach directed by Marek Reichman, whom Aston Martin appointed lead designer in May 2005. Insider reports indicated that this model range aimed to address critiques of the existing lineup by emphasising distinctive differences among the models, aligning them more closely with the prominent Italian luxury automobile manufacturer Ferrari. Manufacture of the DB9 officially ended in July 2016, after a twelve-year production run during which 16,500 units had been made. The DB11 debuted at the Geneva Motor Show in March 2016. Official manufacture of the DB11 began on 28 September 2016 at the facility in Gaydon, Warwickshire. To demonstrate his commitment to quality, Aston Martin’s then-CEO, Andy Palmer, personally inspected the first 1,000 cars. Similar to its predecessor, the DB11 is based upon a platform—which it shares with the 2018 model Vantage and the DBS Superleggera—that extensively incorporates aluminium throughout its construction. The chassis, in comparison to the DB9, is lighter and stiffer. Its body panels are made of both aluminium and composite materials, and the bonnet is a single-piece unit. Together, the car’s flat underbody, rear diffuser and sizable front splitter manage airflow beneath the DB11, minimising lift. The DB11 features an AeroBlade that captures high-speed air at the C-pillars and channels it through ducts under the bodywork, exiting through slots in the boot lid. This system mimics the effects of a large rear spoiler, reducing drag without added bodywork. An extendable active spoiler enhances the AeroBlade’s efficiency at high speeds. The DB11 has been described as both a sports car and a grand tourer. It is a two-door coupe that was available only in a four-passenger seating configuration. The DB11 has a rear-wheel drive layout with a front-mid-engine placement and exclusively uses a rear-mounted, eight-speed automatic transmission made by the technology manufacturing company ZF Friedrichshafen. Each DB11 was handcrafted, involving approximately 600 engineers and taking around 250 hours to complete. The Vanquish features anti-roll bars and double wishbone suspension supported by coil springs. There are three different drive modes available for both the drivetrain and chassis: normal—suitable for daily driving; sport—offering enhanced precision; and Sport+—intensifying the characteristics of the sport mode. The DB11 has a near-perfect weight distribution of 51 per cent at the front and 49 per cent at the rear. According to the magazine Motor Trend, the DB11 has a combined fuel economy figure of 17 miles per US gallon (14 L/100 km; 20 mpg‑imp). According to Auto Express, the car has a CO2 emission rating of 270 g/km. The doors of the DB11, like the DB9, are swan-hinged. The infotainment system operates on an eight-inch liquid-crystal display accessed via a rotary controller or an optional touchpad. Each DB11 comes with a 400-watt audio system, USB playback, SiriusXM satellite radio, and a Wi-Fi hotspot with iPhone integration. Upgrades were available for a 700-watt sound system or a 1,000-watt Bang & Olufsen unit. The DB11 has a boot capacity of 270 litres (9.5 cu ft). The AE31 twin-turbocharged V12 engine, with a 5,204 cc displacement, was featured in the initial version of the DB11. It produces a power output of 600 bhp at 6,500 rpm and a torque output of 700 Nm (520 lb/ft) between 1,500–5,000 rpm, sufficient to give the car a zero to 60 mph (97 km/h) acceleration of 3.6 seconds and a maximum speed of 200 miles per hour (320 km/h). Aston Martin began the development of the V12 engine in the summer of 2012 under the leadership of Brian Fitzsimons. The project progressed quickly; initial test firing began in October 2012, and it received approval for production in January 2013. The new V12 engine continues to use conventional fuel injection rather than direct injection due to concerns about the potential increase in particulate emissions associated with direct injection petrol engines. The DB11 V12 can run the quarter mile in 11.7 seconds. In May 2018, Aston Martin introduced the DB11 Aston Martin Racing (AMR) version, which succeeded the DB11 V12. The DB11 AMR offers enhanced performance capabilities compared to its predecessor. The previous DB11 V12 had been in production for eighteen months. The updated DB11 AMR produces a power output of 630 bhp at 6,500 rpm and a torque output of 700 Nm (520 lb/ft) at 1,500 rpm, sufficient to give the car a zero to 60 mph (97 km/h) acceleration of 3.7 seconds and a maximum speed of 208 mph (335 km/h). Its shift programming has been revised, its rear suspension is firmer and stiffer, and its twenty-inch forged wheels are 3.5 kilograms (7.7 lb) lighter. Aston Martin introduced a limited edition of 100 DB11 AMR Signature Edition cars at the beginning of production, featuring a Stirling Green paint scheme with lime green accents. It has a zero to 60 mph (97 km/h) acceleration of 3.5 seconds—0.2 seconds faster than the base AMR. Deliveries started in the second quarter of 2018. In July 2021, Aston Martin announced that the AMR name would no longer be used for the V12-powered DB11 as part of their updated model lineup. The original V12 model was supplemented by an entry-level V8 version in June 2017. Powered by a 4.0-litre Mercedes-Benz M177 twin-turbocharged V8 engine developed by Mercedes-AMG, this configuration achieves a weight reduction of 115 kilograms (254 lb) compared to the V12 variant, resulting in a total kerb weight of 1,760 kilograms (3,880 lb). In contrast to the V12 model, the DB11 V8 has a weight distribution of 49 per cent at the front and 51 per cent at the rear. The V8 engine delivers 503 bhp and 675 Nm (498 lb/ft), providing the car with a zero to 60 mph (97 km/h) in four seconds and a top speed of 187 mph (301 km/h). In July 2021, Aston Martin revealed an upgraded version of the DB11 V8. The power output was increased to 528 bhp, allowing the car to accelerate from zero to 60 mph (97 km/h) in 3.9 seconds and reach a higher top speed of 192 miles per hour (309 km/h). In October 2017, Aston Martin introduced the DB11 Volante, a convertible version of the DB11. The Volante has a weight distribution of 47 per cent at the front and 53 per cent at the rear, and is powered by the same 4.0-litre twin-turbocharged V8 engine as the DB11 V8 coupe, albeit with more torque, at 696 Nm (513 lb/ft). The DB11 Volante can accelerate from zero to 60 mph (97 km/h) in 4.1 seconds and possesses a maximum speed of 187 mph (301 km/h). The additional lower body strengthening and the electric roof mechanism in this version increase the weight by approximately 110 kilograms (240 lb). The DB11 received mostly positive reviews. Production of the DB11 ended at the end of June 2023. It was replaced by the DB12, which was unveiled at the 2023 Cannes Film Festival.
The latest and still current Aston Martin Vantage was unveiled on 21 November 2017 with production starting in June 2018, replacing the previous model which had been in production for 12 years. It introduced a new styling direction but this was not universally well received and the car had a hefty price increase over its predecessor. Muted press enthusiasm did not help and sales have been disappointing. Aston Martin have continued to develop the model with a number of new versions introduced, to try to improve demand. The Vantage AMR is a track-focused variant of the Vantage. The main highlight of the model is the replacement of the ZF 8-speed automatic transmission with a dog-leg Graziano Trasmissioni 7-speed manual transmission previously used on the V12 Vantage S. The AMR also comes with a driver-selectable AMSHIFT system which controls the throttle during gear shifting. A new limited-slip differential ensures linear delivery of power. The power-band of the engine is wider and the unit is designed to deliver 625 Nm (461 lb/ft) of torque from 2,000 rpm to 5,000 rpm. The use of a manual transmission and carbon-ceramic brakes reduce the weight by 95 kg (209 lb). New adaptive dampers with the section of Sport, Sport + and Track modes improve handling. Performance figures include a 0–97 km/h (60 mph) acceleration time of 3.9 seconds, half a second more than the standard Vantage while the top speed remains the same as the standard model. Visual changes include 20-inch forged wheels as available on the Rapide AMR, new carbon fibre side vents and cooling vents present on the hood a sports exhaust system with quad tailpipes and racing bucket seats. Production of the AMR will be limited to 200 units worldwide. Available exterior colours for the AMR include Sabiro Blue, Pnyx Black, China Grey and White Stone. The final 59 cars will be finished in a Sterling Green exterior colour with Lime accents and will pay homage to the 1959 24 Hours of LeMans victory of Aston Martin. Once the production of the AMR ceases, the 7-speed manual transmission will become available on the standard Vantage. The vehicle went on sale in May 2019, with delivery set to begin in Q4 2019. Revealed in February 2020, the Vantage Roadster is a convertible version of the V8 Coupe with a fabric roof. The roof claimed to be the fastest of any automotive automatic convertible system, takes 6.7 seconds to lower and 6.8 seconds to raise and can be operated at speeds of up to 50 km/h (31 mph). The Vantage Roadster has a dry weight of 1,628 kg (3,589 lb). The F1 Edition is a version of the V8 Coupe and V8 Roadster commemorating Aston Martin’s return to Formula One after 61 years. The car features a fixed rear wing at the back, increased engine power to 535 PS (528 bhp), a top speed of 314 km/h (195 mph), new 21-inch wheel rims, and a 0–100 km/h (0–62 mph) acceleration time of 3.5 seconds. The car is available in three colours: Aston Martin Racing Green, Jet Black, and Lunar White. A convertible version called the Roadster is also available. Delivery began in May 2021.
The Aston Martin Valkyrie (also known by its code-names as AM-RB 001 and Nebula) is a limited production hybrid sports car collaboratively built by British automobile manufacturers Aston Martin, Red Bull Racing Advanced Technologies and several other parties. The sports car is a product of collaboration between Aston Martin and Red Bull Racing to develop a track-oriented car entirely usable and enjoyable as a road car, conceived by Adrian Newey, Andy Palmer, Christian Horner and Simon Sproule. Adrian Newey, who was Red Bull Racing’s Chief Technical Officer, aided in the design of the car. The original codename was Nebula, an acronym for Newey, Red Bull and Aston Martin. The name AM-RB 001 was chosen as the final codename, and was decided since Aston Martin and Red Bull Racing had collaborated all throughout the project. AM stands for Aston Martin, and RB stands for Red Bull. 001 may be a reference to it being the first production car the two have collaborated on. In March 2017, Aston Martin revealed that the car would be named Valkyrie, after the Norse mythological figures. According to Red Bull, the name was chosen to continue the tradition of “V” nomenclature of Aston Martin’s automobiles and to distinguish the vehicle as a high-performance car (the “V” was used as the distinguishing factor). The Aston Martin Valhalla, which is known as “Son of Valkyrie”, likewise has its origin in the mythological location Valhalla. A show car was initially unveiled to the public in order to give the public an idea of its design. The design was in a near-production-ready form. The exterior of the car is extremely aerodynamic for a sports car, with an extensively open underfloor, that works on the principle of the Bernoulli and Venturi effects and is capable of producing 18,000 N (1,800 kgf) of downforce at high speed (See Ground effect (cars)). Gaps on top of the car (for example, above the front axle and the roof intake) and a large front splitter aid in generating downforce. The wheels are also designed to manage the airflow and be as light as possible at the same time. The interior design was leaked online on 20 June 2017 and gave a preview of the car’s design. The interior has no gauge cluster, but rather a collection of screens. By the left and right corners are the screens for the camera side mirrors. One screen sits at the top of the center console, which may have a collection of live vehicle information, and regular vehicle controls, but this is not confirmed. A screen is used on the race-inspired steering wheel and acts as the driver gauge cluster. Dials and switches sit beside the wheel screen to allow for easier changes without driving interruption. The seats, formed from hollow carbon fibre straight into interior perimeter, are bucket variants, and have two seat belts for each car seat. Because of the extremely small interior and doors (which are practically roof-only hatches), each seat is designed specifically for the owner’s body shape through 3D scanning. A removable steering wheel provides slightly more space for entry and exit. In February 2017, Aston Martin revealed most of the vehicle’s specifications. The final specifications were revealed later in the year. Several manufacturers (other than Aston Martin and Red Bull) have taken part in the Valkyrie’s construction, those being Cosworth, Ricardo, Rimac Automobili, Multimatic, Alcon, Integral Powertrain Ltd, Bosch, Surface Transforms, Wipac, HPL Prototypes and Michelin. The car contains a 6.5-litre naturally-aspirated V12 engine tailored by Cosworth, which produces around 746 kW (1,000 hp) at 10,500 rpm, with a redline of 11,100 rpm. This will make it the most powerful naturally-aspirated engine ever to be fitted to a production road car. With a KERS-style boost system akin to those fitted to F1 cars, the Aston Martin Valkyrie’s hybrid system has been developed by two main technical partners; Integral Powertrain Ltd, who supplied the bespoke electric motor, and Rimac for the lightweight hybrid battery system. As a result, the full hybrid system contributes an additional 120 kW (160 bhp) of power and a further 280 N⋅m of available torque with the certified max power output of Aston Martin Valkyrie standing at 865 kW (1,160 hp) @ 10,500rpm. Equally, with the full hybrid system, peak torque will stand at 900 N⋅m (664 lbf⋅ft) @ 6,000 rpm. At the same time the power output figures were released, the weight was announced to be 1,030 kg (2,271 lb), surpassing the intended 1:1 power-to-weight ratio with 840 kW (1,126 hp) per ton. The car can accelerate to 100 km/h (62 mph) from a standstill in a time of 2.6 seconds. The exhausts exit at the top of the car, near the engine, similar to those of Formula One cars and the Porsche 918 Spyder. Bosch supplies the Valkyrie’s ECU, traction control system, and ESP. The braking system is provided by Alcon and Surface Transforms. The front and rear lights are manufactured by Wipac. The car has all-carbon fibre bodywork and is installed with a carbon fibre Monocell from manufacturer Multimatic. Michelin supplies the Valkyrie with the company’s high-performance Sport Cup 2 tyres, having sizes of 265/35-ZR20 at the front and 325/30-ZR21 at the rear. The wheels are constructed out of lightweight magnesium alloy (20 in (510 mm) front, 21 in (530 mm) rear) with race-spec centre-lock wheel nuts to reduce mass. In 2020, after Red Bull Racing’s Red Bull Racing RB16 had its first shakedown in Silverstone Circuit, drivers Max Verstappen and Alexander Albon drove the car around the track. The track-only variant of the Valkyrie called the Valkyrie AMR Pro was introduced at the 2018 Geneva Motor Show. Only 25 units will be produced, all of which have already been sold. The AMR Pro uses the same 6.5-litre naturally-aspirated V12 engine as used in the Valkyrie road car without the KERS system. The engine will also be modified, which means the AMR Pro will have up to 1,100 (est. 1,160-1,300) horsepower; more than its road-legal counterpart. The AMR Pro uses smaller 18-inch wheels at the front and rear. This is to allow the Michelin racing tyres (based on LMP1 race cars) to fit the car, with F1-inspired carbon-carbon brakes to aid braking performance. The air-conditioning system and infotainment screens have been removed, and have been replaced with racing counterparts. The car will be able to generate 3.3g lateral force during cornering and 3.5g during braking. Its top speed is intended to be higher than the road car, at 402 km/h (250 mph). The car’s exhaust will have very minimal parts to silence the engine. In 2021, the production-intent AMR Pro was unveiled, having a significantly more aggressive design, with an LMP1-style rear aerodynamic fin, a large dual-element rear wing, and a large rear diffuser. In terms of this production-intent design, it looks more similar to the regular (but elongated) Valkyrie, than it did with the original concept. Production number also has increased from 25 to 40. In August 2021, Aston Martin announced a Spider variant for the 2023 model year. Production commenced in the second half of 2022 with a stated intent of 85 examples being produced. The Valkyrie Spider has a removable carbon fibre roof and trades the coupé model’s gullwing doors for a pair of front-hinged dihedral butterfly doors. In October 2023, Aston Martin announced the development of the Valkyrie as a Le Mans Hypercar, with the goal of participating in both FIA World Endurance Championship and IMSA Sportscar Championship, in the Hypercar and GTP classes, respectively, from 2025 onwards. The car is scheduled to debut at the 2025 24 Hours of Daytona. With the production model’s engine displacing 6.5L, Aston Martin will have to make extensive modifications to the Valkyrie’s Cosworth V12 to make it eligible for FIA and IMSA competition. Aston Martin will be working together with The Heart of Racing to run their entries. The road car’s production will be limited to 150 units at a unit price of US$3.5 million. The AMR Pro production will be limited to 25 units at a unit price of US$4 million. Both versions have sold out.
Also here was the latest model to enter the range, the DB12.
AUDI
Still well-regarded over 40 years since its launch is the Quattro, a legend which transformed rallying and brought the idea of four wheel drive as a performance benefit to the market. The idea for a high-performance four-wheel-drive car was proposed by Audi’s chassis engineer, Jörg Bensinger, in 1977, when he found that the Volkswagen Iltis could outperform any other vehicle in snow, no matter how powerful. Bensinger’s idea was to start developing an Audi 80 variant in co-operation with Walter Treser, Director of Pre-Development.. Following an unveiling on 1st March 1980, Audi released the original Quattro to European customers in late 1980, with the car featuring Audi’s quattro permanent four-wheel drive system (hence its name), and the first to mate four-wheel drive with a turbocharged engine. The original engine was the 2,144 cc in-line-5-cylinder 10 valve SOHC, with a turbocharger and intercooler. It produced 197 bhp propelling the Quattro from 0 to 100 km/h in 7.1 seconds, and reaching a top speed of over 220 km/h (137 mph). The engine was eventually modified to a 2,226 cc inline-5 10 valve, still producing 197 bhp, but with peak torque lower in the rev-range. In 1989, it was then changed to a 2,226 cc inline-5 20v DOHC setup producing 217 bhp, now with a top speed of 230 km/h (143 mph) Audi Quattros are referred to among owners and enthusiasts by their engine codes, to differentiate between the earlier and later versions: the earliest 2144 cc 10v being the “WR” engine, the 2226 cc 10v being the “MB” engine, and the later 20v being the “RR” engine. Hence, Quattro models may be referred to as either the WR Quattro, MB Quattro, and RR or “20v” Quattro, respectively. Quattro car production was 11,452 vehicles over the period 1980–1991, and through this 11 year production span, despite some touch-ups, there were no major changes in the visual design of the vehicle. For the 1983 model year, the dash was switched from an analogue instrument cluster, to a green digital LCD electronic instrument cluster. This was later changed in 1988 to an orange LCD electronic instrument cluster. The interior was redesigned in 1984, and featured a whole new dash layout, new steering wheel design, and new centre console design, the switches around the instrument panel were also redesigned at this time. In 1985 the dash changed slightly with harder foam and lost a diagonal stripe, the dash switches were varied slightly and the diff lock pull knob gave way to a two-position turning knob with volt and oil temp digital readouts. External styling received very little modification during its production run. Originally, the car had a flat fronted grille featuring four separate headlamp lenses, one for each of the low and high beam units. This was altered for the 1983 model year, and replaced with combined units featuring a single lens, but housing twin reflectors. This was changed again, for the 1985 model year, in what has become known as the ‘facelift model’ and included such alterations as a new sloping front grille, headlights, and trim and badging changes. Max speed was 124 mph. The RR 20v Quattro also featured a new three spoke steering wheel design, leather covering for door arm rests, gloveboxes, centre console and door pockets. There was also a full length leather-wrapped centre console running all the way to the rear seats. The 20v was also the first Ur-Q to have “quattro” script interior with partial leather seats. The floor on the drivers side had a bulge due to dual catalytic exhaust setup. The different models may be distinguished by the emblems on their boot lids: the WR had a vinyl ‘quattro’ decal or a brushed aluminium effect plastic emblem, the MB had chrome plated ‘audi’, ‘audi rings’ and ‘quattro’ emblems, whilst the RR had only chrome plated ‘audi rings’. The rear suspension was altered early on with geometry changes and removal of the rear anti-roll bar to reduce a tendency for lift-off oversteer. For the 1984 facelift, the wheel size went from 6×15-inch with 205/60-15 tyres to 8×15-inch wheels with 215/50-15 tyres. At the same time the suspension was lowered 20 mm with slightly stiffer springs for improved handling. For 1987, the Torsen centre differential was used for the first time, replacing the manual centre differential lock. The last original Audi Quattro was produced on 17 May 1991, more than two years after the first models of the new Audi Coupe range (based on the 1986 Audi 80) had been produced.
The Audi Coupé (B2, Typ 81/85) was produced from 1980 to 1988, as a less expensive version of its turbocharged, permanent four-wheel drive Audi Quattro without turbocharger(s) or four wheel drive. Later, quattro was added as an option (Typ 85). Typ 81 was the internal model code for front-wheel drive Audi Coupés. The Coupé, first displayed at the Paris Salon 1980, featured a similar body shape to the Quattro, but without the knife-edged fender flares of the more expensive car. Mechanically, the biggest changes from the Quattro to the Coupé were the use of a naturally aspirated 1.9-litre carburettor petrol engine, 2.0-litre, 2.1-, 2.2-, or 2.3-litre fuel injected inline five-cylinder engine and a front-wheel drive drivetrain. Some lesser Coupés were also fitted with a 1.8-litre inline four-cylinder engine, injected or carburetted, and for the very first year of production a 1.6-litre “YN” 75 PS engine was available. The short-lived 1.6 was the only Coupé not to be fitted with a black rear spoiler. The Coupé was available as just plain “Coupé” or GL (four-cylinders only), “Coupé GT”, and “Coupé quattro” (without the GT tag). From 1986 until the end of production in late 1988, the Coupé GT was also available with the 110–112 PS 1.8-litre PV/DZ inline-four best known from the Golf GTi. For the last model year, the new 2,309 cc “NG” five cylinder was available, offering 136 PS at 5,600 rpm. This engine became available during 1987 for the last of the Audi Coupés sold in the US, where it produced 130 hp at 5,700 rpm as opposed to the 110 hp at 5,500 rpm available from the 2.2-litre five which had been used since the facelift for model year 1985. The Coupé had originally gone on sale in the US late in model year 1981 with the 100 hp 2,144 cc five-cylinder also used in the 5000 (Audi 100). The updated Coupé, introduced after the German industrial holidays in the autumn of 1984, was given new, slightly sloped radiator grille and headlights, a large wrap-around bumper with integrated spotlights and turn signals, plastic sill covers, and the large rear spoiler from the Audi Quattro. These changes brought the drag coefficient down to 0.36. A new dashboard was also introduced, as was a new interior. GL and standard versions were cancelled for model year 1987 and all FWD Coupés were from then referred to as “Coupé GT”. For the 1986 model year, the Coupés (as with all Audis) were available with more catalysed engine options. Also, the entire B2 range (Audi 80/90/Coupé) received stainless steel exhausts (for European markets at least). Also in September 1984, Audi made available the option of the quattro permanent four-wheel drive system to produce the Audi Coupé quattro, a model which was rarer than the turbocharged Quattro model. While most common with the 2.2-litre engine (also 2.3 for the last year, introduced 1987 for the US), in some markets the 1.8-litre four-cylinder models (90 and 112 PS engines) were also available with four-wheel drive. The Coupé and Coupé quattro models appear almost identical from the outside except for a few minor “quattro” specifics. While the GT had “COUPE GT” on the rear side windows, the CQ had the “quattro” decal as used on the Ur-Quattro. Similarly at the rear, the badging was “GT” and “quattro” respectively. The quattro versions also used the Ur-Quattro rear windscreen with “quattro” written into the heater elements (very obviously so on a cold and frosty morning), and the front grille was also adorned with the “quattro” badge from the Ur-Q. Inside, the cabin was identical except that the centre console received a differential lock switch, and LED bargraph displays in place of the GT’s three analogue-style gauges. Some Coupé quattros were distinguished by a body-coloured rear spoiler. Mechanically, the Coupé quattro depended on a combination of components from the GT and the Audi 80 quattro. The quattro permanent four-wheel drive drivetrain was almost identical to that used on the Ur-Quattro – the main differences being the use of the Coupé GT front struts, smaller 256 mm (10 in) diameter front brake disks, and lower ratios in the gearbox and rear differential. The damper and spring rates were also different from the Ur-Q. It was thus largely identical to the Audi 90 quattro and the North American Audi 4000 quattro. Wheels were 6.0Jx14″, with steel or aluminium alloy rims dependent on the market. 7.0Jx15″ Ronals, almost identical to the Ur-Quattro wheels, were also available. The CQ/90Q/4000Q also received their own exhaust manifold and downpipe. From September 1980 to September 1987, 174,687 Typ 81 Coupés were built. Quattro production ran from late 1984 to 1988, and was in the total region of 8,000 cars.
Rare even new, as these were costly cars, it was quite a surprise to see not one, but two examples of the 200 Avant quattro here. The second generation 200, launched in 1983 continued as the upmarket variant with several versions of the 2.2 L turbo 5-cylinder available in different markets over its life ranging in power outputs from 165 PS MC engine, through the 200 PS versions to the final 220 PS 20-valve 3B engine available from 1991. The 1983 Audi 200 Turbo had a top speed of 139 mph (224 km/h). The MC turbo engine was available in the 100 as well for some markets. The 200 was available with both the saloon and Avant bodies.
In 1987, the Audi 90 was reintroduced as an upmarket, more luxurious variant of the 80. To begin with it would again feature a choice of 10-valve inline five-cylinder petrol engines, and could be specified with or without quattro. The 90 differs visually to the 80 by a full width tail-light panel; headlights which featured additional high-beam lights and a slightly different front grille. Indicator lamps were moved from beside the headlights to the bumpers next to the fog lights, which were standard fitment on the 90. Brightwork surrounds for the windows, tops of the bumpers and side rubbing strips were also standard. Interiors were upgraded over the 80 featuring velour seat coverings and a slightly more generous level of equipment. The then range-topping 2.2E offered a boot spoiler, alloy wheels, leather steering wheel and sports front seats. Switchable ABS was standard on quattro versions. From 1989 to 1991 the Audi 90 offered the first 20-valve engine from Audi since the turbocharged engine used in the Audi Sport Quattro. This new 2.3 litre engine produced 170 PS and featured in the front wheel drive 20V, 20V Sport and four-wheel drive 20V quattro derivatives. The non-quattro 20V models were 120 kg lighter. Externally, Sport versions of the 90 were visually distinguished by the deletion of brightwork in favour of satin black window surrounds, bumper cappings and thinner side mouldings. A raised aluminium boot spoiler, lowered suspension and uprated brakes were fitted as standard, Speedline wheels were also standard fitment in the UK. When the B4 family emerged in 1996, all the cars were badged as the A4.
The Audi R8, based on the Audi Le Mans quattro concept car (designed by Frank Lamberty and Julian Hoenig) first appeared at the 2003 International Geneva Motor Show and the 2003 Frankfurt International Motor Show. The R8 road car was officially launched at the Paris Auto Show on 30 September 2006. There was some confusion with the name, which the car shares with the 24 Hours of Le Mans winning R8 Le Mans Prototype (LMP). Initial models included the R8 4.2 FSI coupé (with a V8 engine) and R8 5.2 FSI coupé (with a V10 engine). Convertible models, called the Spyder by the manufacturer, were introduced in 2008, followed by the high-performance GT model introduced in 2011. The Motorsport variants of the R8 were also subsequently introduced from 2008 onwards. An all-electric version called the e-Tron started development but would only reach production stage when the second generation model would be introduced. 6-time 24 Hours of Le Mans winner Jacky Ickx described the R8 as “the best handling road car today” and the car was well received by everyone who drove it. The car received a facelift in 2012 and a new model called the V10 Plus was now added to the range. Production of the Type 42 ended in August 2015
AUSTIN
There were several examples of the popular Seven here, and they were each very different. Herbert Austin’s masterpiece which did much to put Britain on wheels in the 1920s was first seen in 1922, as a four seat open tourer. Nicknamed Chummy, the first 100 featured a 696cc four cylinder engine, which was quickly upgraded to the 747cc unit that remained until the end of production some 17 years later. The first cars had an upright edge to the doors and a sloping windscreen, but from 1924, the screen became upright and there was a sloping edge to the doors, as well as a slightly longer body. Stronger brakes came along in 1926, along with a slightly taller nickel-plated radiator grille, conventional coil ignition, a more spacious body and wider doors. An even longer and wider body arrived in 1930, as well as a stronger crankshaft and improvements to the brakes which coupled front and rear systems together so they both worked by the footbrake. In 1931 the body was restyled , with a thin ribbon-style radiator and by 1932 there was a four speed gearbox to replace the earlier three-speeder. 1933 saw the introduction of the Ruby, a car that looked more modern with its cowled radiator. There were also Pearl and Opal versions. Development continued, so in 1937 there was a move to crankshaft shell bearings in place of the white metal previously used, and the Big Seven appeared. The last Seven was made in 1939, by which time 290,000 had been produced. Aside from saloons and tourers, there had been vans and sports derivatives like the Le Mans, the supercharged Ulster and the rather cheaper Nippy. Around 11,000 Sevens survive today.
The Austin Ten is a small car that was produced by Austin. It was launched on 19 April 1932 and was Austin’s best-selling car in the 1930s and continued in production, with upgrades, until 1947. It fitted in between their “baby” Austin Seven which had been introduced in 1922 and their various Austin Twelves which had been updated in January 1931. The design of the car was conservative with a pressed steel body built on a ladder chassis. The chassis was designed to give a low overall height to the car by dipping down by 2.75 inches (70 mm) between the axles. The 1125-cc four-cylinder side-valve engine producing 21 bhp drove the rear wheels through a four-speed gearbox and open drive shaft to a live rear axle. Steering was by worm and wheel. Suspension was by half-elliptic springs all round mounted on silent-bloc bushes and damped by frictional shock absorbers. The four-wheel brakes were cable and rod operated by pedal or by hand lever on the offside of the speed lever. The electrical system was 6 volt. For the first year only, a four-door saloon was made in two versions. The basic model cost £155 and was capable of reaching 55 mph with an economy of 34 and the Sunshine or De-Luxe with opening roof and leather upholstery at £168. Bumpers were provided. The chassis was priced at £120. A big change came in December 1936 with the almost streamlined Cambridge saloon and Conway cabriolet. Compared with the preceding cars the passengers and engine were positioned much further forward, the back seat now being rather forward of the back axle. There were six side windows like the Sherborne and the quarter lights were fixed. Again like the Sherborne the forward doors opened rearwards. At the back there was now a compartment large enough to take a trunk as well as more luggage on the open compartment door when it was let down. A new smoother single plate spring-drive clutch was now fitted, the two friction rings carried by the centre plate were held apart by leaf springs. Other changes included Girling brakes with wedge and roller shoe expansion and balance lever compensation using operating rods in tension with automatic compensation between front and rear brakes all four of which might be applied by hand or foot. Drums were now 9 inches diameter. 16-inch steel disc wheels replaced the 18-inch wires Top speed rose to 60 mph. The car’s wheelbase was now ¾ inch, 0.75 in (19 mm) longer. Rear track was now increased to 3′ 10½”, 46.5 in (1,180 mm). The vehicle’s weight was now reported to be 18½ cwt, 2,072 lb (940 kg). The Times, when they had a car on test, commented favourably on the new clutch, saying no previous Austin clutch had engaged smoothly and added “the car is built for steady economical running rather than for speed or brilliance”. These changes did not appear on the open cars, which no longer included the Ripley sports, until 1938 when the Cambridge and the Conway cabriolet gained an aluminium cylinder head on the engine and a higher compression ratio.
The Allegro 3, introduced at the end of 1979, used the “A-Plus” version of the 1.0-litre A-Series engine (developed for the forthcoming new Metro), and featured some cosmetic alterations in an attempt to keep the momentum going, but by then the Allegro was outdated, and was now up against high-tech opposition in the form of the Ford Escort III and Vauxhall Astra Mk.1/Opel Kadett D, both launched within a year of the Allegro’s facelift and both featured hatchback bodies with front-wheel-drive. The cosmetic alterations were fairly minimal; the Allegro 3 gained a new grille with the revised Leyland badge and some models of Allegro 3 (the early HL and later HLS models) were equipped with four round headlights, rather than the more usual two rectangular ones. The cars carried the Allegro 3 name, bore a larger bumper and gained additional side indicators. The interior was modernised with new components such as a new round four spoke steering wheel. By now, however, British Leyland was working on an all-new car to replace the Allegro and Maxi during the early 1980s – the LC10 – which would eventually emerge as the Austin Maestro. British Leyland entered the small hatchback market – pioneered during the 1970s by the likes of the Renault 5 and Volkswagen Polo, with its Metro which was launched in October 1980. The Metro would be built at the Longbridge plant which had just been expanded to provide adequate production capacity for the new car. But with BL hoping to sell more than 100,000 Metros a year in Britain alone, more capacity for production was needed and production of the Allegro and the Mini were pruned back as a result. The base models of the slightly larger Triumph Acclaim, the first product of BL’s alliance with Honda introduced in 1981 also acted as a substitute for the Allegro until the Maestro launched. After 1980, the Allegro failed to feature in the top 10 best selling new cars in Britain, barely a decade since its predecessor had been Britain’s most popular new car, though this fall in sales was compensated by the large sales figures achieved by the smaller Metro, as well as the fact that the slightly larger Triumph Acclaim was among Britain’s top 10 selling cars by 1982.
The Austin Gipsy is an off-road vehicle produced by Austin from 1958 to 1968. It was designed as a lower-cost replacement for the Austin Champ, to compete directly with Rover’s Land Rover. Like the Land Rover, it was aimed at both the civilian and military markets. Post-war, the FV1800 Nuffield Mudlark, later to become the FV1801 Austin Champ, had been designed as the first of the new CT series of soft-skin military vehicles for the British Army. The Mudlark used the new Rolls-Royce B40 engine, all-independent suspension based on Tracta joints and a 24V electrical system with a two-speed high-capacity generator capable of powering a FFW version. Despite these technical features, the resultant vehicle was not popular or successful, being seen as over-complicated, and a maintenance and repair nightmare. The Champ was also expensive, compared to simpler vehicles. The later Gipsy was a reaction to both the failure of the Champ, and the success of the Land Rover. Both the Champ and the Gipsy were significantly different from the American Jeep, the Gipsy being much closer in design, appearance and price to the Land Rover. Unlike the Land Rover, the Gipsy’s bodywork was steel. The suspension was sophisticated, independent suspension all round using “Flexitor” rubber springs developed by Alex Moulton, giving the Gipsy the ability to travel at high speeds over rough terrain. In due course, later models offered leaf springs as an option on the front and rear. It used a BMC 2199 cc petrol engine based on the one in the Austin A70; the compression ratio was 6.8:1, making the petrol-powered vehicle tolerant of low octane fuel. A 2178 cc diesel-engined version was also offered. The Gipsy was first available with a 90-inch (2,300 mm) short wheelbase (SWB). A 111-inch (2,800 mm) long wheelbase (LWB) version became available from Series II. When BMC merged with Leyland to form British Leyland, the Austin Gipsy and the Land Rover were being produced by the same company. Production of the Gipsy was stopped after some 21,208 vehicles had been sold.
Austin pedal cars were made in England by Austin Motor Company Limited. Available models were the Junior Forty (J40) and the Pathfinder. The J40 Roadster was based on the 1948 A40 Devon and Dorset. The Pathfinder Special was based on the Jameison OHV 750 Austin Seven racing car of the late 1930’s. From the sales brochure for the Austin J40 Pedal Car: Factory (32K)”Austin J40 cars are made in a specially constructed factory at Bargoed in South Wales. Here, in good conditions with the guidance of an experienced rehabilitation officer and under the supervision of a doctor, disabled Welsh miners are able to find a new interest in life and do a job of work that is both useful and congenial. There are employment facilities at this factory for 250 men.” The pedal car factory opened on July 5, 1949 and was called the Austin Junior Car Factory. It was actually paid for by Government funds and it was run on a not-for-profit basis and purely for the employment of the disabled coal miners. The factory had a floor area of 24,500 square feet and was tooled up by the Sheet Metal Planning Department. Production started of with the Pathfinder and it was planned to build 250 a week, but unfortunately this figure was never reached. After a year the Pathfinder was dropped and was replaced in 1950 by the J40. The cars were made from scrap off-cuttings of metal from the Longbridge Austin motor car factory and were built and painted the same way as the motor cars themselves. The J40 was a very well equipped toy of excellent quality and was probably the best pedal car on the market at the time. It featured real working headlights and horn, detachable wheels with Dunlop pneumatic tires, real like facia panel and leather cloth seating. It had an opening bonnet and boot and also a lot of good quality chrome, namely both bumpers, hub caps, grille, boot handle, and centre bonnet moulding with the Flying A ornament. It was later dropped because of a change in the law. It was claimed people could injure themselves on the mounted bonnet badges if they rolled on to the front of a car. The J40 sold for £27 plus £6 added purchase tax, while the Pathfinder cost 20 pounds plus 5 pounds purchase tax. At the time the average working man would have to save 2 or 3 weeks full wages to buy a J40. The J40 was primarily intended for the American market but it also established its own export markets in Denmark and Canada. The Austin pedal cars eventually were to be found in homes around the world. The Austin pedal cars were used for many purposes. They were used to teach road safety to school children and appeared in many road safety films. Pedal cars were fitted to roundabouts at fairs. These cars had two steering wheels and did not have any pedals. Some were single-mounted on coin-operated rides. Some pedal cars were later converted to gas engine power. Some of the gas-powered cars had the bodies “stretched” to make room for taller drivers. There was a total production of 32,098 Austin J40 pedal cars. Production stopped in September 1971. These are highly collectible and a new company – now based at Bicester – is refurbishing them.
AUSTIN HEALEY
There were just a couple of examples of the “Big Healey” here, one of Britain’s most popular classics. Donald Healey had been producing a range of expensive sports cars from the 1940s, cars such as the Silverstone, the Abbott and the Farnham. For the 1952 London Motor Show, he produced a new design, which was called the Healey Hundred, based on Austin A90 mechanicals, which he intended to produce in-house at his small car company in Warwick. It was one of the stars of the 1952 Show, and it so impressed Leonard Lord, the Managing Director of Austin, who was looking for a replacement to the unsuccessful A90. that Lord struck a deal with Healey on the spot, to build it in quantity. Bodies made by Jensen Motors would be given Austin mechanical components at Austin’s Longbridge factory. The car was renamed the Austin-Healey 100, in reference to the fact that the car had a top speed of 100 mph. Production got under way in 1953, with Austin-Healey 100s being finished at Austin’s Longbridge plant alongside the A90 and based on fully trimmed and painted body/chassis units produced by Jensen in West Bromwich—in an arrangement the two companies previously had explored with the Austin A40 Sports. By early 1956, production was running at 200 cars a month, 150 of which were being sold in California. Between 1953 and 1956, 14,634 Austin-Healey 100s were produced, the vast majority of them, as was the case for most cars in this post war era, going for export. The car was replaced by an updated model in 1956, called the 100-6. It had a longer wheelbase, redesigned bodywork with an oval shaped grille, a fixed windscreen and two occasional seats added (which in 1958 became an option with the introduction of the two-seat BN6 produced in parallel with the 2+2 BN4), and the engine was replaced by one based on the six-cylinder BMC C-Series engine. In 1959, the engine capacity was increased from 2.6 to 2.9 litres and the car renamed the Austin-Healey 3000. Both 2-seat and 2+2 variants were offered. It continued in this form until production ceased in late 1967. The Big Healey, as the car became known after the 1958 launch of the much
Known officially as the Sprite, it was announced to the press in Monte Carlo by the British Motor Corporation on 20 May 1958, just before that year’s Monaco Grand Prix. It was intended to be a low-cost model that “a chap could keep in his bike shed”, yet be the successor to the sporting versions of the pre-war Austin Seven. The Sprite was designed by the Donald Healey Motor Company, with production being undertaken at the MG factory at Abingdon. It first went on sale at a price of £669, using a tuned version of the Austin A-Series engine and as many other components from existing cars as possible to keep costs down. It was produced for a little over 3 years before being replaced by a Mark 2 version, which was then joined by a badge-engineered MG version, the Midget, reviving a model name used by MG from the late 1920s through to the mid 1950s. Enthusiasts often refer to Sprites and the later Midgets collectively as “Spridgets.” The first Sprite quickly became affectionately known as the “frogeye” in the UK and the “bugeye” in the US, because its headlights were prominently mounted on top of the bonnet, inboard of the front wings. The car’s designers had intended that the headlights could be retracted, with the lenses facing skyward when not in use; a similar arrangement was used many years later on the Porsche 928. But cost cutting by BMC led to the flip-up mechanism being deleted, therefore the headlights were simply fixed in a permanently upright position, giving the car its most distinctive feature. The body was styled by Gerry Coker, with subsequent alterations by Les Ireland following Coker’s emigration to the US in 1957. The car’s distinctive frontal styling bore a strong resemblance to the defunct American 1951 Crosley Super Sport. The problem of providing a rigid structure to an open-topped sports car was resolved by Barry Bilbie, Healey’s chassis designer, who adapted the idea provided by the Jaguar D-type, with rear suspension forces routed through the bodyshell’s floor pan. The Sprite’s chassis design was the world’s first volume-production sports car to use unitary construction, where the sheet metal body panels (apart from the bonnet) take many of the structural stresses. The original metal gauge (thickness of steel) of the rear structure specified by Bilbie was reduced by the Austin Design Office during prototype build, however during testing at MIRA (Motor Industry Research Association) distortion and deformation of the rear structure occurred and the original specification was reinstated. The two front chassis legs projecting forward from the passenger compartment mean the shell is not a full monocoque. The front sheet-metal assembly, including the bonnet (hood) and wings, was a one-piece unit, hinged from the back, that swung up to allow access to the engine compartment. The 43 bhp, 948 cc OHV engine (coded 9CC) was derived from the Austin A35 and Morris Minor 1000 models, also BMC products, but upgraded with twin 11⁄8 inch SU carburettors which gave it 43 hp at 5200 rpm and 52 lb/ft at 3300 rpm. When tested by “The Motor” magazine in 1958. It had a top speed of 82.9 mph and could accelerate from 0-60 mph in 20.5 seconds. Fuel consumption of 43 mpg was recorded. The rack and pinion steering was derived from the Morris Minor 1000 and the front suspension from the Austin A35. The front suspension was a coil spring and wishbone arrangement, with the arm of the Armstrong lever shock absorber serving as the top suspension link. The rear axle was both located and sprung by quarter-elliptic leaf springs, again with lever-arm shock absorbers and top links. There were no exterior door handles; the driver and passenger were required to reach inside to open the door. There was also no boot lid, owing to the need to retain as much structural integrity as possible, and access to the spare wheel and luggage compartment was achieved by tilting the seat-backs forward and reaching under the rear deck, a process likened to potholing by many owners, but which resulted in a large space available to store soft baggage. The BMC Competition Department entered Austin Healey Sprites in major international races and rallies, their first major success coming when John Sprinzel and Willy Cave won their class on the 1958 Alpine Rally. Private competitors also competed with much success in Sprites. Because of its affordability and practicality, the Austin Healey Sprite was developed into a formidable competition car, assuming many variants by John Sprinzel, Speedwell and WSM. The Sebring Sprite became the most iconic of the racing breed of Austin Healey Sprites. Many owners use their Austin Healey Sprites in competition today, sixty years after its introduction. 48,987 “frogeye” Sprites were made and the car remains popular to this day.
AUTOBIANCHI
The Autobianchi A112 was a supermini, developed using a shrunken version of the contemporary Fiat 128’s platform and whose mechanicals subsequently underpinned the Fiat 127. It was introduced in November 1969, as a replacement for the Bianchina and Primula, and was built until 1986, when it made way for the more modern Autobianchi Y10 (branded in most export markets as the Lancia Y10). Over 1.2 million A112s were produced in Autobianchi’s Milan factory. The A112 was available only with a 3-door body. It was offered with the OHV engine of 903 cc from the Fiat 850 capable of attaining 42 PS. The Autobianchi represented the first appearance of this engine in a front-engine, front-wheel drive configuration which would later become familiar to a wider range of drivers in the top selling Fiat 127 and its derivatives. Claimed power increased to 47 PS in 1971, but without any mechanical changes having taken place. The A112 reached a very particular market; by 1984 female buyers represented 35% of A112 owners and about a third were in the 18-24 age range. In September 1971 the A112 E (“E” for Elegant, which also became its name after the 1973 facelift) was introduced. This featured improved seats, higher grade trimming and equipment, as well as a five-speed gearbox later in life. The mechanics were originally identical to the regular version, now referred to as the Normale, but from 1975 until 1977 the Normale’ received a less powerful engine. A performance edition “Abarth” was introduced too. In March 1973 the A112 received a makeover. The grille was new, with a larger mesh, and the bumpers were now of rubber with chrome insert (although the Normale retained the old metal bumpers with rubber strips). A new style of alloys were also available, and the seats and dashboard underwent some changes. The Abarth received a new chess pattern upholstery. In 1975 the third series arrived. The insides in the rear were recontoured, so that the car now became a five-seater (instead of four). The easiest way to spot a third series is that it received new, much larger vents on the C-pillars, as well as redesigned taillights – with integrated reversing lights on the Elegant and Abarth. The Abarth also received a new larger 1050 cc engine (“70HP”), while the Normale’s output dropped to 42 PS in July 1975. All engines were still pushrod units, derived from the old tipo 100 engine first introduced in the Fiat 600. In 1976, due to new emissions standards, the Elegant lost two horsepower, now down to 45 PS. Third series Normales still received metal bumpers, but from now on they were painted black (instead of being chromed) and no longer had a rubber strip. This was the last model to have the diamond shaped turn signals on the front fenders, with later models receiving more orthodox rectangular ones. In November 1977 the “Nuova A112” (new A112) was introduced: The most obvious difference is a slightly taller roof, with a marked edge around the sides. This improved interior habitability considerably. Autobianchi also at this time modified the upmarket version branded as the “A112 Elegant” with an engine enlarged to 965 cc, now promising 48 PS and improved torque. Later, there were also “A112 Elite” and “A112 LX” versions which received even more comfortable equipment. The 903 cc engine of the lesser A112 Normale remained unchanged. In July 1979 the car underwent another styling modification, receiving large black plastic cladding on the rear, surrounding new taillights, and new side trim and bumpers. The grille was also new, and there was black plastic wheelarches to link all of the plastic parts together. The extractor vents behind the rear side windows were also larger, of black plastic, and wrapped around the pillar. In terms of transmissions, a five-speed transmission now became available on certain models. The fifth gear was an overgear, while the ratios of the four lower speeds and the final gearing remained unchanged. The front turn signals were moved from the front of the fenders to a spot just in front of the leading edge of the doors, while a small badge denoting the trim level appeared in the turn signal’s old place. The Normale now became the Junior, and the Elite version was added, a notch above the Elegant in the lineup. There were some very light modifications to the interior. A large, rollback canvas sunroof became available on the Junior, and a rear window wiper became optional across the range. Aside from the new transmission there were no notable mechanical changes. Power outputs remained at 42, 48, and 70 PS. The Abarth also received the new five-speed gearbox, as well as new alloy wheels and foglights as standard. A lot of the plastic excesses of the fifth series were reversed for the sixth series, which was introduced in the autumn of 1982. New smoother bumpers, removal of the wheelarch trim, and a less heavy grille treatment brought back some of the original elegance of the A112, while the interior was also completely renovated. Another new version arrived, the top-of-the-line LX, which featured tinted windows, velvet seat trimming, power windows, metallic paintwork, and a digital clock amongst other creature comforts. Mechanically, the LX was identical to the Elite, with the five-speed transmission and 965 cc engine. The Elegant version was discontinued, with the Elite taking its position in the lineup. The sixth series also received new body-coloured vents on the C-pillar, and the front corner lights were incorporated into the top of the bumper. The seventh series, presented in 1984, only saw minor changes, largely remaining the same as the sixth. The taillights were again redesigned and were now joined by a reflective strip. The rear license plate was relocated to the bumper and the dashboard received modifications, more noticeable in the better equipped Elite and LX versions. The Abarth received standard front foglights, which were optional on the other versions. The Abarth also has red seatbelts. While the Junior retained small hubcaps, and the Abarth received alloys, the rest of the range now received full-face hubcaps. The front corner lights were now white, instead of orange as before. The engines remained as before, all models except the lowest-priced Junior now used five-speed transmissions. By this time, only France, Italy and Israel still used the “Autobianchi” badge; all others had switched to calling the car a Lancia. At the time of the seventh series introduction, a total of 1,115,000 A112s had been built. As the new Autobianchi Y10 was introduced in 1985, the A112 range was cut down considerably, with only the Junior remaining on sale as a low-priced alternative. It was no longer called Junior, however, now being marketed simply as the “Autobianchi A112”. Other than the name change, there were no design changes to the car. Production continued into 1986, at which point 1,254,178 Autobianchi A112s had been built. The most interesting version was the A112 Abarth, introduced in September 1971 at the same time as the Elegant. It was prepared by the motorsports division of the Fiat Group, at first with a 982 cc engine, obtained by increasing the stroke, coupled to a sportive exhaust, a twin carburettor, and a different camshaft. In 1975, displacement was increased to 1,050 cc, while power climbed from 58 HP to 70 HP at 6600 rpm, for a weight of only 700 kg (1,540 lb). The two engines were offered in parallel until production of the smaller unit ended in late 1976. The 1975 model was also the first A112 to use a 5-speed manual gearbox. These changes turned the A112 into a nervous machine, much admired by young performance enthusiasts. The car was entered in various rallying events throughout Europe and even spawned a one-make trophy: the Campionato A112 Abarth spanned eight editions, from 1977 to 1984, and adopted contemporary Group 1 rules, which meant nearly-stock cars. Some famous Italian rally drivers, including Attilio Bettega, Fabrizio Tabaton and Gianfranco Cunico, were among the winners of the championship. The increasing popularity of the A112 in historic rallies and hillclimbs led to the reintroduction of a one-make trophy, called Trofeo A112 Abarth, in 2010. Abarths have often led hard lives, having been preferred by young owners with aggressive driving styles!
BENTLEY
Oldest of the models present were a number of the 3 and 4.5 litre cars that were produced in the 1920s and which epitomise the classic Bentley to many people. The 3 Litre was the company’s first model, first shown in 1919 and made available to customers’ coachbuilders from 1921 to 1929. It was conceived for racing. The Bentley was very much larger than the 1368 cc Bugattis that dominated racing at the time, but double the size of engine and strength compensated for the extra weight. The 4000 lb (1800 kg) car won the 24 Hours of Le Mans in 1924, with drivers John Duff and Frank Clement, and again in 1927, this time in Super Sports form, with drivers S. C. H. “Sammy” Davis and Dudley Benjafield. Its weight, size, and speed prompted Ettore Bugatti to call it “the fastest lorry in the world.” The 3 Litre was delivered as a running chassis to the coachbuilder of the buyer’s choice. Bentley referred many customers to their near neighbour Vanden Plas for bodies. Dealers might order a short cost-saving run of identical bodies to their own distinctive design. Most bodies took the simplest and cheapest form, tourers, but as it was all “custom” coachwork there was plenty of variation. The 2,996 cc straight-4 engine was designed by ex-Royal Flying Corps engineer Clive Gallop and was technically very advanced for its time. It was one of the first production car engines with 4 valves per cylinder, dry-sump lubrication and an overhead camshaft. The four valve SOHC Hemi design, with a bevel-geared shaft drive for the camshaft, was based on the pre-war 1914 Mercedes Daimler M93654 racing engine. Just before the outbreak of the war Mercedes had placed one of the winning Grand Prix cars in their London showroom in Long Acre. At the suggestion of W.O. Bentley, then being commissioned in the Royal Naval Air Service, the vehicle was confiscated in 1915 by the British army, dismantled at Rolls-Royce and subjected to scrutiny. A notable difference to both the Mercedes and the aero engines was the cast-iron monobloc design, and the fully Aluminium enclosed camshaft, which greatly contributed to its durability. But having the valve-head and block in one-piece made for a complicated and labour intensive casting and machining. This was a feature shared during that time by the Bugattis which the car was later to compete with. The engine was also among the first with two spark plugs per cylinder, pent-roof combustion chambers, and twin carburettors. It was extremely undersquare, optimised for low-end torque, with a bore of 80 mm (3.1 in) and a stroke of 149 mm (5.9 in). Untuned power output was around 70 hp, allowing the 3 Litre to reach 80 mph. The Speed Model could reach 90 mph; the Super Sports could exceed 100 mph. A four-speed gearbox was fitted. Only the rear wheels had brakes until 1924, when four-wheel brakes were introduced. There were three main variants of the 3 litre and they became known by the colours commonly used on the radiator badge. There was a definite rule controlling badge colours but astonishingly it has since been established that given “special circumstances” the factory would indeed supply a “wrong” colour. Blue label was the standard model with 117.5 in wheelbase from 1921 to 1929 or long 130.0 in wheelbase from 1923 to 1929. The Red label used a 5.3:1 high compression engine in the 117.5 in wheelbase chassis and was made from 1924 to 1929. The Green label was made between 1924 and 1929 and was the high performance model with 6.3:1 compression ratio and short 108 in wheelbase chassis. 100 mph performance was guaranteed. As well as 3 Experimental cars, Bentley produced 1088 examples of the 3 litre, and the Speed Model numbered 513 and there were 18 Super Sports.
Bentley replaced the 3 Litre with a more powerful car by increasing its engine displacement to 4.5 litres. As before, Bentley supplied an engine and chassis and it was up to the buyer to arrange for their new chassis to be fitted with one of a number of body styles, most of which were saloons or tourers. Very few have survived with their four-seater coachwork intact. WO Bentley had found that success in motorsport was great publicity for the brand, and he was particularly attracted to the 2 Hours of Le Mans endurance race, the inaugural running of which took place 26–27 May 1923, attracting many drivers, mostly French. There were two foreign competitors in the first race, Frank Clement and Canadian John Duff, the latter winning the 1924 competition in his personal car, a Bentley 3 Litre. This success helped Bentley sell cars, but was not repeated, so after two years without success, Bentley convened a group of wealthy British men, “united by their love of insouciance, elegant tailoring, and a need for speed,” to renew Bentley’s success. Both drivers and mechanics, these men, later nicknamed the “Bentley Boys”, drove Bentley automobiles to victory in several races between 1927 and 1931, including four consecutive wins at the 24 Hours of Le Mans, and forged the brands reputation. It was within this context that, in 1927, Bentley developed the Bentley 4½ Litre. Two cylinders were removed from the 6½ Litre model, reducing the displacement to 4.4 litres. At the time, the 3 Litre and the 6½ Litre were already available, but the 3 Litre was an outdated, under-powered model and the 6½ Litre’s image was tarnished by poor tyre performance. Sir Henry “Tim” Birkin, described as “the greatest British driver of his day” by W. O. Bentley, was one of the Bentley Boys. He refused to adhere strictly to Bentley’s assertion that increasing displacement is always preferable to forced induction. Birkin, aided by a former Bentley mechanic, decided to produce a series of five supercharged models for the competition at the 24 Hours of Le Mans; thus the 4½ litre Blower Bentley was born. The first supercharged Bentley had been a 3-litre FR5189 which had been supercharged at the Cricklewood factory in the winter of 1926/7. The Bentley Blower No.1 was officially presented in 1929 at the British International Motor Show at Olympia, London. The 55 copies were built to comply with 24 Hours of Le Mans regulations. Birkin arranged for the construction of the supercharged cars having received approval from Bentley chairman and majority shareholder Woolf Barnato and financing from wealthy horse racing enthusiast Dorothy Paget. Development and construction of the supercharged Bentleys was done in a workshop in Welwyn by Amherst Villiers, who also provided the superchargers. W.O. Bentley was hostile to forced induction and believed that “to supercharge a Bentley engine was to pervert its design and corrupt its performance.” However, having lost control of the company he founded to Barnato, he could not halt Birkin’s project. Although the Bentley 4½ Litre was heavy, weighing 1,625 kg (3,583 lb), and spacious, with a length of 172 in and a wheelbase of 130.0 in, it remained well-balanced and steered nimbly. The manual transmission, however, required skill, as its four gears were unsynchronised. The robustness of the 4½ Litre’s latticed chassis, made of steel and reinforced with ties, was needed to support the heavy cast iron inline-four engine. The engine was “resolutely modern” for the time. The displacement was 4,398 cc. Two SU carburettors and dual ignition with Bosch magnetos were fitted. The engine produced 110 hp for the touring model and 130 hp for the racing model. The engine speed was limited to 4,000 rpm. A single overhead camshaft actuated four valves per cylinder, inclined at 30 degrees. This was a technically advanced design at a time where most cars used only two valves per cylinder. The camshaft was driven by bevel gears on a vertical shaft at the front of the engine, as on the 3 Litre engine. The essential difference between the Bentley 4½ Litre and the Blower was the addition of a Roots-type supercharger to the Blower engine by engineer Amherst Villiers, who had also produced the supercharger. W. O. Bentley, as chief engineer of the company he had founded, refused to allow the engine to be modified to incorporate the supercharger. As a result, the supercharger was placed at the end of the crankshaft, in front of the radiator. This gave the Blower Bentley an easily recognisable appearance and also increased the car’s understeer due to the additional weight at the front. A guard protected the two carburettors located at the compressor intake. Similar protection was used, both in the 4½ Litre and the Blower, for the fuel tank at the rear, because a flying stone punctured the 3 Litre of Frank Clement and John Duff during the first 24 Hours of Le Mans, which contributed to their defeat. The crankshaft, pistons and lubrication system were special to the Blower engine. It produced 175 hp at 3,500 rpm for the touring model and 240 hp at 4,200 rpm for the racing version, which was more power than the Bentley 6½ Litre developed. Between 1927 and 1931 the Bentley 4½ Litre competed in several competitions, primarily the 24 Hours of Le Mans. The first was the Old Mother Gun at the 1927 24 Hours of Le Mans, driven as a prototype before production. Favoured to win, it instead crashed and did not finish. Its performance was sufficient for Bentley to decide to start production and deliver the first models the same year. Far from being the most powerful in the competitions, the 4½ Litre of Woolf Barnato and Bernard Rubin, raced neck and neck against Charles Weymann’s Stutz Blackhawk DV16, setting a new record average speed of 69 mph; Tim Birkin and Jean Chassagne finished fifth. The next year, three 4½ Litres finished second, third, and fourth behind another Bentley, the Speed Six, which possessed two more cylinders.The naturally aspirated 4½ Litre was noted for its good reliability. The supercharged models were not; the two Blower models entered in the 1930 24 Hours of Le Mans by Dorothy Paget, one of which was co-driven by Tim Birkin, did not complete the race. In 1930, Birkin finished second in the French Grand Prix at the Circuit de Pau behind a Bugatti Type 35. Ettore Bugatti, annoyed by the performance of Bentley, called the 4½ Litre the “fastest lorry in the world.” The Type 35 is much lighter and consumes much less petrol. Blower Bentleys consume 4 litres per minute at full speed. In November 1931, after selling 720 copies of the 4½ Litre – 655 naturally aspirated and 55 supercharged – in three different models (Tourer, Drophead Coupé and Sporting Four Seater, Bentley was forced to sell his company to Rolls-Royce for £125,175, a victim of the recession that hit Europe following the Wall Street Crash of 1929.
To look at many 1920s Bentleys today, one might assume that every car turned out under W.O. Bentley’s watch was a fabric-bodied tourer. The truth is that when the “W.O.” cars were new, they carried a wide variety of diverse body styles by Europe’s finest coachbuilders. As many as 80 percent of these cars boasted beautifully bespoke-crafted bodies that were ideal counterparts to the racing-bred Bentley chassis, creating a “grand tourer” that combined finely tuned performance with great comfort, elegance, and reliability. These beautifully bespoke-crafted Bentleys are welcomed at the world’s most prestigious events, and this fine vehicle, thought to be the only surviving 6½-Litre Sedanca de Ville in the world, is no exception. Chassis KR2687 was created by Bentley in collaboration with coachbuilder H.J. Mulliner of Chiswick, as a Sedanca de Ville. Presented at the Olympia Motor Show in October 1929, its coachwork has a very neat appearance, with unusually long and flowing wings exaggerating its powerful appearance, and a Barker-patented “de Ville extension” over the driver’s seat to give the appearance of a full limousine. Featured in the “Show Number” issue of The Autocar on 25 October 1929, the car was sold at the motor show by W.O. Bentley’s brother, H.M. Bentley & Partners, to John Davie of Dartmore, Frithwood Avenue, Northwood. Exhaustive research by noted Bentley authority Dr Clare Hay indicates that the car subsequently passed, in 1935, to Major RT Hon. F. Craven. It was laid up through World War II, and then, in 1952, was acquired, in notably original condition, by J.B. Sibly for ₤50. Displayed by Sibly in events of the Bentley Drivers’ Club until 1957, it subsequently passed through the stewardships of A.K. Harrison, J.N. Barlow, P.M. Mackie, V.H. Callcutt, A.M. Garrett, Sandra Roberts, and lastly, Graeme Miller. Then the president of the Bentley Drivers’ Club of Australia, Mr Miller recognised this as an extremely rare and unusually original vehicle, and maintained it for some 20 years with sparing use but good care, in order to protect it from becoming “just another Le Mans clone.” The vehicle remains substantially and wonderfully original, with the major components clearly numbered and stamped at the factory; the original chassis number, KR2687, appears on the front chassis cross-member, and on the nearside front dumb-iron knuckle, as well as on the inside forward edge of the side panels of the bonnet, on the front axle, and on the steering box, all verifying the originality of each of these major components. The original engine number, KR2686, is, of course, still carried on the nearside bearer arm of the crankcase, and the correct “C”-type gearbox is believed to be the original to this car from 1929. While the car has been well maintained since the 1970s, only in the current ownership of Mr Edward Carter was it thoroughly prepared to bring it back to its exceptional original appearance, including handsome and tasteful colours that greatly flatter its lines. The interior is patinaed and lush, including a fitted drinks cabinet. Further restoration work was performed by the noted Bentley specialists R.C. Moss of Bedford, including a full proper repaint to the current green and black livery, refinishing the top material in correct Rexine (of which R.C. Moss is currently sole manufacturer), fitting a correct-patterned Smith’s multi-jet carburettor with correct piping and linkage, installation of a correct Bentley plate clutch, and proper mechanical and cosmetic sorting. So few of these cars have been carefully preserved and restored as they were when new; accordingly, this presents not only as a correct 6½-Litre, but also as one of the most proper of the handful of survivors. It is very much today as H.M. and W.O. Bentley knew it, and that fact alone makes a worthy addition to any stable of the finest pre-war sporting motorcars.
Announced in May 1946, as the Mark VI and produced from 1946 to 1952 it was also both the first car from Rolls-Royce with all-steel coachwork and the first complete car assembled and finished at their factory. These very expensive cars were a genuine success, long-term their weakness lay in the inferior steels forced on them by government’s post-war controls. The chassis continued to be supplied to independent coachbuilders. Four-door Saloon, two-door saloon and drophead coupe models with bodies by external companies were listed by Bentley along with the Bentley-bodied saloon. This shorter wheelbase chassis and engine was a variant of the Rolls-Royce Silver Wraith of 1946 and, with the same standard steel body and a larger boot became the cautiously introduced Silver Dawn of 1949. The same extended-boot modification was made to the Mark VI body in 1952 and the result became known as the R type Bentley.
A close relative of the Rolls Royce Silver Cloud, the S Type was first revealed in April 1955. It represented a complete redesign of the standard production car, the R Type. It was a more generously sized five- or six-seater saloon with the body manufactured in pressed steel with stressed skin construction, with the doors, bonnet and boot lid made of aluminium. The external appearance was very different, although the car still had the traditional radiator grille. Compared to the outgoing R Type, the new model had a three inch longer wheelbase, was lower of build without reducing headroom and with an enlarged luggage boot, softer suspension with electrically operated control of rear dampers, lighter steering and improved braking. The engine, still a clear descendants of the one originally used in the Rolls-Royce Twenty from 1922 to 1929, had its capacity increased to 4887cc, and a four-speed automatic gearbox was standard, with the ability to select individual ratios if desired, which was enough to give the Bentley a top speed of just over 100 mph and 0 – 60 acceleration times of around 13 seconds. Standard and from 1957, long wheelbase saloons were offered and some were sent to the coachbuilders for alternative bodies to be fitted. An upgrade in 1959, creating the S2, saw the installation of a new V8 engine, and in 1962, the S3 cars gained four round headlights. 3072 S Types were made, 145 of them with coachbuilt bodies as well as 35 of the long wheelbase cars, before the model was replaced by the new T Type in 1965. Seen here was an S2 Continental Flying Spur.
The Bentley T-series is a luxury automobile produced by Bentley Motors Limited from 1965 to 1980. It was announced and displayed for the first time at the Paris Motor Show on 5 October 1965 as a Bentley-badged version of the totally redesigned Rolls-Royce Silver Shadow. The Bentley T series was available as a four-door saloon and as a long wheelbase four-door saloon. A small number of two-door saloons were built with coachwork by James Young and Mulliner Park Ward and a two-door convertible with coachwork by Mulliner Park Ward was introduced in September 1967. A total of 2,336 examples were produced. The T series was the first unibodied Bentley, and was totally different from its predecessor the S series.[2] It featured a new steel and aluminium monocoque body with subframes to mount the engine and suspension. While smaller overall, it had more passenger room, particularly in the rear compartment, yet more luggage space. Overall the car was 7 inches (18 cm) shorter, 5 inches (13 cm) lower, 3+1⁄2 inches (9 cm) narrower, and 150 pounds (68 kg) lighter than the S. Because of being fitted with the traditional round-shouldered “Bentley” style front grille – its sole material styling difference from the Rolls-Royce Silver Shadow – it was also somewhat lower at bonnet height, giving it a slightly more assertive look. The ‘T’ also featured independent suspension on all four wheels with automatic height control according to loading. Other major improvements included disc brakes on all wheels (with a triplicate hydraulic braking system patented from Citroën that also supplied pressure for the self leveling suspension); new and lighter power steering, improved automatic transmission, eight-way adjustable electric front seats, and a larger fuel tank. The engine received a redesigned cylinder head that allowed a speed increase to 118 miles per hour (190 km/h). In October 1966, the T saloon’s pretax ‘list price’ of £5425 was £50 less than the Silver Shadow. The formerly more sporting image of Bentley motor cars differing from Rolls-Royces was long gone and far from being renewed by the time the Bentley T was introduced. Effectively, the two were indistinguishable. The T was upgraded to the “T2” in 1977, which featured rack and pinion steering, improved air conditioning, rubber-faced bumpers, a new fascia and, for non-federalized cars, a front air dam. Bosch CIS Fuel Injection was introduced for late 1979 and 1980 models for the US and other markets, similarly to the Rolls-Royce Silver Shadow II. The T2 was discontinued in 1980.
The Arnage, a twin of the Rolls-Royce-branded sibling, the Silver Seraph, was introduced in the Spring of 1998, the first entirely new designs for the two marques since 1980. This is a large car: over 5.4 metres (212 in) long, 1.9 metres (75 in) wide, and has a kerb weight of more than 2.5 metric tonnes. For a brief period it was the most powerful and fastest four-door saloon on the market. In a complete switch from tradition, whilst these cars had bodies built at the Crewe factory, the then owner, Vickers, decided that the car would be powered by engines built elsewhere. A number of potential engines were examined, including the GM Premium V engine, and a Mercedes-Benz V8 engine, before, in late 1994, Vickers selected a pair of BMW power plants. It was decided that the Rolls-Royce model would use BMW’s naturally aspirated V12 engine while the more-sporting Bentley model would use a special twin-turbo version of the 4.4-litre BMW V8, which was developed by Vickers subsidiary, Cosworth Engineering. On its introduction in the spring of 1998, the Arnage was available as a single model with the this 4,398cc twin turbo developing some 354 PS (349 bhp) and 420 lb·ft. During the takeover battle in 1998 between BMW and Volkswagen Group for ownership of Rolls Royce and Bentley Motors, BMW had threatened to stop supply of their engines if Volkswagen Group won. While the threat was later withdrawn in conjunction with BMW acquiring the right to manufacture the Rolls Royce marque at a new location, it was clear that Volkswagen could not accept the business and reputation risks associated with having their rival as a long-term business partner. Furthermore, customers were nervous about engine and part availability (of which there turned out to be no issue) and orders for new cars dropped precipitously. Volkswagen’s response was to prepare the old pushrod 6.75-litre 16-valve engine from the Turbo R for the Arnage, designed for the lighter and smaller BMW 32-valve V8 unit. Coupled with an outdated 4-speed automatic, the engine was extremely thirsty, and would not meet government-imposed emissions standards without hasty modifications. The revised version of the car was launched as the Arnage Red Label in October 1999. At the same time, but without the fanfare, Bentley made several minor modifications to the original BMW engined cars, and designated them as the “Arnage Green Label” for the 2000 model year. As part of the modification process, both Red and Green Label cars received stiffer body shells and larger wheels and brakes. The stiffer body shell was needed because of the extra weight of the British engine. The larger brakes were needed for the same reason. Despite the larger brakes, braking performance worsened with the extra weight of the 6.75 engine. The braking performance of the ’99 Green Label from 70–0 was 172 feet while the later Arnage T’s performance was 182 feet from the same speed. The PR department at Bentley pointed to customer demand as the driving force behind the reversion to the old two valve per cylinder 6.75-litre unit for the Red Label. This explanation appears to have been acceptable to all but a few of the motoring press who welcomed the return of the old unit after criticising the BMW motor as at best insipid and, at worst, underpowered. In reality, the outgoing BMW-powered Arnage was technically more modern, considerably more fuel efficient, and had 32 valves with double overhead camshafts, twin-turbo and Bosch engine management technology – as opposed to 16-valve, single turbo and a pushrod motor with less advanced engine management. The Red Label’s increase in motive power shaved less than a second of the zero to 60 mph time. However, the BMW twin turbo unit remained noticeably more agile and responsive from a driver’s perspective, due to its more responsive DOHC engine, better weight balance(maintaining a 51.1/48.9 weight distribution) and almost 600 lb (270 kg) lower curb weight. Ultimately the Green Label was more reliable and significantly less expensive to service in the long term. The key limiting factor of the BMW engine’s output was the ZF 5HP30 transmission which was not rated to handle more than the 413 lb·ft torque that the twin turbo engine was tuned to produce. In total only seven Arnage Green Label units were built, all of which were left-hand-drive versions. There was a final series of vehicles built in 2000 with the 4.4-litre BMW engine designated the Arnage Birkin, of which 52 units were produced and are distinguishable by their three-dial as opposed to five-dial instrument centre dashboard configuration. A long-wheelbase version of the Red Label was launched at the North American International Auto Show in 2001. The Green Label ended production in 2000. The Red Label models were replaced in 2002. In 2001, the Arnage RL, a long-wheelbase model, 9.8 in longer than the Arnage, was launched, the extra length added to the car at its rear doors and its C-pillar. With the standard Arnage model, the rear wheel wells butt up against the rear door frames, but with the RL they are a few inches further back. The overall effect is a larger rear area inside the car. Available only as a bespoke “Mulliner” model, each RL was customised to the desires of the buyer. The RL, however, was also the first of a new series of Arnages which would finally cure the Bentley Arnage of the reliability and performance deficiencies experienced following its forced deprivation of the modern BMW engines it was designed to use. The RL would also present a credible challenge to BMW’s attempts to revive the Rolls-Royce brand with its planned new model, the Phantom. The RL’s introduction saw the introduction of an entirely reworked version of the 6.75-litre V8 engine. Where the engine used in the Red Label was a quickly and less-than-completely-satisfactorily modified version of the Turbo RT’s unit, the RL featured an entirely reworked version of the old 6.75-litre V8. More than half of the engine’s parts were completely new, with Bosch Motronic ME7.1.1 engine management replacing the old Zytek system, and two small Garrett T3 turbochargers replacing the single large T4. This new engine developed 405 PS (399 bhp) and 616 lb·ft, and was said to be capable of meeting all future emissions requirements. Finally, the Arnage was powered by a modern twin-turbo unit with state-of-the-art electronic management system similar to the originally Cosworth-BMW unit developed for the Arnage in 1998. Perhaps ironically, what was essentially a new engine developed by Volkswagen Group engineers for the RL in 2001, was now producing the same sort of power as the original BMW V8 4.4 engine used in the first Arnage in 1998. Unfortunately, the development and testing of the revisions to the new engine were rushed by VW to meet regulatory requirements. As a result, the camshafts are prone to failure requiring extensive repair work to remedy In 2002, Bentley updated the Red Label as the series two Arnage R. This model was launched to contrast the Arnage T, which was developed to be more sporting. The Arnage R features two Garrett T3 turbochargers, as with the RL.The Arnage T, also from 2002, was claimed to be the most powerful roadgoing Bentley at its launch at the Detroit Motor Show. As with the Arnage R, there were twin-turbochargers, but tuned to develop 465 PS (459 bhp) and 645 lbf·ft. The Arnage T’s 0–60 mph time is 5.5 seconds; a top speed of 170 mph was claimed. The Arnage range was facelifted in 2005, with a front end resembling that of the new Continental GT. Production of the Arnage ceased in 2009.
BMW
The 319 was introduced in 1935. Produced alongside the 315, the 319 differed from it mainly by its new, larger engine with a bore of 65 mm, and a stroke of 96 mm, resulting in a displacement of 1,911 cc. This resulted in an increase in power to 45.6 bhp at 3750 rpm. The kerb weight of the 319 was 850 kg (1,874 lb), and the fuel capacity was 40 L. Upon the introduction of the BMW 326 in 1936, the 315 and 319 were no longer BMW’s largest cars. The 315 and 319 were discontinued in 1937. A total of 9,765 BMW 315s were built, including two-door saloon cars, touring cars, convertibles, sport convertibles, and 315/1 roadsters. A total of 6,646 BMW 319s of all types were built by the end of production in 1937. The 329 replaced the 319 in early 1937. The 329 was basically a 319 with the front bodywork and fenders from the BMW 326. The 329 was available only as a convertible, with either two or four doors. The 329 was replaced by the 326-based BMW 320 later in 1937.
Also from the pre-war period was this 328, a sports car made between 1936 and 1940, with the body design credited to Peter Szymanowski, who became BMW chief of design after World War II (although technically the car was designed by Fritz Fiedler). It had a 1971cc straight 6 OHV engine and 3 solec carburettors which gave it an output of 79 bhp at 5000 rpm, and a top speed of 150 km/h, making this relatively light car ideal for motorsport. The 328 was introduced at the Eifelrennen race at the Nürburgring in 1936, where Ernst Henne drove it to win the 2.0 litre class. The 328 had more than 100 class wins in 1937, including the RAC Tourist Trophy, the Österreichische Alpenfahrt, and the La Turbie hillclimb. In 1938, the 328 won its class at Le Mans, the RAC Tourist Trophy, the Alpine Rally, and the Mille Miglia. The 328 won the RAC Rally in 1939 and came in fifth overall and first in class in the 1939 24 Hours of Le Mans. The car continued its competition career after the war, with Frank Pratt winning the 1948 Australian Grand Prix driving a 328.
This is a 3.0 CSL, known as the E9 in BMW development speak. These two-door coupés were built for BMW by Karmann from 1968 to 1975 and were developed from the New Class-based BMW 2000 CS coupé. The first of the E9 coupés, the 2800 CS, replaced the 2000 C and 2000 CS in 1968. The wheelbase and length were increased to allow the engine bay to be long enough to accommodate the new straight-six engine code-named M30, and the front of the car was restyled to resemble the E3 saloon. The rear axle, however, remained the same as that used in the lesser “Neue Klasse” models and the rear brakes were initially drums – meaning that the 2800 saloon was a better performing car, as it was also lighter. The CS’ advantages were thus strictly optical to begin with The 2800 CS used the 2,788 cc version of the engine used in the E3 2800 saloon. The engine produced 170 bhp. The 2800CS was replaced by the 3.0 CS and 3.0 CSi in 1971. The engine had been bored out to give a displacement of 2,986 cc, and was offered with a 9.0:1 compression ratio, twin carburettors, and 180 hp in the 3.0 CS or a 9.5:1 compression ratio, Bosch D-Jetronic fuel injection, and 200 hp in the 3.0 CSi. There was a 4 speed manual and an automatic transmission variant. Introduced in May 1972, the 3.0 CSL was a homologation special built to make the car eligible for racing in the European Touring Car Championship. 1,265 were built. The “L” in the designation meant leicht (light), unlike in other BMW designations, where it meant lang (long). The lightness was achieved by using thinner steel to build the unit body, deleting the trim and soundproofing, using aluminium alloy doors, bonnet, and boot lid, and using Perspex side windows. The five hundred 3.0 CSLs exported to the United Kingdom were not quite as light as the others, as the importer had insisted on retaining the soundproofing, electric windows, and stock E9 bumpers on these cars. Initially using the same engine as the 3.0 CS, the 3.0 CSL was given a very small increase in displacement to 3,003 cc by increasing the engine bore by one quarter of a millimetre. This was done in August 1972 to allow the CSL to be raced in the “over three litre” racing category, allowing for some increase in displacement in the racing cars. In 1973,the engine in the 3.0 CSL was given another, more substantial increase in displacement to 3,153 cc by increasing the stroke to 84 mm. This final version of the 3.0 CSL was homologated in July 1973 along with an aerodynamic package including a large air dam, short fins running along the front fenders, a spoiler above and behind the trailing edge of the roof, and a tall rear wing. The rear wings were not installed at the factory, but were left in the boot for installation after purchase. This was done because the wings were illegal for use on German roads. The full aero package earned the racing CSLs the nickname “Batmobile”. In 1973, Toine Hezemans won the European Touring Car Championship in a 3.0 CSL and co-drove a 3.0 CSL with Dieter Quester to a class victory at Le Mans. Hezemans and Quester had driven to second place at the 1973 German Touring Car Grand Prix at Nürburgring, being beaten only by Chris Amon and Hans-Joachim Stuck in another 3.0 CSL 3.0 CSLs would win the European Touring Car Championship again in every year from 1975 to 1979. The 3.0 CSL was raced in the IMSA GT Championship in 1975, with Sam Posey, Brian Redman, and Ronnie Peterson winning races during the season. The first two BMW Art Cars were 3.0 CSLs; the first was painted by Alexander Calder and the second by Frank Stella.
First M car of them all, though none of us really knew just how significant the letter would become when it was launched, was the M1. In the late 1970s, Italian manufacturer Lamborghini had entered into an agreement with BMW to build a production racing car in sufficient quantity for homologation, but conflicts arose and Lamborghini’s increasingly tenuous financial position at the time meant that BMW reasserted control over the project and ended up producing the car themselves after 7 prototypes had been built. The result was the BMW M1 a hand-built car that was sold to the public between 1978 and 1981 under the Motorsport division of BMW. The body was designed by Giugiaro, taking inspiration from the 1972 BMW Turbo show car. The only mid-engined BMW to be “mass”produced, it employed a twin-cam M88/1 3.5 litre 6-cylinder petrol engine with Kugelfischer mechanical fuel injection, a version of which was later used in the South African version of the BMW 745i, as well as the E24 BMW M6/M635CSi and E28 BMW M5. The engine had six separate throttle bodies, four valves per cylinder and produced 273 hp, giving it a top speed of 162 mph. Turbocharged racing versions were capable of producing around 850 hp. Only 453 production M1s were built, making it one of BMW’s rarest models. Of these, 20 were race versions created for the BMW M1 Procar Championship.
The first car to bear the 6 Series nomenclature was the E24, which was launched in 1976, as a replacement for the E9 model 3.0 CS and CSL coupés first produced in 1965. The 3.0 CS was almost changed by adding a few centimeters in height to make it easier for customers to get into the car. However, Bob Lutz rebelled against the decision and rough drafted an alternative version that soon became the 6 series. Production started in March 1976 with two models: the 630 CS and 633 CSi. Originally the bodies were manufactured by Karmann, but production was later taken in-house to BMW. In July 1978 a more powerful variant, the 635 CSi, was introduced that featured as standard a special close-ratio 5-speed gearbox and a single piece black rear spoiler. The bigger bore and shorter stroke facilitated max 218 hp at 5200rpm and a better torque curve. For the first year, the 635 CSi was offered in three colours (Polaris, Henna Red, Graphite), and could also be spotted by the front air dam that did not have attached fog lights. These simple cosmetic changes reportedly worked to reduce uplift on the car at high speeds by almost 15% over the non-spoiler body shape. This early model shared suspension components with the inaugural BMW 5-series, the E12. In 1979 the carburettor 630 CS was replaced with the 628 CSi with its fuel injected 2.8 litre engine taken from the BMW 528i. In 1980 the 635 CSi gained the central locking system that is also controlled from the boot. Also, the E24 body style converted from L-jetronic injection to a Bosch Motronic DME. In 1982 (Europe) and 1983 (US), the E24 changed slightly in appearance, with an improved interior and slightly modified exterior. At the same time, the 635 CSi received a new engine, a slightly smaller-bored and longer-stroked 3430 cc six to replace the former 3453 cc engine and became available with a wide-ratio 5-speed manual or an automatic. This slight change was in fact a major change as pre-1982 cars were based on the E12 5-series chassis; after mid-1982, E24s shared the improved E28 5-series chassis. The only parts that remained the same were some of the exterior body panels. E24s produced after June 1987 came with new, ellipsoid headlamps which projects beam more directly onto road surface (newly introduced E32 7-series also sporting them). The sleeker European bumpers were also discontinued. Previous cars had either a European-standard bumper or a larger, reinforced bumper to meet the US standard requiring bumpers to withstand impact at 5 mph without damage to safety-related components. 1989 was the last year for the E24 with production stopping in April. The E24 was supplanted by the considerably heavier, more complex, and more exclusive 8 Series. BMW Motorsport introduced the M 635 CSi in Europe at the Frankfurt Motor Show in 1983. It is essentially an E24 powered by the powerplant of the BMW M1 – the M88 with 286 PS). Most of the cars were equipped with special metric 415 mm diameter wheels requiring Michelin TRX tyres. A catalysed, lower compression ratio version of the car with the S38 engine (260 PS ) was introduced in the U.S. in 1987. All M6 cars came standard with a 25% rear limited slip differential. U.S. models included additional comforts that were usually optional on models sold in Europe such as Nappa leather power seats and a dedicated rear A/C unit with a centre beverage chiller. 4,088 M635CSi cars were built between 1983 and 1988 with 1,767 U.S. M6 built. Seen here was a rather nice M635 CSi.
It was nice to see an E28 M5, the first model to bear the now legendary name. This M5 made its debut at Amsterdam Motor Show in February 1984. It was the product of demand for an automobile with the carrying capacity of a saloon, but the overall appearance of a sports car. It utilised the 535xi chassis and an evolution of the bodykit from the M535i. At its launch, the E28 M5 was the fastest production sedan in the world. The first generation M5 was hand-built in Preussenstrasse/Munich prior to the 1986 Motorsport factory summer vacation. Thereafter, M5 production was moved to Daimlerstrasse in Garching where the remainder were built by hand. Production of the M5 continued until November 1988, well after production of the E28 chassis ended in Germany in December 1987. The M5 was produced in four different versions based on intended export locations. These were the left-hand drive Euro spec, the right-hand drive UK spec, the LHD North American spec for the United States and Canada, and the RHD South African spec. The European and South African M5s used the M88/3 engine which produced 286 PS. North American 1988 models used the S38B35 engine which was equipped with a catalytic converter and produced 256 hp. With a total production of 2,191 units, the E28 M5 remains among the rarest regular production BMW Motorsport cars – after the BMW M1 (456 units), BMW E34 M5 Touring (891 units), and the BMW 850CSi (1510 units).
The BMW E30 is the second generation of BMW 3 Series, which was produced from 1982 to 1994 and replaced the E21 3 Series, and was the car which really saw the popularity of the 3 Series increase dramatically. . Development of the E30 3 Series began in July 1976, with styling being developed under chief designer Claus Luthe with exterior styling led by Boyke Boyer. In 1978, the final design was approved, with design freeze (cubing process) being completed in 1979. BMW’s launch film for the E30 shows the design process including Computer-aided design (CAD), crash testing and wind-tunnel testing. The car was released at the end of November 1982. Externally, the E30’s appearance is very similar to twin headlight versions of its E21 predecessor, however there are various detail changes in styling to the E30. Major differences to the E21 include the interior and a revised suspension, the latter to reduce the oversteer for which the E21 was criticised. At launch, the car had a 2 door style like its predecessor and just four engines, all of them petrol: the 316 and 318 four cylinder units and the 320 and 323i 6 cylinders. This last was soon upgraded to a 2.5 litre unit. Diesel models were added during the 80s and there was an all-wheel drive 325iX option for continental European markets. In addition to the 2 door saloon and Baur convertible body styles of its E21 predecessors, the E30 became available by early 1984 as a four-door sedan and later a five-door station wagon (marketed as “Touring”). The Touring body style began life as a prototype built by BMW engineer Max Reisböck in his friend’s garage in 1984 and began production in 1987. The factory convertible version began production in 1985, with the Baur convertible conversions remaining available alongside it. Following the launch of the E36 3 Series in 1990, the E30 began to be phased out.
The M3 model of the E36 3 Series was released in November 1992 and was initially available as a coupé only, with a convertible version added in 1994. A sedan version was also added in December 1994, to fill in the gap caused by the lack of the M5 sedan model between the end of E34 M5 production in 1995 and the launch of the E39 M5 in 1998. In September 1995, a facelift version of the coupé was introduced. Changes included the engine displacement increasing to 3.2 L, the manual transmission upgrading from a 5-speed to a 6-speed, different wheels and clear indicator lenses. The facelift changes were applied to the sedan model in November 1995 and the convertible model in February 1996. The kerb weight of the 1996 M3 coupe in European specification is 1,515 kg (3,340 lb). The facelift also saw the introduction of a 6-speed “SMG” automated manual transmission, the first time an automated transmission was available on an M3 outside the United States. The SMG transmission was praised for its fast shift times and operation in performance situations, but criticized for behaviour in everyday driving situations. The M3 Evolution Imola Individual is a limited-edition variant of the M3 (50 for the United Kingdom). The engine and performance characteristics of the car were unchanged from the 1996 European M3, and a special exterior and interior colour combination was chosen by BMW UK: “Imola Red” (405) paint with Nappa leather seats in Imola Red and Amaretta suede bolsters in anthracite. It also included side airbags, the M3 GT Class II rear spoiler, front class II corner splitter extensions, electric seats, and double-spoke polished alloy wheels.
Development of the E36 began in 1981 and the exterior design was heavily influenced by aerodynamics, specifically the overall wedge shape, headlight covers and smaller wing mirrors. The lead designers were Pinky Lai and Boyke Boyer. The production version of the E36 was launched in October 1990, with press release in November and market launch in early 1991. The initial models were of the four-door sedan body style, and these were soon followed by the coupe, convertible and Touring, to replace their equivalent E30 generation cars. The early models had a mixed reception, with many feeling that the build quality was not as good as previously and the grey plastic bumpers drew particular criticism, but BMW steadily evolved the car to make among the best available in its class and sales rocketed still further beyond E30 levels. The number of engines offered during the model’s life was greater than ever before, and this was the first 3 Series to be available with a six-speed manual transmission (in the 1996 M3), a five-speed automatic transmission and a four-cylinder diesel engine. The multi-link rear suspension was also a significant upgrade as compared to the previous generations of the 3 Series. All-wheel drive was not available for the E36, unlike the previous (E30) and successive (E46) generations. Following the introduction of its successor, the E46 3 Series in 1998, the E36 began to be phased out and was eventually replaced in 1999.
The M3 version of the E46 3 Series was produced in coupé and convertible body styles. The E46 M3 is powered by the S54 straight-six engine and has a 0-100 km/h (62 mph) acceleration time of 5.1 seconds for the coupe, with either the manual or SMG-II transmission. The skid pad cornering results are 0.89 g for the coupe and 0.81 g for the convertible.The top speed is electronically limited to 250 km/h (155 mph). The available transmissions were a Getrag 420G 6-speed manual transmission or a SMG-II 6-speed automated manual transmission, which was based on the Getrag 420G.[58] The SMG-II used an electrohydraulically actuated clutch and gearshifts could be selected via the gear knob or paddles mounted on the steering wheel. The SMG-II was praised for its fast shift times and racetrack performance, but some people found its shifts to be delayed and lurching in stop-start traffic. In 2005, a special edition was introduced which used several parts from the CSL. This model was called the M3 Competition Package (ZCP) in the United States and mainland Europe, and the M3 CS in the United Kingdom. Compared to the regular M3, the Competition Package includes: 19-inch BBS alloy wheels- 19″x 8″ at the front and 19″x 9.5″ at the rear; Stiffer springs (which were carried over to the regular M3 from 12/04); Faster ratio steering rack of 14.5:1 (compared with the regular M3’s ratio of 15.4:1) as per the CSL; Steering wheel from the CSL; M-track mode for the electronic stability control, as per the CSL; The CSL’s larger front brake discs (but with the regular M3 front calipers) and rear brake calipers with larger pistons; Alcantara steering wheel and handbrake covers; The engine, gearbox and other drivetrain components are the same as the standard M3. Total production of the E46 M3 was 56,133 coupes and 29,633 convertibles. The cars were assembled at the BMW Regensburg factory in Germany and production was from September 2000 until August 2006, production totalled 85,766.
The E60 M5 was introduced in 2004, with a V10 engine and 7-speed paddle-shift transmission linking the car with the BMW Sauber Formula One program. The E60 M5 was the world’s first production sedan to use a V10 gasoline engine. This generation of the M5 was also built in the E61 Touring (wagon) body style, which was only sold in Europe. The E63/E64 M6 coupé and convertible are based on a shortened version of the M5 chassis and largely use the same mechanical components. The BMW S85 is a 5.0 L V10 engine which generates a power output of 500 bhp at 7,750 rpm and 520 Nm (384 lb/ft) of torque at 6,100 rpm. The S85 was exclusively used in the E60 M5 (and related E63/E64 M6) and is not based on any other engine. There are three driver-selectable engine modes: P400, P500 and P500 S. P400, the default start-up mode, limits the engine to 394 bhp. P500 increases power to the full 500 bhp. The P500 S mode keeps the engine at the same power output as the P500 mode but adds a more sensitive throttle response. This engine is well known for its rod bearing failures. The S85 and S65 from the E9X series M3 share this rod bearing issue, and can lead to catastrophic engine failure if it is not addressed. Another major issue with this engine is the throttle actuators, which is usually attributed to the gears located inside the actuators, however, electronic failure of the actuators themselves is not uncommon. The official 0 to 100 km/h (62 mph) acceleration figure is 4.7 seconds for the sedan, however magazine tests have recorded figures down to 4.1 seconds. The E60 M5 was the fastest 4-door sedan available at the time of its introduction. Top speed is electronically restricted to 250 km/h (155 mph) but could be raised to 305 km/h (190 mph) with the optional M-driver’s package. The M5 has recorded a Nürburgring lap time of 8:13. Upgrades over regular 5 Series models include a wider track, unique body panels, a colourful heads up display featuring navigation, control messages, speed, rpm and gear selection information, automated seat side bolsters, heated/ventilated seats and power rear curtain. The larger, flared front guards on either side also featured cooling vents, reminiscent of the 1970s BMW CSL. The wheels were of 19-inch diameter and the car has quad exhaust pipes at the rear. During its five-year production run, 20,589 units were built: 19,564 sedans and 1,025 Touring. The biggest market was the United States with 8,800 cars (sedans only), followed by Great Britain and Ireland with 1,776 cars and Germany with 1,647 cars. The car seen belongs to Chris Harris – who came scorching past me whilst I was en route to the event!
Completing the array of BMW models that attracted my camera were the latest M3 and the recently released M3 Touring as well as the brand new 5 series.
BUGATTI
The Bugatti Type 57 and later variants (including the famous Atlantic and Atalante) was an entirely new design created by Jean Bugatti, son of founder Ettore. Type 57s were built from 1934 through 1940, with a total of 710 examples produced. Type 57s used a twin-cam 3,257 cc engine based on that of the Type 49 but heavily modified by Jean Bugatti, unlike the single cam engines of the Type 49 and earlier models. The engines of the Type 50, 51 used bevel gears at the front of the engine to transmit power from the crankshaft, whereas the Type 57 used a train of spur gears at the rear of the engine, with fibre gear wheels on the camshafts to achieve more silence in operation. There were two basic variants of the Type 57 car: the original Type 57 and the lowered Type 57S/SC. The original Type 57 was a touring car model produced from 1934 through 1940. It used the 3,257 cc engine from the Type 59 Grand Prix cars, producing 135 bhp. Top speed was 153 km/h (95 mph). It rode on a 3,302 mm (130 in) wheelbase and had a 1,349 mm (53 in) wide track. Road-going versions weighed about 950 kg (2,090 lb). Hydraulic brakes replaced the cable-operated units in 1938, a modification Ettore Bugatti hotly contested. 630 examples were produced. The original road-going Type 57 included a smaller version of the Royale’s square-bottom horseshoe grille. The sides of the engine compartment were covered with thermostatically-controlled shutters. It was a tall car, contrary to the tastes of the time. The car seen is a Type 57S Surbaisse, one of just 42 produced. The 57S was originally ordered new by Robert Ropner, a member of the Ropner Shipping Line family, from renowned London dealership Jack Barclay. Ropner specified a custom-built four-seater sports Grand Routier body fashioned by the celebrated coachbuilders Corsica of London to envelope its powerful 3.3-litre engine, which made the 57S the fastest road car of its day. The car was given the charming period nickname of Dulcie due to its British registration number ‘DUL 351’. With the success of the marque on the racetrack during the golden era of the 1930s, Bugatti sports cars were regarded as Grand Prix cars for the road and were often the off-duty transport for leading racing drivers. It is entirely fitting that this motor car’s second owner was Rodney Clarke, who founded the post war British Connaught Grand Prix racing team. Moreover, this Bugatti’s chassis has been identified as one of only three special lightweight frames produced for the 1936 season of Grand Prix winning and multiple world record-breaking Bugatti works Type 57G Tank streamlined sports-racing cars, the factory racing derivative of the 57S. Soon after buying the 57S in 1969, Mr Turnbull corresponded with all four previous owners and, after a short period of use, stripped it down in his workshop to embark upon a full restoration to his own painstakingly high standards. His work was almost complete at the time of his death. The car came to auction in 2021.
CHEVROLET
The first generation of Corvette was introduced late in the 1953 model year. Originally designed as a show car for the 1953 Motorama display at the New York Auto Show, it generated enough interest to induce GM to make a production version to sell to the public. First production was on June 30, 1953. This generation was often referred to as the “solid-axle” models (the independent rear suspension was not introduced until the second generation).Three hundred hand-built polo white Corvette convertibles were produced for the 1953 model year. The 1954 model year vehicles could be ordered in Pennant Blue, Sportsman Red, Black, or Polo White. 3,640 were built, and sold slowly. The 1955 model offered a 265 cu in (4.34 litre) V8 engine as an option. With a large inventory of unsold 1954 models, GM limited production to 700 for 1955. With the new V8, the 0-60 mph time improved by 1.5 seconds. A new body was introduced for the 1956 model featuring a new “face” and side coves; the taillamp fins were also gone. An optional fuel injection system was made available in the middle of the 1957 model year. It was one of the first mass-produced engines in history to reach 1 bhp per cubic inch (16.4 cc) and Chevrolet’s advertising agency used a “one hp per cubic inch” slogan for advertising the 283 bhp 283 cu in (4.64 litre) Small-Block engine. Other options included power windows (1956), hydraulically operated power convertible top (1956), heavy duty brakes and suspension (1957), and four speed manual transmission (late 1957). Delco Radio transistorised signal-seeking “hybrid” car radio, which used both vacuum tubes and transistors in its radio’s circuitry (1956 option). The 1958 Corvette received a body and interior freshening which included a longer front end with quad headlamps, bumper exiting exhaust tips, a new steering wheel, and a dashboard with all gauges mounted directly in front of the driver. Exclusive to the 1958 model were bonnet louvres and twin trunk spears. The 1959–60 model years had few changes except a decreased amount of body chrome and more powerful engine offerings. In 1961, the rear of the car was completely redesigned with the addition of a “duck tail” with four round lights. The light treatment would continue for all following model year Corvettes until 2014. In 1962, the Chevrolet 283 cu in (4.64 litre) Small-Block was enlarged to 327 cu in (5.36 litre). In standard form it produced 250 bhp. For an extra 12% over list price, the fuel-injected version produced 360 bhp, making it the fastest of the C1 generation. 1962 was also the last year for the wrap around windshield, solid rear axle, and convertible-only body style. The boot lid and exposed headlamps did not reappear for many decades.
The C2 generation Corvette was launched in 1963. This model introduced us to the name Sting Ray. It continued with fibreglass body panels, and overall, was smaller than the first generation. The car was designed by Larry Shinoda with major inspiration from a previous concept design called the “Q Corvette,” which was created by Peter Brock and Chuck Pohlmann under the styling direction of Bill Mitchell. Earlier, Mitchell had sponsored a car known as the “Mitchell Sting Ray” in 1959 because Chevrolet no longer participated in factory racing. This vehicle had the largest impact on the styling of this generation, although it had no top and did not give away what the final version of the C2 would look like. The third inspiration was a Mako Shark Mitchell had caught while deep-sea fishing. Production started for the 1963 model year and ended in 1967. The 1963 model was the first year for a Corvette coupé and it featured a distinctive tapering rear deck (a feature that later reappeared on the 1971 “Boattail” Buick Riviera) with, for 1963 only, a split rear window. The Sting Ray featured hidden headlamps, non-functional bonnet vents, and an independent rear suspension. Corvette chief engineer Zora Arkus-Duntov never liked the split rear window because it blocked rear vision, but Mitchell thought it to be a key part of the entire design. Maximum power for 1963 was 360 bhp, raised to 375 bhp in 1964. Options included electronic ignition, the breakerless magnetic pulse-triggered Delcotronic first offered on some 1963 Pontiac models. On 1964 models the decorative bonnet vents were eliminated and Duntov, the Corvette’s chief engineer, got his way with the split rear window changed to a full width window. Four-wheel disc brakes were introduced in 1965, as was a “big block” engine option: the 396 cu in (6.49 litre) V8. Side exhaust pipes were also optionally available in 1965, and continued to be offered through 1967. The introduction of the 425 bhp 396 cu in big block in 1965 spelled the beginning of the end for the Rochester fuel injection system. The 396 cu in option cost $292.70 while the fuel injected 327 cu in (5.36 litre) engine cost $538.00. Few people could justify spending $245.00 more for 50 bhp less, even though FI could deliver over 20 mpg on the highway and would keep delivering fuel despite high G-loading in corners taken at racing speeds. Another rare ’63 and ’64 option was the Z06 competition package, which offered stiffer suspension, bigger, multi-segment lined brakes with finned drums and more, only a couple hundred coupes and ONE convertible were factory-equipped this way in 1963. With only 771 fuel-injected cars built in 1965, Chevrolet discontinued the option at the end of the ’65 production, having introduced a less-expensive big block 396 engine rated at 425 hp in the middle of the production year and selling over 2,000 in just a few months. For 1966, Chevrolet introduced an even larger 427 cu in 7 litre Big Block version. Other options available on the C2 included the Wonderbar auto-tuning AM radio, AM-FM radio (mid-1963), air conditioning (late-1963), a telescopic steering wheel (1965), and headrests (1966). The Sting Ray’s independent rear suspension was successfully adapted for the new-for-1965 Chevrolet Corvair, which solved the quirky handling problems of that unique rear-engine compact. 1967 was the final year for the C2 generation. The 1967 model featured restyled bumper vents, less ornamentation, and back-up lamps which were on the inboard in 1966 were now rectangular and centrally located. The first use of all four taillights in red started in 1961 and was continued thru the C-2 line-up except for the 1966. The 1967 and subsequent models continuing on all Corvettes since. 1967 had the first L88 engine option which was rated at 430 bhp, but unofficial estimates place the actual output at 560 bhp or more. Only twenty such engines were installed at the factory. From 1967 (to 1969), the Holley triple two-barrel carburettor, or Tri-Power, was available on the 427 L89 (a $368 option, on top of the cost for the high-performance 427). Despite these changes, sales slipped over 15%, to 22,940 – 8,504 coupes and 14,436 convertibles.
The third generation Corvette, patterned after the Mako Shark II concept car, was introduced for the 1968 model year and was in production until 1982. C3 coupes featured the first use of T-top removable roof panels. The C3 introduced monikers that were later revived, such as LT-1, ZR-1, Z07 and Collector Edition. In 1978, the Corvette’s 25th anniversary was celebrated with a two-tone Silver Anniversary Edition and an Indy Pace Car replica edition of the C3. This was also the first time that a Corvette was used as a Pace Car for the Indianapolis 500. Engines and chassis components were mostly carried over from the C2, but the body and interior were new. The 350 cu in (5.7 litre) engine replaced the old 327 cu in (5.36 litre) as the base engine in 1969, but power remained at 300 bhp. 1969 was the only year for a C3 to optionally offer either a factory installed side exhaust or normal rear exit with chrome tips. The all-aluminium ZL1 engine was also new for 1969; the special big-block engine was listed at 430-hp , but was reported to produce 560 hp and propelled a ZL1 through the 1/4 mile in 10.89 seconds. There was an extended production run for the 1969 model year due a lengthy labour strike, which meant sales were down on the 1970 models, to 17,316. 1970 small-block power peaked with the optional high compression, high-revving LT-1 that produced 370 bhp. The 427 big-block was enlarged to 454 cu in (7.44 litre) with a 390 bhp rating. The ZR-1 special package was an option available on the 1970 through 1972 model years, and included the LT-1 engine combined with special racing equipment. Only 53 ZR-1’s were built. In 1971, to accommodate regular low-lead fuel with lower anti-knock properties, the engine compression ratios were lowered which resulted in reduced power ratings. The power rating for the 350 cu in (5.7 litre) L48 base engine decreased from 300 to 270 hp and the optional special high performance LT1 engine decreased from 370 to 330 hp. The big-block LS6 454 was reduced from 450 to 425 bhp, though it was not used in Corvettes for 1970; it was used in the Chevelle SS. For the 1972 model year, GM moved to the SAE Net measurement which resulted in further reduced, but more realistic, power ratings than the previous SAE Gross standard. Although the 1972 model’s 350 cu in horsepower was actually the same as that for the 1971 model year, the lower net horsepower numbers were used instead of gross horsepower. The L48 base engine was now rated at 200 bhp and the optional LT1 engine was now rated at 270 bhp. 1974 models had the last true dual exhaust system that was dropped on the 1975 models with the introduction of catalytic converters requiring the use of no-lead fuel. Engine power decreased with the base ZQ3 engine producing 165 bhp), the optional L82’s output 250 bhp, while the 454 big-block engine was discontinued. Gradual power increases after 1975 peaked with the 1980 model’s optional L82 producing 230 bhp. Styling changed subtly throughout the generation until 1978 for the car’s 25th anniversary. The Sting Ray nameplate was not used on the 1968 model, but Chevrolet still referred to the Corvette as a Sting Ray; however, the 1969 (through 1976) models used the “Stingray” name as one word, without the space. In 1970, the body design was updated including fender flares, and interiors were refined, which included redesigned seats, and indication lights near the gear shift that were an early use of fibre optics . Due to government regulation, the 1973 Corvette’s chrome front bumper was changed to a 5-mile-per-hour (8 km/h)system with a urethane bumper cover. 1973 Corvettes are unique in that sense, as they are the only year where the front bumper was polyurethane and the rear retained the chrome two-piece bumper set. 1973 was also the last year chrome bumpers were used. The optional wire-spoked wheel covers (left) were offered for the last time in 1973. Only 45 Z07 were built in 1973. From 1974 onwards both the front and rear bumpers were polyurethane. In 1974, a 5-mph rear bumper system with a two-piece, tapering urethane bumper cover replaced the Kamm-tail and chrome bumper blades, and matched the new front design from the previous year. 1975 was the last year for the convertible, (which did not return for 11 years). For the 1976 models the fibreglass floor was replaced with steel panels to provide protection from the catalytic converter’s high operating temperature. 1977 was last year the tunnelled roof treatment with vertical back window was used, in addition leather seats were available at no additional cost for the first time. The 1978 25th Anniversary model introduced the fastback glass rear window and featured a new interior and dashboard. Corvette’s 25th anniversary was celebrated with the Indy 500 Pace Car limited edition and a Silver Anniversary model featuring silver over gray lower body paint. All 1979 models featured the previous year’s pace car seats and offered the front and rear spoilers as optional equipment. 53,807 were produced for the model year, making 1979 the peak production year for all versions of the Corvette. Sales have trended downward since then. In 1980, the Corvette received an integrated aerodynamic redesign that resulted in a significant reduction in drag. After several years of weight increases, 1980 Corvettes were lighter as engineers trimmed both body and chassis weight. In mid-1981, production shifted from St. Louis, Missouri to Bowling Green, Kentucky, and several two-tone paint options were offered. The 1981 models were the last available with a manual transmission until well into the 1984 production run. In 1982, a fuel-injected engine returned, and a final C3 tribute Collectors Edition featured an exclusive, opening rear window hatch. Seen here were both an early Convertible and one of the later models.
Chevrolet reintroduced the El Camino four years later based on the mid-size Chevrolet Chevelle. The 1964 model was similar to the Chevelle two-door wagon forward of the B-pillars and carried both “Chevelle” and “El Camino” badges, but Chevrolet marketed the vehicle as a utility model and the Chevelle’s most powerful engines were not available. Initial engine offerings included six-cylinder engines of 194 and 230 cubic inches with horsepower ratings of 120 and 155 hp, respectively. The standard V8 was a 283 cubic-inch Chevrolet small block with two-barrel carburettor and 195 hp with optional engines including a 220 hp 283 with four-barrel carburettor and dual exhausts. Added to the El Camino’s option list during the course of the 1964 model year were two versions of the 327 cubic-inch small block V8 rated at 250 and 300 hp – the latter featuring a higher compression ratio of 10.5:1, larger four-barrel carburettor and dual exhausts. El Caminos also featured Air shocks in the rear, as well as fully boxed frames. The shocks were continued over all generations, the frames only thru 1967. The 1965 El Camino received the same facelift as the 1965 Chevelle, with a more pronounced V-shaped front end, and a higher performance L79 version of the 327 engine rated at 350 hp that was also available in Chevelles. Most of the other engines were carried over from 1964, including the 194 and 230 cubic-inch Turbo Thrift sixes, the 195 hp 283 cubic-inch Turbo-Fire V8 and 327 cubic-inch Turbo-Fire V8s of 250 and 300 hp. In 1966, GM added a 396 cu in (6.5 L) V8 engine to the lineup rated from 325 to 375 hp. The 1965 327 would run low 15s in the 1/4 mile (at some 90 mph), while 1966 to 1969 models were easily into the mid- to upper-14s. New sheetmetal highlighted the 1966 El Camino, identical to the Chevelle. A new instrument panel with horizontal sweep speedometer was featured. Inside, the standard version featured a bench seat interior and rubber floor mat from the low-line Chevelle 300 series, while the Custom used a more upscale interior from the Chevelle Malibu with plusher cloth-and-vinyl or all-vinyl bench seats and deep twist carpeting. A tachometer was optional. The 1967 El Camino followed the Chevelle’s styling facelift with a new grille, front bumper, and trim. Air shocks remained standard equipment on the El Camino, allowing the driver to compensate for a load. The 1967 model year also brought the collapsible steering column and options of disc brakes and Turbo Hydramatic 400 3-speed automatic transmission. It was the second year the 396 (L35, L34, and L78) could be had in the El Camino (both 13480 300 Deluxe base and 13680 Malibu series). Since the L35 396/325 hp engine was the base for the SS396 series, the number of L35 engines reported sold by Chevrolet in 1967 (2,565) were sold in one of the two El Camino series, which were the only other series the engine could be ordered in. Since the L34 (350 hp & L78 (375 hp) were available in either El Camino series as well as the two SS396 body styles, there is no way of knowing how many of these optional engines went to which body style. Chevrolet does report 17,176 L34 and 612 L78 engine options were sold in 1967 Chevelles, but there is no breakdown of body styles. The TH400 3-speed automatic was now available as an option (RPO M40) with the 396 engine in both the SS396 series and the 396-equipped El Caminos. The 3-speed manual transmission remained the standard transmission with a heavy duty (RPO M13) also available along with the 2-speed Powerglide and either M20 wide ratio or M21 close ratio 4-speed transmissions. Although there was no actual factory El Camino Super Sport until 1968, many owners have “cloned” ’67 SS396s using 1967 Chevelle SS396 badges and trim. There was a brand new model for 1968.
CHRYSLER
Walter P. Chrysler took the job of re-organizing the ailing Maxwell Motor Company and in 1925 the Chrysler Corporation was officially founded. Walter had plans for building a revolutionary mass-market car that was designed to be higher quality than the commonly seen Ford’s yet more affordable than the likes of Buick and Cadillac. The vehicles were produced at the old Chalmers plant in Detroit and introduced in January 1924. These cars were innovative, medium-priced, six-cylinder cars of better-than-average performance. This was soon demonstrated by numerous sports successes. Chrysler competed at LeMans, Spa, and in the Mille Miglia since 1925, and in 1930 two Model 77 Roadsters were factory raced at Spa. A 77 Series Roadster driven by Stoffel and De Costier finished 5th behind three Alfas and a Bugatti. At the 1930 Mille Miglia, Leonardi and Barbieri repeated their five-litre class win from the previous year. The new Chrysler cars had hydraulic brakes, aluminium pistons, full-pressure lubrication, and a tubular front axle, and were able to reach 70mph comfortably. Chrysler introduced the Series 77 in 1930 and offered a wide variety of factory body styles. The model features a 4-speed transmission, double-drop frame, parking lamps on the front upper corner pillars, and distinctive concave mouldings on the open-top models. Pennon-type hood louvers were used on early production units, while later cars switched to a vertical design.
CITROEN
1934 saw the introduction of the Citroen’s revolutionary and mould-shattering front-wheel-drive semi-monocoque Citroën Traction Avant. The Traction endured a troubled and prolonged birth process, however, and was part of an ambitious investment programme which involved, also in 1934, the bankruptcy of the business, and its acquisition by Citroën’s principal creditor. The patron himself died in 1935. In this troubled situation, availability of the larger Rosalies (although re-engined with a turned-around version of the new Traction’s OHV four-cylinder engines) continued till 1938: it is only through the distorting prism of subsequent events that its reputation has been diminished when set against the technical brilliance of its successor. There were three examples of the Traction Avant here. Produced for over 20 years, many different versions were made during that time, all with the same styling outline, but with power outputs ranging from 7 to 15CV, and different wheelbases, as well as some with Coupe and Convertible body styles. There was even one model with a large opening tailgate, the Commerciale.
There is a long history to this car, but it was only really with the relaunch of the model to the UK market in 1974 when interest here took off. Sales of the 2CV were reinvigorated by the 1974 oil crisis. The 2CV after this time became as much a youth lifestyle statement as a basic functional form of transport. This renewed popularity was encouraged by the Citroën “Raid” intercontinental endurance rallies of the 1970s where customers could participate by buying a new 2CV, fitted with a “P.O.” kit (Pays d’Outre-mer—overseas countries), to cope with thousands of miles of very poor or off-road routes. Because of new emission standards, in 1975 power was reduced from 28 hp to 25 hp. The round headlights were replaced by square ones, adjustable in height. A new plastic grille was fitted. In July 1975, a base model called the 2CV Spécial was introduced with the 435 cc engine. Between 1975 and 1990 under the name of AZKB “2CV Spécial” a drastically reduced trim basic version was sold, at first only in yellow and with an untreated black roof. Slimmer bumpers with stick-on tape rather than plastic strips and no overriders were fitted. It also had the earlier round headlights, last fitted in 1974. In order to keep the price as low as possible, Citroën removed the third side window, the ashtray, and virtually all trim from the car, while that which remained was greatly simplified, such as simple vinyl-clad door cards and exposed door catches rather than the plastic moulded trims found on the 2CV Club. Other 2CVs shared their instruments with the Dyane and H-Van but the Spécial had a much smaller square speedometer also incorporating the fuel gauge, originally fitted to the 2CV in the mid-1960s and then discontinued. The model also had a revised (and cheaper-to-make) plastic version of the 1960s two-spoke steering wheel instead of the one-spoke item from the Dyane, as found on the Club. From the 1978 Paris Motor Show the Spécial regained third side windows, and was available in red and white; beginning in mid-1979 the 602 cc engine was installed.[58] In June 1981 the Spécial E arrived; this model had a standard centrifugal clutch and particularly low urban fuel consumption. By 1980 the boost to 2CV sales across Europe delivered by the 1973 Energy Crisis had begun to wear off and there was a whole new generation of superminis and economy cars available from European and Japanese manufacturers. Citroën itself now had the Visa available. Peak annual production for 2CVs was reached in 1974 (163,143 cars) but by 1980 this had dropped to 89,994 and by 1983 would stand at just 59,673. Nonetheless the car remained profitable for PSA to produce on account of its tooling and set-up costs being amortised many years before and it could share major parts with more popular or profitable models such as the Visa and Acadiane. As part of this rationalisation in 1981 the Spécial was fitted as standard with the 602 cc engine, although the 435 cc version remained available to special order in some European countries until stocks were used up. Also in 1981 a yellow 2CV6 was driven by James Bond (Roger Moore) in the 1981 film For Your Eyes Only. The car in the film was fitted with the flat-4 engine from a Citroën GS which more than doubled the power. In one scene the ultra light 2CV tips over and is quickly righted by hand. Citroën launched a special edition 2CV “007” to coincide with the film; it was fitted with the standard engine and painted yellow with “007” on the front doors and fake bullet hole stickers. In 1982 all 2CV models got inboard front disc brakes, which also used LHM fluid instead of conventional brake fluid—the same as was found in the larger Citroën models with hydropneumatic suspension. In late 1986 Citroën introduced the Visa’s replacement, the AX. This was widely regarded as a superior car to the Visa and took many of the remaining 2CV sales in France following its introduction. From 1986 to 1987 2CV production fell by 20 per cent to just 43,255 cars. Of that total over 12,500 went to West Germany and 7212 went to the UK. France was now the third-largest market for 2CVs, taking 7045 cars that year. It was estimated that Citroën was now selling the 2CV at a loss in the French market, but that it was still profitable in other European countries. The peak of 2CV sales in the United Kingdom would be reached in 1986, thanks to the introduction of the popular Dolly special edition (see below)—7520 new 2CVs were registered in Britain that year. This year saw the discontinuation of the Club, which was by then the only 2CV model to retain the rectangular headlamps. This left the Spécial as the only regular 2CV model, alongside the more fashion-orientated Dolly, Charleston and the other special editions. In 1988, production ended in France after 40 years. The factory at Levallois-Perret had been the global centre for 2CV production since 1948 but was outdated, inefficient and widely criticised for its poor working conditions. The last French-built 2CV was made on February 25. In recognition of the event, the last 2CV built at Levallois was a basic Spécial in a non-standard grey colour—the same shade as worn by the very first 2CVs. Production of the 2CV would continue at the smaller-capacity but more modern Mangualde plant in Portugal. In 1989 the first European emission standards were introduced voluntarily by a number of European nations, ahead of the legal deadline of July 1992. This meant that the 2CV was withdrawn from sale in Austria, Denmark, Italy, Spain, Sweden, Switzerland and The Netherlands—the latter one of the car’s largest remaining markets. That year the three leading markets for the 2CV were West Germany (7866), France (5231) and the UK (3200). The last 2CV was built at Mangualde on 27 July 1990—it was a specially-prepared Charleston model. Only 42,365 2CVs were built in Portugal in the two years following the end of French production. Portuguese-built cars, especially those from when production was winding down, have a reputation in the UK for being much less well made and more prone to corrosion than those made in France. According to Citroën, the Portuguese plant was more up-to-date than the one in Levallois near Paris, and Portuguese 2CV manufacturing was to higher quality standards. As of October 2016, 3,025 remained in service in the UK.
Although it was perhaps not as radical a product as the DS, which it replaced had been, this was still something of a futuristic looking car when it was revealed in 1974. Indeed, it is considered by some enthusiasts as the last “real Citroën” before Peugeot took control of the company in 1976, and as history has now shown, is, it was to be the final successful model of the “big Citroën” era, which began in 1934, as Citroën sold nearly 1.2 million CXs during its 16 years of production. The CX’s flowing lines and sharp Kamm tail were designed by auto stylist Robert Opron, resembling its precursor the GS. Citroën had been using a Wind tunnel for many years, and the CX was designed to perform well in aerodynamic drag, with a low coefficient of drag (Cd in English; CX in French) of 0.36. Despite its fastback lines, the model was never sold as a hatchback, even though many of its rivals adopted this during the 1970s, and Citroen thus modified their own GS late in its life. Mechanically, the car was one of the most modern of its time, combining Citroën’s unique hydro-pneumatic integral self-levelling suspension, speed-adjustable DIRAVI power steering (first introduced on the Citroën SM), and a uniquely effective interior design that did away with steering column stalks, allowing the driver to reach all controls while both hands remained on the steering wheel. The CX suspension’s ability to soak up large undulations and yet damp out rough surfaces was extraordinary, with a consistent ride quality, empty, or fully laden. The suspension was attached to sub frames that were fitted to the body through flexible mountings, to improve even more the ride quality and to reduce road noise. “Car” magazine described the sensation of driving a CX as hovering over road irregularities, much like a ship traversing above the ocean floor. This suspension was used under license by Rolls-Royce on the Silver Shadow. The Mercedes-Benz 450SEL 6.9 was not built under license, but copied the Hydropneumatic suspension principles after the less effective Mercedes-Benz 600 Air suspension installation. The CX was conceived to be a rotary-engined car—with several negative consequences. The CX engine bay is small because rotary engines are compact, but the Comotor three-rotor rotary engine was not economical and the entire rotary project was scrapped the year the CX was introduced, and Citroen went bankrupt in 1974, partly due to a series of investments like Comotor that didn’t result in profitable products. Production versions of the CX were always powered by a modest inline 4 cylinder engine, transversely mounted. This saved space and allowed the CX to be 8″ shorter than the DS. At launch in 1974, the CX was rushed to market, with some teething troubles. Some very early models did not have power steering which made the car difficult and heavy to drive – the CX carries 70% of its weight over the front wheels. Initially there was a choice between three differently powered versions. The “Normale” CX car came with a 1985 cc version of the four cylinder engine from the predecessor model with a claimed maximum output of 102 PS, which was slightly more than had been available from the engine when fitted in the DS. The “Economique” version of the car (reflecting the continuing impact of the 1973 oil price shock) came with the same engine as the “Normale”, but the gear ratios were changed, along with the final drive ratio, giving rise to a 7 km/h (4 mph) reduction in top speed in return for usefully improved fuel economy. More performance came from the “CX 2200”, fitted with a 2175 cc version of the engine and a twin carburettor, resulting in a claimed maximum output of 112 PS. This was rather less than was available in the top spec DS23 EFi which featured a relatively powerful 141 PS fuel-injected 2.3-litre engine. The later 2200 improved on this, and eventually the same 2347 cc unit as used in the DS) arrived, originally only in the long wheel-base Prestige, but a regular CX 2400 arrived at the 1976 Paris Salon, to replace the CX 2200. By this time, Citroen had added a capacious Estate model to the range, called Safari, and a 2.2 litre Diesel powered model – important even in the mid 1970s in France – was also offered. Despite the challenging finances of Citroën at the time of launch, the CX was entered in numerous rally driving events, like Tour du Senegal and Paris-Dakar, winning 5 events outright. Most notable among these was in the 17,500 mile 1977 London–Sydney Marathon road race in which Paddy Hopkirk, driving a CX 2400 sponsored by Citroën’s Australian concessionaire, staged a come-from-behind sprint to obtain third place. The CX was initially a huge success in Europe, more than 132,000 being produced in 1978. It found customers beyond the loyal Citroën DS customer base and brought the technology of the advanced, but somewhat impractical, Citroën SM to the masses. Evolution of the car after this was gradual. More power came in 1977, with the CX GTi which received a modern Bosch L-Jetronic injection system, generating 128 PS, and there was a standard five speed gearbox, and in early 1978, the diesel engine was enlarged to 2.,5 litres. A five speed gearbox was available. A very mild facelift in 1979 saw the Douvrin 2 litre engines that were used in the rival Renault R20 fitted under the bonnet to create the CX Reflex and Athena. In 1981, factory rustproofing and a fully automatic transmission to replace the former semi-automatic gearbox were added. In 1984, the addition of a turbo to the 2.5 litre diesel engine made the CX Turbo-D 2.5 the fastest diesel sedan in the world, able to reach speeds up to 195 km/h (121 mph). In 1985, the GTi Turbo, with a top speed of over 220 km/h (137 mph), finally gave the CX the powerful engine that finally used the full capabilities of the chassis. A facelift later that year was an attempt to keep the car in the public eye, but its sales had peaked long ago, back in 1978, and better trim, a revised interior and new plastic bumpers were not going to help a 10 year old design in the face of stiff market competition. Just 35,000 units were produced in 1986 and 1987. There were few further changes for the rest of the CX’s life, with its successor, the XM appearing in early 1989. Production of the Estate models continued until 1991, by which time 1,170,645 CXs had been sold. There are far fewer survivors than there are of the DS family.
The Visa is rare now, even in France, as despite the fact that Citroën built 1,254,390 examples of the model between 1978 and 1988, the model is all but extinct everywhere. There was a very long gestation to this car, which goes all the way back to 1965, when Robert Opron worked on the Citroën G-mini prototype and projet EN101, a replacement for the 2CV, using the flat twin engine from the 2CV. It was supposed to launch in 1970. The advanced space efficient designs with very compact exterior dimensions and an aerodynamic drag co-efficient Cd of 0.32, were axed because of adverse feedback from potential clients. With Citroën’s small car range all getting somewhat elderly, the decision was taken to try again, with the Citroën Prototype Y which was planned to replace the 2CV based Citroën Ami that dated back to 1960 in the early seventies. This was originally developed in co-operation with Fiat, built on the lessons from the Citroën G-mini and EN101 projects. It used the then new and advanced Fiat 127 platform, that used a transverse front wheel drive engine, with an end on gearbox layout that Fiat had pioneered in the 1960s. When co-operation with Fiat ended, a new Citroën designed platform was planned. After the takeover of Citroën by Peugeot in the wake of the 1974 oil crisis, the renamed “Projet VD (Voiture Diminuée)” became the Citroën Visa, incorporating the floor pan and advanced 104 engine, with its transmission (under the engine) and chassis. It was the first new model under the platform-sharing policy of PSA Peugeot Citroën that continues today. The earlier Citroën LN had just been a facelift of the Peugeot 104Z “Shortcut” with a re-engine and transmission from the Citroën Dyane. Eventually, in 1984, the original Citroën platform design from “Project Y” emerged as the Oltcit Club in Romania, using a Citroën Visa flat-twin engine and Citroën GS based gearbox, and Citroën GS flat-four engine and gearbox, and was also sold in Western Europe as the flat-four only Citroën Axel to recoup money that Citroën had invested in Romania, which the communist government could not repay. This project was problematic for Citroën due to build quality issues, only 60,184 cars were made, even though the base models were priced below the 2CV in Western Europe. The Axel was never sold in the UK. The five-door Citroën Visa and the three-door Axel look very similar, but there is no part interchangeable between these two Citroën models. The Visa entered a crowded market, with supermini competitors including the Chrysler Sunbeam, Mk1 Renault 5, Mk1 Ford Fiesta, Vauxhall Chevette, Mk1 VW Polo and Fiat 127. Though it was launched as a supermini, it was about the same length (3725mm) and height (1430mm), but slightly narrower at 1526mm than a Volkswagen Golf Mk1, which was in the next class up. It was part of a ‘between sizes’ policy that Citroën also followed with the BX. From its launch in September 1978, the front-wheel drive Visa was available in “Spécial” and “Club” models with a mapped electronic ignition 652 cc, 2-cylinder and a “Super” (later “Super E”) model (called the 11RE after 1984), with the advanced Peugeot 1,124 cc Douvrin engine / PSA X engine, a four-cylinder “Suitcase engine” — all aluminium alloy, chain driven overhead cam, with gearbox in the sump, sharing engine oil, mounted almost on its side. The 1124 cc was as economical as the Citroën 2CV-derived twin, but with much better performance. Later on it had 1,219 cc (Super X) and then 954 cc (10E after 1984) and 1,360 cc (1983 Visa GT and 14TRS after 1985) versions of the same engine. The ergonomic design of the Visa controls used a Citroën “PRN Satellite” (P=Pluie – Rain, R=Route – Road, N=Nuit – Night) which gave access on one cylindrical unit to wipers, washers, horn, indicators, headlamps and flashers, all mounted a finger’s reach away from the steering wheel. The heat and ventilation control sliders that moved in arcs, were on the other side of the steering wheel, also within closer reach than usual. In 1982 the Visa underwent a major external restyling, designed by Heuliez, to look more mainstream. It kept the original interior and “PRN Satellite” controls until 1985 when, along with the Citroën BX, it was updated with a new bulkier dashboard, instruments and switchgear that made the car feel smaller inside. Stalk switchgear like contemporary Peugeots added self-cancelling indicators, but it kept the original monospoke steering wheel. It had very soft, but well damped, long travel, fully independent suspension with coil-sprung MacPherson struts at the front and coil sprung trailing arms at the rear, that caused it to have a soft ride like the Citroën 2CV, but without such extreme roll angles. CAR magazine made the Visa diesel one of its top ten models on the market for two years running in the mid-1980s (January 1986 and 1987), for its versatility (higher models in the range had split rear seats which could be lifted-out to give an almost van-like luggage capacity); ride comfort (“like a limousine”); its ability to maintain high average speeds due to high levels of grip; and value for money. It was also particularly aerodynamically stable at high speeds for a relatively light, narrow and tall car. It would remain unperturbed by cross-winds and truck bow waves at motorway speeds. It also had at the middle ‘R’ trim level and above, (currently unfashionable), but practical, grey plastic side rubbing strips, to protect against car park damage. The very curved sides of the windscreen, enabled the use of a very large single wiper on the long narrow windscreen, without fouling the windscreen seal. The front of the revised car, was designed to aerodynamically reduce the deposition of dirt on the headlights, and to reduce the risk of stone chips to the headlights, bonnet and windscreen. The heating and ventilation system, (even though it used only a water control valve for temperature control and not air mixing), could provide cold air from fascia side vents, to the face while warming the car. The central directable fascia vents could be heated and angled, so that they could be pointed directly at the windscreen in front of the driver, to keep it clear in extreme misting conditions. There was also an additional mid level vent, to blow air between the front seats to the back of the car. The rear parcel shelf was in two hinged sections, one in the car, the other on the tailgate, to allow objects that were slightly too tall to still fit without removing the shelf. When carrying larger loads, the part of the shelf attached to the tailgate could be folded up, and fixed with the elasticated support strings, to protect the rear window and heated rear screen elements. Long time CAR magazine columnist George Bishop, actually bought one with his own money. Before the advent of the diesel model, the electronic ignition (mechanical and vacuum controlled), 1124cc high compression engined Super E, (later renamed 11RE) with high gearing, was the best seller in the range. It was better equipped than the base 1.0 litre Austin Metro and Ford Fiesta it was priced against, having height adjustable halogen headlights, intermittent rear wash-wipe and multi-speed / intermittent front wipers, heated rear window, removable split folding rear seats, as well as five doors when its main competitors in the UK only had three, (the five-door Metro was launched in 1985, the five-door mark three Fiesta launched in 1989). A five speed gearbox was optional, when the base model competitors could only be had with a four speed. Most 1980s base model hatchback economy cars did without halogen headlights and rear wash-wipes, even heated rear windows could be optional. The 1984 launched 954cc 10E model was a direct competitor on specification to the Metro and Fiesta, but significantly undercut them on price. A four-door convertible version, with the doors and window frames remaining intact, of the 11RE was also produced in the Heuliez factory from 1984. This was heavier and slower than the hatchback that it was based on. In spring 1984 the very successful diesel version was added. The Visa 17D and 17RD used the famously rugged and refined, class-leading 1,769 cc XUD diesel and transmission from the Peugeot 205. It also capably powered the Peugeot 405, which was two classes larger, and made light work of powering the lightweight Visa. It had too wide a track for the original engine compartment and wings, so the front wings were extended with large black plastic wheel arch panels. The spare wheel that in smaller petrol engine versions, was mounted on top of the flat or near horizontal engine, was bolted to the otherwise flat boot floor — compromising luggage space. In continental Europe, a basic diesel van the ‘Visa Enterprise’ was sold that used the normal Visa bodyshell with the rear doors welded shut. It mounted a spacesaver spare wheel under the bonnet, over the diesel engine. Some diesel hatchbacks there, also used this arrangement. At the Paris Salon 1984, for model year 1985, the 1.4 litre TRS was presented. This version was produced for two years (1985–1987), shared its engine with the Citroën BX14. Even though it received a favourable review by CAR magazine who felt it was a better performance/economy compromise than the 11RE, it wasn’t very successful, due to being squeezed by the Visa Diesel and the extremely competitively priced BX 14. Between 1985 and 1987 the 1.1 litre petrol and 1.7 litre diesel “Leader” special editions were marketed. In the latter half of the eighties a 55 PS catalysed version of the 1,360 cc engine was added for markets with stricter emissions standards. No automatic gearbox version was produced.
Development of the AX started in 1983, and was initially also going to form the basis of a sister model from Talbot to replace the Samba; however, the falling popularity of the Talbot brand – coupled with the huge success of the new Peugeot 205 – had led to Peugeot deciding to axe it by the time the Citroën AX was launched, and so the Talbot version never made it into production. The car was available on the left-hand drive continental markets from its launch on 2 October 1986, as a three-door hatchback with 1.0, 1.1 and 1.4-litre TU-series belt driven OHC engines. A range of five-door models was added in 1987 and a 1.4 litre diesel engine was introduced in 1988. The latter was replaced by a 1.5 litre unit in September 1994. The right-hand drive version for the UK market was launched in August 1987, initially only as a three-door hatchback, with a five-door version joining the range a year later, effectively replacing the five-door Citroën Visa, which was discontinued that year. With the final demise of the classic Citroën 2CV in 1990, the AX became the smallest model in the Citroën range. The very earliest cars had an issue with gear shifters falling off; this was rectified by the time the AX reached export markets. It was initially backed by a memorable television advertising campaign filmed in China, starring actress Janet Mas and an elderly gentleman, whose character was simply known as Mr. Wong. The car was very economical, largely because of excellent aerodynamics for its class of car (drag coefficient of 0.31) and a very light weight of 640 kg (1,411 lb) for the basic version. This was due to the extensive use of plastic panels in non-load bearing areas and varying the thicknesses of steel in the bodyshell to be the minimum needed to take required loads. Another target for the engineers was lowering friction in the engines. The AX has fully independent suspension with unusually long wheel travel. It also optionally used self-coloured plastic bumpers. This technology came from the PSA Peugeot-Citroën / Renault / French government ECO 2000 project. The production version was much more conservative than the original ‘one box’ design prototype, that was closer to the Eco 2000 styling after negative reactions in focus groups. The “one-box” city car eventually came to market with the Renault Twingo, launched in 1992. In 1989, a naturally aspirated diesel AX, using the 1360 cc all aluminium alloy TUD engine, managed a figure of 2.7 litres/100 km (100 mpg), totalling over 1,000 miles from Dover to Barcelona. This was the longest ever distance travelled on 10 gallons of fuel and earned it a place in the Guinness Book of Records as the most economical production car. Also available was a 4×4 variant, but with limited success when compared to the rival Fiat Panda 4×4. The AX 4×4 was only available with five doors and was not sold in the United Kingdom. The first performance version was the limited-run AX Sport from 1987, with a 1.3 engine and twin carburettors producing 95 bhp, wearing iconic white steel wheels (5,5″ x 13″) which resembled those on its brother, the Peugeot 205 Rallye. The AX Sport used Solex ADDHE 40 carburettors until late 1988 and was then replaced with Weber DCOM 40s, just like the 205 Rallye 1,3. The AX Sport had a shorter inlet manifold than the 205 Rallye, to save room in the smaller engine compartment. In phase 2 guise the Sport was available in other colours and with optional GT wheels and rear spoiler. Later, the AX 14GT, with a single-carburettor 85 bhp 1.4 engine also found in the Peugeot 205 XS, was introduced. From 1991, this model utilised fuel injection to coincide with the revamp of the entire range and to coincide with tougher 1992 EU emission regulations that introduced exhaust catalytic converters. Late 1991 saw the range revised, with a heavily facelifted tailgate and interior being the most notable changes. The front turn signals were now clear, and the Citroën logo was moved to the center of the bonnet. The much maligned dashboard was replaced by a more conservative design. The following year saw the introduction of the most powerful AX variant, the 100 bhp GTi. The GT was sold alongside the GTi for a few months, but was eventually phased out. New models were also introduced, such as the Forte, Spree, Elation and Dimension. In January 1995, the Citroën AX Echo was launched, with a top speed of 110 mph (180 km/h). Its closest competitor, the Peugeot 106 Ski, (that shared components with the AX), was outsold by the Echo. From June 1996, following the introduction of the Saxo, the range was slimmed-down, with production of the AX ending in December 1998, after a 12-year production
Once a common sight, the Citroen ZX, seen here in Estate guise, is quite a rarity. The Citroën GS had been a ground breaking and radical new model in the small family car market on its launch in 1970, scooping the European Car of the Year award, and was facelifted in 1979 and gained a hatchback which saw it transformed into the GSA. However, such was the success of the larger BX after its 1982 launch, that PSA decided to delay the launch of an immediate replacement for the GSA when it was finally discontinued in 1986. Development work began on a new C segment hatchback, which was originally expected to be launched as the Citroën FX at the beginning of the 1990s. Although the Rally Raid version of the ZX debuted during 1990, the ZX was officially launched on the left hand drive continental markets on 16 March 1991, with British sales beginning in May that year, initially only with petrol engines. The diesel ZX went on sale later in 1991. The sales target was about 230,000 vehicles/year (with half of that outside of France). It went on sale in New Zealand in the beginning of 1993, as a five door in 1.6 Aura or Turbodiesel trim, with the naturally aspirated diesel and Volcane GTi (1.9) models joining a few weeks later. New Zealand’s unleaded petrol was of a low octane rating, meaning that initially only uncatalyzed cars were on offer. In January 1994, the estate of the ZX debuted, and went on sale in May, shortly followed by a mid cycle facelift. The first examples of the ZX had been produced in 1990, with the three door Rally Raid model being the winner of the Paris-Dakar, which started just after Christmas. The first prototypes of the ZX had actually debuted at the Baja Aragon on 20 July 1990. Drag resistance ranged from Cds 0.30 to 0.33. The launch of the ZX marked the return of Citroën into the C sector of the car market; it had discontinued the GSA in 1986 with no immediate replacement, largely due to the success of the larger BX. However, Citroën had decided to phase out the BX between 1990 and 1993, by at first launching a smaller model, and then adding a larger model (the Xantia) to its range. The ZX’s interior space and value received praise from critics and consumers. Of particular note was the rear seat arrangement; it was mounted on a sliding platform that allowed the seat to be moved rearwards to increase rear legroom, or forwards to increase cargo space. Unfortunately, only the seat backs folded down on models so fitted. Lower specification models with fully folding and removable seats had more ultimate capacity. The ZX specification was good for its class, with most models getting power steering, electric windows, electric sunroof, a driver’s side (and sometimes passenger’s side) airbag and anti-lock braking system as either optional or standard equipment. It was competitively priced though, unlike the Mark III Volkswagen Golf, which was priced at a relative premium from its launch later in August 1991. It also reached the market a few months before the new version of the Opel/Vauxhall Astra. The familiar range of PSA powertrains drove the front wheels of a seemingly conventionally designed chassis. At the front was a standard MacPherson strut layout with anti-roll bar, while the rear used the PSA Peugeot-Citroën fully independent trailing arm/torsion bar set up that was first introduced on the estate of the Peugeot 305. However, PSA’s chassis engineers employed some unusual features, including passive rear wheel steering (by means of specially designed compliance bushes in the rear suspension), and in house developed and constructed shock absorbers. At high mileages, this is prone to wear off the axle mounting bushes, which is easily fixed. It is also prone to wear in the rear axle trailing arm bearings, which then wear the trailing arm axle tubes, requiring an expensive rebuild or a replacement axle assembly. The diesel and larger capacity petrol engines are canted as far back as possible in the engine bay, in an effort to put as much weight as possible behind the front axle line, also reducing the centre of gravity, while improving weight distribution and minimising understeer. At the time of its launch, the ZX range consisted of a collection of four very individual trim levels; the base model was the “Reflex” aimed at young people, next was the “Avantage” aimed at families, and then there was the luxury “Aura” series. The final series was the relatively sporting “Volcane” series, with lowered (and hard) suspension. The “Volcane” TD was one of the first diesel hot hatches. Over time, further models were introduced including the “Furio”, a cheaper sports model, a 16 valve engined high performance derivative and many special editions.
CRAYFORD
Crayford had hardly got into their stride with the Mk.1 convertible, only around fifty had been built on C & D registrations, when Ford told Crayford there would be an “all new” Cortina for the October 1966 Motor Show. Crayford did not want to wait up to a year to develop a Mk.2 Cortina Crayford, so they asked Ford if they could supply a car now for development work, but they were told that no pre production cars where available and, in any case, the car was top secret untill press day at the Motor Show. They did however agree to ship, in great secrecy, a Mk.2 two-door shell and all the parts in kit form. Crayford’s directors and staff then began building the car at the Westerham factory and with only two weeks to go Director Jeff Smith set about converting the car into a Crayford convertible, virtually single-handed, working night and day on the project. The result was, that when the show opened on press day, The Ford Motor Company had on their stand No.143, an entire range of six, all new, Cortina saloons and GT’s – but not far away on stand No.173, surrounded by a bevy of trendy dolly girls dressed in black and white chequered mini dresses, was a shiny metallic blue mink Crayford Cortina Mk.2 with a white pvc hood. This car has been in the long term ownership of our magazine publisher John Peters and is registered SOO 661D, it still has many unique pre production features, see our gallery on the home page. The public never realised fully how this dual launch was achieved. Crayford followed up a year later at the Earls Court Motor Show with an upmarket and expensive Mk.2 Cortina Cabriolet, this had a smaller hood that sat deeper into the car around a much smaller rear seat, suitable only for children, in effect it made the normal 5 seater convertible into a two plus two car. The Corsair cabriolet even had an inner headlining for extra comfort. Being a shorter hood it was capable of one-man-operation and the car also had a longer metal rear deck than the 5 seater convertible. Crayford soon had a full order book and made two, sometimes three a week with a total production run of over 400 convertibles and a handful of cabriolets, which like all Crayford cabriolets had to be built in Cologne, Germany under licence. Crayford further developed their Mk.2 Cortina with a tiny number of two door pillarless hardtops. These looked very much like the then current Lancia Flavia coupe with an all glass top profile and very slim roof pillars, back and front. It was rumoured to have two Cortina windscreens, one for the front and one for the back, but this is not true. It may be that only five where built on GT base cars and one was even a Lotus Cortina based. An even further development were the Crayford Mk.2 saloons, with big engine conversions that took the legendry Jeff Uren 3 litre Savage Cortina head-on. One yellow car was delivered new in both options, ie it was a 3litre V6 engined convertible. The roofless chassis wasn’t really up to the job. Most desirable are the 40-plus Lotus Cortina Crayford convertibles, mainly standard green and white, with one, a special order built at Lotus, in black – the owner did not want a resprayed car converted. Today around 126 survive on the club register.
DAIMLER
The SP250 “Dart” was quite unlike any previous Daimler model, the marque having a history of producing a series of luxurious saloon and open topped models. But by the mid 1950s, the once proud Coventry marque was in trouble, with a range of cars which were expensive and just not selling. New models were seen as a potential way of changing things around, so shortly after being appointed Managing Director of BSA’s Automotive Division in 1956, Edward Turner was asked to design a saloon car powered by a new V8 engine. The engine drawings were finalised by March 1958 but the saloon prototype, project number DN250, was not available for examination by the committee formed in 1958 to report on the feasibility of the V8 cars. The committee’s evaluation centred on the prototypes being tested at the time, which were for the SP250 sports car project. according to the feasibility study conducted by the committee, the SP250 would generate a profit of more than £700,000 based on a projection of 1,500 cars being sold in the first year of production and 3,000 cars per year for the second and third years of production. Two-thirds of the sales of the car were expected to be in the United States. The study also determined that the body should be made from fibreglass, with shorter time to the beginning of production, tooling costs of £16,000 as opposed to £120,000 for steel bodies, and lower cost to change the styling. That meant that the car was able to be launched at the 1959 New York Show, christened the Daimler Dart. Chrysler, whose Dodge division owned the trademark for the “Dart” model name, ordered Daimler to change the name under threat of legal action. With little time to come up with a new name, Daimler used the project number, SP250, as the model number. The car certainly looked quite unlike previous Daimlers, but whether that was a good thing is less clear as the SP250 won “The Ugliest Car” via vote at that 1959 show. That was not the only problem with the car, either. The original version, later called the A-spec, could reach a speed of 120 mph, but the chassis, a “14-gauge ladder frame with cruciform bracing” based on the Triumph TR3, flexed so much that doors occasionally came open, marring its reputation. The car featured the smaller of the two hemi-head V8 engines which Edward Turner had designed. 2547cc in capacity, it was a V8, iron block, OHV unit, with a single central camshaft operated valves through short pushrods with double heavy-duty valve springs, aluminium alloy hemispherical cylinder heads, and twin SU carburettors which meant it put out 140 bhp.The manual gearbox, the first of the type used by Daimler since they started using the pre-selector type across their range in the 1930s,, was reverse-engineered from the Standard gearbox used in the Triumph TR3A. Early examples of the car were not particularly reliable. Sales were slow, initially, and Daimlers problems were compounded when, not long after they had been acquired by Jaguar, an in-house rival in the form of the E Type arrived on the scene. New bosses at Jaguar did not kill off the SP250, though, but they were immediately concerned about the chassis flex. They brought out the B-spec. version with extra outriggers on the chassis and a strengthening hoop between the A-posts. There were also other detail improvements, including an adjustable steering column. Bumpers had originally been an optional extra. With the basic specification not including full bumpers, the A-spec. cars have two short, chromium-plated ‘whiskers’ on the body on either side of the front grille and two short, vertical bumpers, or “overriders” at the rear, which were not included if the rear bumper was optioned. B-spec. and the later C-spec. cars do not have the ‘whiskers’ that A-spec. have and some do not have the optional front bumper, so there is very little front protection for these cars. A planned Coupe version of the car, the DP250 never got beyond the prototype phase, and Ogle Design’s proposal for a Coupe version was not taken up, the styling for that concept ending up forming the Reliant Scimitar GT. The SP250 ended production in 1964. Just 2,654 SP250s were produced in five years of production, far short of the projection of 3,000 per year by the second year of production. Jaguar did built a prototype replacement under project number SP252 with a neater body style but decided not to proceed with production, as they figured that the cost to build the SP252 would have been greater than that of Jaguar’s popular and more expensive E-Type, thereby creating internal competition from a product with no practical profit margin and with uncertain market acceptance.
A new Series I XJ6-based Sovereign was introduced in October 1969. Once again, it was externally virtually identical to its Jaguar source car with the exception of its fluted grille and Daimler badging. Internally there were trim variations, such as the deletion of the wood door cappings fitted to the Jaguar. This Sovereign was offered with either the 2.8-litre or the 4.2-litre version of the XK engine. The Daimler Sovereign name remained in use for the Series II version of the XJ6, with a raised front bumper and shallower grille; an extended wheelbase version was introduced, which eventually became the standard model. From 1975 the 2.8-litre was replaced by a 3.4-litre version of the XK engine. A two-door coupe variant of the Sovereign Series II, utilising the shorter wheelbase platform, was offered from 1975 to 1977. It was marketed as the Daimler Sovereign 4.2 two door.
FERRARI
The most popular 365 model was 1967’s 365 GT 2+2, replacing the 330 GT 2+2. Unlike the 330 GT 2+2 car it replaced, which had a live rear axle on leaf springs, the 365 GT 2+2 had independent rear suspension. The 365 GT 2+2 was a luxurious car with leather seats, power steering and brakes, electric windows, and optional air conditioning. It quickly became the company’s top-selling model with about 800 produced in four years, 52 of which were right hand drive. When leaving the factory the 365 GT 2+2 was fitted with Pirelli Cinturato 205VR15 tyres (CN72). Production ceased in 1971.
The 400 was an evolution of the 365 GT4 2+2, which was first seen at the 1976 Paris Motor Show. It proved quite controversial, as this was the first Ferrari to be offered with an automatic gearbox, a Borg Warner 3-speed unit, though a five speed manual was also offered. The 365’s V12 engine had been stroked to a displacement of 4.8 litres and given six 38 DCOE 110-111 Webers, and now produced 340 PS. 0-60 mph took 7.1 seconds. Other changes compared to the 365 GT4 included five-stud wheels to replace the knock-off hubs (Borrani wheels weren’t offered anymore), a revised interior, the addition of a lip to the front spoiler, and double circular tail light assemblies instead of triple. A total of 502 examples were produced, 355 of which were Automatics and 147 GTs before a further upgrade in 1979 which saw the addition of fuel injection. It was replaced by the visually similar 412i in 1985. which had a larger 5 litre engine. Production of this version ran for 4 years, meaning that by the time the model was deleted from the range, this elegant Pininfarina design had been produced for 17 years, the longest run of any Ferrari bodystyle ever. It was some years before another 4 seater V12 Ferrari would join the range, the 456 GT in 1994
Top of the Ferrari range from the mid 70s for 10 years was the Berlinetta Boxer, object of many a small child’s intense desire, as I can attest from my own childhood! Production of the Berlinetta Boxer was a major step for Enzo Ferrari. He felt that a mid-engined road car would be too difficult for his buyers to handle, and it took many years for his engineers to convince him to adopt the layout. This attitude began to change as the marque lost its racing dominance in the late 1950s to mid-engined competitors. The mid-engined 6- and 8-cylinder Dino racing cars were the result, and Ferrari later allowed for the production Dino road cars to use the layout as well. The company also moved its V12 engines to the rear with its P and LM racing cars, but the Daytona was launched with its engine in front. It was not until 1970 that a mid-engined 12-cylinder road car would appear. The first “Boxer” was the 365 GT4 BB shown at the 1971 Turin Motor Show. Designed to rival the Lamborghini Miura and the newly developed Lamborghini Countach, it was finally released for sale in 1973 at the Paris Motor Show. 387 were built, of which 88 were right-hand drive (of which 58 were for the UK market), making it the rarest of all Berlinetta Boxers. The Pininfarina-designed body followed the P6 show car with popup headlights. Though it shared its numerical designation with the Daytona, the Boxer was radically different. It was a mid-engined car like the Dino, and the now flat-12 engine was mounted longitudinally rather than transversely. Although referred to as a Boxer, the 180° V12 was not a true boxer engine, but rather a flat engine. It had 380 hp, slightly more than the Daytona. The 365 GT4 BB was updated as the BB 512 in 1976, resurrecting the name of the earlier Ferrari 512 racer. The name 512 referred to the car’s 5 litre, 12 cylinder engine; a deviation from Ferrari’s established practice of naming 12-cylinder road cars (as the 365 BB) after their cylinder displacement. The engine was enlarged to 4943.04 cc, with an increased compression ratio of 9.2:1. Power was slightly down to 360 hp, while a dual plate clutch handled the added torque and eased the pedal effort. Dry sump lubrication prevented oil starvation in hard cornering. The chassis remained unaltered, but wider rear tyres (in place of the 365’s equally sized on all four corners) meant the rear track grew 63 mm. External differentiators included a new chin spoiler upfront, incorporated in the bumper. A NACA duct on the side provided cooling for the exhaust system. At the rear there were now twin tail lights and exhaust pipes each side, instead of triple units as on the 365 GT4 BB. 929 BB 512 models were produced. The Bosch K-Jetronic CIS fuel injected BB 512i introduced in 1981 was the last of the series. The fuel injected motor produced cleaner emissions and offered a better balance of performance and daily-driver temperament. External differentiators from the BB 512 besides badging include a change to metric sized wheels and the Michelin TRX metric tyre system, small white running lights in the nose, and red rear fog lamps outboard of the exhaust pipes in the rear valance. 1,007 BB 512i models were produced.
The Dino 308 GT4 was introduced at the Paris Motor Show in 1973. It only gained the “Prancing Horse” badge in May 1976, which replaced the Dino badges on the front, wheels, rear panel and the steering wheel. This has caused major confusion over the years by owners, enthusiasts and judges. During the energy crisis at that time many prospective owners were hesitant to buy such an expensive automobile not badged “Ferrari” being confused at the significance of the Dino name. The GT4 was a groundbreaking model for Ferrari in several ways: it was the first production Ferrari to feature the mid-engined V8 layout that would become the bulk of the company’s business in the succeeding decades, and was the first production Ferrari with Bertone (rather than Pininfarina) designed bodywork. Pininfarina was upset by the decision to give cross-town rival Bertone the design, considering all they had done for Ferrari. The styling featured angular lines entirely different from its curvaceous 2-seater brother, the Dino 246, and was controversial at the time. Some journalists compared it to the Bertone-designed Lancia Stratos and Lamborghini Urraco, also penned by Marcello Gandini. From the cockpit the driver sees only the road. It has perfect 360 degree visibility, no blind spots, upright and comfortable seating position, a real boot, a back seat for soft luggage, and very easy engine access. Enzo Ferrari himself took a major role in its design, even having a mock-up made where he could sit in the car to test different steering, pedals and cockpit seating positioning. The chassis was a tubular spaceframe based on the Dino 246, but was stretched for a 115.2 in wheelbase to make room for the second row of seats. The suspension was fully independent, with double wishbones, anti-roll bars, coaxial telescopic shock absorbers and coil springs on both axles. Niki Lauda helped set up the chassis. The 2927 cc V8 was mounted transversally integrally joined with the 5-speed transaxle gearbox. The engine had an aluminium alloy block and heads, 16-valves and dual overhead camshafts driven by toothed belts; it produced 255 hp in the European version and 240 hp in the American. The induction system used four Weber 40 DCNF carburettors. The GT4 was replaced by the Mondial 8 in 1980 after a production run of 2,826 308s and 840 208s.
The 308 GTB was launched at the Paris Motor Show in 1975 as a direct replacement for the Dino 246. Designed by Pininfarina with sweeping curves and aggressive lines, the 308 has gone on to become one of the most recognised Ferraris of all time. Fitted with a 2.9 litre DOHC V8 engine fed by four Webber 40DCNF Carburettors, the power output of 255bhp was sufficient to propel the 308 from 0 to 60mph in 6.5 seconds and on to a top speed of 159 mph. Tougher emissions standards in the 1980s challenged Ferrari more than many other marques. In 1980, fuel injection was adopted for the first time on the 308 GTB and GTS models, and power dropped quite noticeably fro 240 bhp to 214bhp. Two years later, at the 1982 Paris Motor Show, Ferrari launched the 308 quattrovalvole, in GTB and GTS form. The main change from the 308 GTBi/GTSi it succeeded were the 4-valves per cylinder—hence its name, which pushed output back up to 240 hp restoring some of the performance lost to the emission control equipment. The new model could be recognised by the addition of a slim louvred panel in the front lid to aid radiator exhaust air exit, power operated mirrors carrying a small enamel Ferrari badge, a redesigned radiator grille with rectangular driving lights on each side, and rectangular (in place of round) side repeaters. The interior also received some minor updates, such as a satin black three spoke steering wheel with triangular centre; cloth seat centres became available as an option to the standard full leather. Available included metallic paint, a deep front spoiler, air conditioning, wider wheels, 16-inch Speedline wheels with Pirelli P7 tyres, and a satin black roof aerofoil (standard on Japanese market models). Apart from the 32-valve cylinder heads, the V8 engine was essentially of the same design as that used in the 308 GTSi model. The gear and final drive ratios were altered to suit the revised characteristics of the four valves per cylinder engine. One other significant benefit of the QV four valve heads was the replacement of the non-QV models sodium valves which have been known to fail at the joint between the head and the stem. Bosch K-Jetronic fuel injection and Marelli Digiplex electronic ignition were carried over from the GTBi/GTSi. The car was produced in this form until the launch of the 328 models in the autumn of 1985 which had larger 3.2 litre engines and a number of styling changes. 308 GTB models are becoming increasingly sought after, with prices rising steadily and quite steeply.
Object of many a poster on a young enthusiast’s bedroom wall when the car was new was the Testarossa and there was a nice example here. A replacement for the BB512i, the final iteration of Ferrari’s first ever mid-engined road car, the Testarossa was launched at the Paris Show in October 1984. The Pininfarina-designed car was produced until 1991, with the same basic design then going through two model revisions, with the 512 TR and later F512 M which were produced from 1992 to 1996 before the model was replaced by the front-engined 550 Maranello. Almost 10,000 Testarossas, 512 TRs, and F512 Ms were produced, making it one of the most-produced Ferrari models, despite its high price and exotic design. The Testarossa followed the same concept as the BB512, but was intended to fix some of the criticisms of the earlier car, such as a cabin that got increasingly hot from the indoor plumbing that ran between the front-mounted radiator and the midships-mounted engine and a lack of luggage space. This resulted in a car that was larger, and at 1,976 millimetres (78 in) wide the Testarossa was half a foot wider than the Boxer and immediately condemned for being too wide, though these days it does not appear anything like as wide as it did when new. This resulted in an increased wheelbase that stretched about 2.5 in to 100 in which was used to accommodate luggage in a carpeted storage space under the front forward-opening lid. The increase in length created extra storage space behind the seats in the cabin. Headroom was also increased with a roofline half an inch taller than the Boxer. The design came from Pininfarina with a team of designers led by design chief Leonardo Fioravanti, the designer of many contemporary Ferraris. The design was originated by Nicosia, but the guidance of Fioravanti was equally important. Being a trained aerodynamicist, Fioravanti applied his know-how to set the aerodynamics layout of the car. This meant the large side intakes were not only a statement of style but actually functional – they drew clean air to cool the side radiators and then went upward and left the car through the ventilation holes located at the engine lid and the tail. As a result, the Testarossa did not need a rear spoiler like Lamborghini’s Countach yet produced zero lift at its rear axle. The aerodynamic drag coefficient of 0.36 was also significantly better than the Lamborghini’s 0.42. Pininfarina’s body was a departure from the curvaceous boxer—one which caused some controversy. The side strakes sometimes referred to as “cheese graters” or “egg slicers,” that spanned from the doors to the rear wings were needed for rules in several countries outlawing large openings on cars. The Testarossa had twin radiators in the back with the engine instead of a single radiator up-front. In conjunction the strakes provided cool air to the rear-mounted side radiators, thus keeping the engine from overheating. The strakes also made the Testarossa wider at the rear than in the front, thus increasing stability and handling. One last unique addition to the new design was a single high mounted rear view mirror on the driver’s side. On US based cars, the mirror was lowered to a more normal placement in 1987 and quickly joined by a passenger side rear view mirror for the driver to be able to make safe easy lane changes. Like its predecessor, the Testarossa used double wishbone front and rear suspension systems. Ferrari improved traction by adding 10-inch-wide alloy rear wheels. The Testarossa drivetrain was also an evolution of the BB 512i. Its engine used near identical displacement and compression ratio, but unlike the BB 512i had four-valve cylinder heads that were finished in red. The capacity was 4,943 cc, in a flat-12 engine mid mounted. Each cylinder had four valves, lubricated via a dry sump system, and a compression ratio of 9.20:1. These combined to provide a maximum torque of 361 lb/ft at 4500 rpm and a maximum power of 390 hp at 6300 rpm. That was enough to allow the Testarossa to accelerate from 0–60 mph in 5.2 seconds and on to 100 mph. The original Testarossa was re-engineered for 1992 and released as the 512 TR, at the Los Angeles Auto Show, effectively as a completely new car, with an improved weight distribution of 41% front: 59% rear.
A front-engined grand tourer, the 456 was produced from 1992 until 2003, as an overdue replacement for the long-defunct front-engined 412 as the company’s V12 four seater. Pietro Camardella and Lorenzo Ramaciotti at Pininfarina designed the original 456 which was available in GT and from 1996 in GTA forms. The difference in name signifies the transmission: the former has a six-speed manual and the latter has a four-speed automatic developed in partnership with FF Developments, in Livonia, MI (which was later purchased by Ricardo Engineering in the UK). This was only the fourth automatic transmission ever offered by Ferrari. The 5473 cc 65° V12 engine was derived from the Dino V6 rather than the more conventional 60° V12s used in the 412 and Daytona. It produced 442 PS with 4 valves per cylinder and Bosch Motronic M2.7 engine management. It could push the 1690 kg car and four passengers to 302 km/h (188 mph) making it the world’s fastest production four-seater. Acceleration to 100 km/h was just 5.2 seconds, with a 13.4 second quarter-mile time. At the time of its development it was the most powerful road car ever developed by Ferrari (aside from the F40). In 1996 engine was changed with Motronic M5.2 management and typed as F116C. The name 456, as was Ferrari practice, came from the fact that each cylinder displaces 456 cubic centimeters. This was the last Ferrari to use this naming convention. Despite its supercar performance, the 456 has a relatively unstressed engine, which has proven to be a very reliable unit. The chassis is a tubular steel spaceframe construction with a one-piece composite bonnet and body panels of aluminium. The body panels are welded to the chassis by using a special “sandwich filler” called feran that, when laid between, allows steel and aluminium to be welded. The Modificata 456M appeared in 1998, starting with chassis number 109589. Many changes were made to improve aerodynamics and cooling, and the interior – still featuring Connolly Leather – was freshened with new seats and other conveniences (fewer gauges on dash, and a new Becker stereo fitted in front of gear stick rather than behind as in the very shallow and special Sony head unit in the 456 GT). The 456 has a smaller grille with fog lights outside the grille, and lacked the bonnet-mounted air scoops. The undercarriage spoiler on the 456M is fixed, where the older 456 had a motorised spoiler that began its deployment above 105 km/h (65 mph). Power remained unchanged on the Modificata using Bosch Motronic M5.2 engine management at 442 PS; the cylinder firing order was changed for smoother running, and the torque remained the same for later versions of the 456 GT. The Tour de France Blue with Daytona Seats was the most desirable colour and leather combination. Approximately 3,289 of all versions were built, consisting of: 456 GT: 1,548; 456 GTA: 403; 456M GT: 688; 456M GTA: 650.
The 360 Challenge Stradale was a low production track day focused car based on the 360 Modena. From a handling and braking performance perspective was the equivalent of adding a FHP (Fiorano Handling Pack) to the 360, which was available for V12 models such as the 550, 575 or F599 but never separately for the V8’s. It was inspired by the 360 Modena Challenge racing car series so the focus was primarily on improving its track lapping performance credentials by concentrating on handling, braking and weight reduction characteristics, which are essential in pure racing cars. Ferrari engineers designed the car from the outset with a goal of 20% track day use in mind and 80% road use. With only a small 20 bhp improvement in engine power from the Modena (and boasting an improved power-to-weight ratio) the Challenge Stradale accelerates from 0 to 100 km/h (62 mph) in 4.1 seconds according to Ferrari, four tenths faster than a Modena, but bald figures do not paint the full picture. For the enthusiastic driver the differences are truly staggering; genuine systematic improvements were achieved to the setup and feel of the whole car. Throttle response from the digital throttle was ratcheted up and feedback through the steering wheel was enhanced. The responsiveness of the controls, the balance of the chassis, the braking performance and the driver feedback all contribute greatly to the overall driving experience. Thanks to CCM brakes borrowed from the Enzo, some lower weight parts and a FHP handling pack, the Challenge Stradale was able to claim an impressive 3.5 seconds improvement per lap of its Fiorano circuit compared to the Modena (the target was 2.5 seconds). In total, the Challenge Stradale is up to 110 kg (243 lb) lighter than the standard Modena if all the lightweight options are specified such as deleted radio, lexan (plexiglass) door window and Alcantara fabric (instead of the leather option). As much as 74 kilograms (207 lb) was taken off on the car by lightening the bumpers, stripping the interior of its sound deadening and carbon mirrors and making the optional Modena carbon seats standard. Resin Transfer Moulding was utilized for the bumpers and skirts, a carry over from the Challenge cars which resulted in lighter bumpers than on the Modena. The engine and transmission weight was slimmed down 11 kg (24 lb) through the use of a smaller, lighter weight sports (yet still stainless steel) exhaust back box and valved exit pipes. The Challenge Stradale also got Brembo carbon ceramic brakes as standard (which later became standard fitment on the F430) which shaved 16 kg off the curb weight and improved handling by reducing unsprung weight and completely eliminating brake fade. Cars fitted with the centre console stereo option, sub speaker box behind the seats and glass side windows re-gained approximately 30 kg over the best selected options (from a weight perspective). Challenge Stradale models are much sought after these days, and when they do come up for sale, they command a huge premium over the regular 360 Modena cars.
Also here were examples of the 458 Speciale, and the open=topped Speciale A, the latest of a long line of specially engineered cars added to complement the “regular” V8 models that started with the 100 units of the 348 Speciale produced in 1992, and followed up by the 360 Challenge Stradale, the 430 Scuderia and the 16M. In essence they are all about adding power and shedding weight. In simplistic terms, the road to the Speciale can be summed up in four words: more power, less weight. There are other, more detailed changes, too, obviously, but those are the cornerstones around which everything else is shaped. The normally aspirated, flat-plane crank V8 retains its 4497cc swept capacity but receives new cam geometry with higher valve lift, shorter inlet manifolds and different pistons providing a higher compression ratio. Internal friction is reduced, through the use of uprated materials and the upshot is 597bhp (up from 562bhp) generated at the engine’s 9000rpm limit. Torque is the same, at 398lb ft, still delivered at 6000rpm. The engine is mated to a seven-speed, dual-clutch gearbox whose upshifts, we were told at the launch of such gearboxes, are all but instant. That’s still true, but Ferrari has improved the response time to a pull on the lever and made the engine rev-match more quickly on downshifts to reduce the time that those take. The engine’s changes shave 8kg from the car’s overall weight – the exhaust is all aluminium and the intake is carbonfibre. Those 8kg form part of a claimed 90kg total saving at 1395kg now, versus 1485kg for a 458 Italia. Of this 90kg, 12kg is contributed by lighter, forged wheels, 13kg comes from bodywork and window changes (lighter glass all round and Lexan for the engine cover), and 20kg comes from the cabin. There are two flaps on the Speciale’s front valance, one either side of the prancing horse badge in its centre. Below 106mph these flaps remain closed, which diverts air towards the radiators. Above that speed, the radiators get quite enough cool air, thanks very much, so the flaps open, which reduces drag. Then, above 137mph, they move again, lowering to shift downforce to the rear of the car, in turn adjusting the balance 20 per cent rearward in order to promote high-speed cornering stability. At the rear, meanwhile, there is a new diffuser (the exhausts have been rerouted to make the most of its central section). Movable flaps in the diffuser adjust, but this time they are dependent not only on speed but also on steering angle and throttle or brake position. When lowered, the flaps stall the path of air into the diffuser and improve the Cd by 0.03. When raised, the diffuser adds downforce as it should. Bodywork changes, though, also bring some aerodynamic improvements, you’ll not be surprised to hear, with lessons applied from the LaFerrari and FXX programmes. In the front valance and under the rear diffuser, there are flaps that open at speed to reduce drag and improve downforce. Finally, there are new Michelin Pilot Sport Cup 2 tyres in a unique compound – rather a sticky one, we suspect – plus new calibration for the adaptive dampers. The carbon-ceramic brake discs also use a new compound. 499 of them were built and they sold out very quickly.
The Ferrari F12 Berlinetta (Type F152) is a front mid-engine, rear-wheel-drive grand tourer which debuted at the 2012 Geneva Motor Show, and replaces the 599 grand tourer. The naturally aspirated 6.3 litre Ferrari V12 engine used in the F12 Berlinetta has won the 2013 International Engine of the Year Award in the Best Performance category and Best Engine above 4.0 litres. The F12 Berlinetta was named “The Supercar of the Year 2012” by car magazine Top Gear. The F12berlinetta was replaced by the 812 Superfast in 2017
Also here was the Ferrari 812 Superfast. Known internally as the Type F152M, this is a front mid-engine, rear-wheel-drive grand tourer that made its debut at the 2017 Geneva Motor Show. The 812 Superfast is the successor to the F12berlinetta. The 812 Superfast has a 6,496 cc F140 GA V12, an enlarged version of the 6.3-litre engine used in the F12berlinetta. It generates a power output of 800 PS (789 bhp) at 8,500 rpm and 718 Nm (530 lb/ft) of torque at 7,000 rpm. According to Ferrari in 2018, the 812 Superfast’s engine was, at the time, the most powerful naturally aspirated production car engine ever made. It does not feature turbocharging or hybrid technology.
Latest in the line of special versions of Ferrari’s V8 models, the 488 Pista was launched at the 2018 Geneva Show but it has taken until now before UK customers have got their hands on the cars they ordered all that time ago. Compared to the regular Ferrari 488 GTB, the 488 Pista is 90 kg lighter at 1280kg dry, features a 20 percent improved aerodynamic efficiency and makes 49hp more from its twin-turbo V8 that now produces 711hp (720PS). These are some stunning specs to be honest, especially when you consider just how good the car it’s based upon is. Ferrari claims a 0-62mph (100km/h) in 2.85 seconds, 0-124mph (200km/h) in 7.6 seconds and a top speed of over 211mph (340km/h). Ferrari has opted to call the new special series sports car “Pista”, which is Italian for ‘track’, joining a celebrated lineup of hardcore models that includes the Challenge Stradale, the 430 Scuderia and the 458 Speciale. The whole bodywork has been reshaped, with the designers using innovations such as the S-Duct at the front and the unique edges of the front bumper and side sills that guide the air flow in -apparently- all the right places. The 3.9-litre V8 engine is essentially the same unit found in the Challenge race car and features specific valves and springs, a new cam profile, strengthened pistons and cylinder heads shorter inlet ducts, radiators with an inverted rake, a larger intercooler and more. It’s also 18kg lighter than the standard engine. For the first time ever in a Ferrari, the new 488 Pista can be fitted with a set of optional single-piece carbon-fibre wheels that are around 40 percent lighter than the GTB’s standard rims. A new generation of Ferrari’s Side Slip Control System is also present (SSC 6.0) because who doesn’t like to slide around a Ferrari with some help from the gods of Maranello. The 488 Pista is not a limited production model and was offered alongside the regular 488 GTB until it went out of production.
The F8 Tributo was a surprise newcomer at the 2019 Geneva Show, and the successor to the 488 GTB and the most powerful mid-engined V8 berlinetta in the history of the brand. The new Ferrari F8 Tributo is powered by the company’s twin-turbo 3.9-litre V8 engine, here tuned to produce 710 bhp and 568lb/ft (770Nm) of peak torque. The numbers are the exact same with the special 488 Pista. Ferrari claims that the new F8 Tributo is capable of a 0-62mph (100km/h) in 2.9 seconds, with 0-124mph (200km/h) in 7.8 seconds before hitting a top speed of 211mph (340km/h). It’s not a secret that the new F8 Tributo is the latest evolution of the aluminium 458 platform, with Ferrari saying that their latest mid-engine berlinetta is “a bridge to a new design language”. The new supercar blends in new design elements with aero features such as an S-Duct at the front, which on its own increases downforce by 15 percent compared to a standard 488 GTB. The rear end of Ferrari’s McLaren 720S rival marks the return of the classic Ferrari twin light clusters, while the engine cover is now made out of Lexan and features louvres to extract hot air and remind us of the iconic F40. The chassis of the new F8 Tributo employs Ferrari’s latest version of the Side Slip Angle Control traction management system, which aims to make sliding the car around manageable even for the less experienced drivers. The changes over the 488 GTB are less prominent once you look inside the cabin; the layout of the redesigned dashboard remains the same as before, only now there are completely new door panels and a centre console, as well as a new steering wheel design. The passenger gets a 7-inch touchscreen display. First deliveries of the new Ferrari F8 Tributo started earlier in 2020 .
Final Ferrari here was an example of the recently available 296 GTB.
FIAT
Known as project 110, the brief for the Nuova 500 was to create a micro-car that would not only carry on the tradition of the earlier Topolino, but which would also take sales away from the ever popular Lambretta and Vespa scooters of the day. It clearly needed to be smaller than the 600 which had been released with a conventional 4 cylinder engine. Not an easy task, but development started in 1953 and by August 1954, two designs were ready to be shown to Fiat management. They selected one, and serious development began. At first the car was referred to as the 400, as it was going to have a 400cc engine, but it was soon realised that this was just too small, so a larger 500cc air-cooled engine was developed. It was signed off in January 1956, with production starting in March 1957 in advance of a June launch. Fiat’s marketing department got busy, with hundreds of the new car taking to the streets of Turin, each with a pretty girl standing through the open sunroof that was a feature of all the early cars. The press loved it. 50 units were shipped to Britain, where the car made its debut at Brands Hatch, and again the reception was enthusiastic. But the orders just did not come in. Fiat went for a hasty rethink, relaunching the car at the Turin Show later that year. power was increased from 13 to 15 bhp, and the poverty spec was lessened a little, with headlight bezels, brightwork on the side and chrrome hubcaps, a Nuova500 badge on the engine cover, winding side windows (the launch cars just had opening quarterlights) and the option of a heater fan. It was enough to get sales moving. The original car was still offered, at a lower price, called the Economy. In the first year of production, 28,452 Fiat 500s were made. Over the next 19 years, the car changed little in overall appearance, but there were a number of updates with more power and equipment added. A 500 Sport was launched in August 1958, with a more powerful version of the 499cc engine. It lost the soft top, having a ridged steel roof, to increase strength of the body. It was only available in grey with a red side flash. The first major changes came in 1960 with the 500D. This looks very similar to the Nuova, but with two key differences. One is the engine size: the D features an uprated 499 cc engine producing 17 bhp as standard, an engine which would be used right through until the end of the L in 1973; and the other is the roof: the standard D roof does not fold back as far as the roof on the Nuova, though it was also available as the “Transformable” with the same roof as the Nuova. The D still featured “suicide doors”. There were larger rear light clusters, more space in the front boot thanks to a redesign of the fuel tank and new indicators under the headlights. A year later, Fiat added a light on the rear-view mirrors and a windscreen washer, but the car still lacked a fuel gauge. Sales increased from 20,900 in 1960 to 87.000 in 1961, 132,000 in 1962 and by 1964, the last year of production, they hit 194,000 units. The D was replaced in 1965 by the 500F, which finally moved the door hinges from back to the front, owing to changes in Italian safety laws. There was a deeper windscreen and thinner door pillars, which increased the height of the car by 10mm, improving visibility for the driver. The 500F ran through to 1975, from 1968 alongside the more luxurious 500L which was added to the range in 1968. The L is easy to tell apart, with its bumper overriders. The final updates created the 500R, which incorporated many changes from the 126 under the skin of the classic shape, and in this form production continued alongside the newer 126 until 1976.
Following the success of the 500 and 600 models, Fiat introduced a slightly larger and more expensive variant, the 850 in 1964. The regular 2 door saloon was soon joined in the range by other models and they are the ones you see more often these days, not that they are exactly common now. The 850 Coupe, early and later versions of which were to be seen here was seen for the first time at the 1965 Geneva Show. As was generally the case at the time, the body looked completely different from the saloon on which it was based, but underneath it shared the same mechanicals including the the original 843 cc engine producing 47 hp, which gave it a maximum speed of 84 mph. A Spider model was launched at the same time. In order to separate the sportier variants, equipment levels were raised, with both models getting sport seats, a sport steering wheel and round speedometer; The Spider even received a completely rearranged instrument panel. The front drum brakes were replaced with disc brakes, although drum brakes remained on the rear wheels. In 1968, Fiat revised both the Spider and Coupé and gave them a stronger engine with 903 cc and 52 hp. They were called Sport Spider and Sport Coupé. The Sport Spider body stayed essentially the same, but with a restyled front, whereas the Coupe gained twin headlights at the front and a revised tail with a slight lip on the trailing edge of the engine cover. Despite its popularity, the Coupe was the first model to cease production, being deleted in 1971.
The 126 arrived in the autumn of 1972 and was produced alongside the 500, which stayed in production until 1976. The 126 used much of the same mechanical underpinnings and layout as its Fiat 500 rear-engined predecessor with which it shared its wheelbase, but featured an all new bodyshell resembling a scaled-down Fiat 127, also enhancing safety. Engine capacity was increased from 594 cc to 652 cc at the end of 1977 when the cylinder bore was increased from 73.5 to 77 mm. Claimed power output was unchanged at 23 PS, but torque was increased from 39 N·m (29 lb/ft) to 43 Nm (32 lb/ft). A slightly less basic DeVille version arrived at the same time, identified by its large black plastic bumpers and side rubbing strips. A subsequent increase in engine size to 704 cc occurred with the introduction of the 126 Bis in 1987. This had 26 PS, and a water cooled engine, as well as a rear hatchback. Initially the car was produced in Italy in the plants of Cassino and Termini Imerese, with 1,352,912 of the cars made in Italy, but from 1979, production was concentrated solely in Poland, where the car had been manufactured by FSM since 1973 as the Polski Fiat 126p. Even after the introduction of the 126 Bis the original model continued to be produced for the Polish market. The car was also produced under licence by Zastava in Yugoslavia. Western European sales ceased in 1991, ready for the launch of the Cinquecento, but the car continued to be made for the Polish market. In 1994, the 126p received another facelift, and some parts from the Fiat Cinquecento, this version was named 126 EL. The 126 ELX introduced a catalytic converter. Despite clever marketing, the 126 never achieved the popularity of the 500, with the total number produced being: 1,352,912 in Italy, 3,318,674 in Poland, 2,069 in Austria, and an unknown number in Yugoslavia.
Introduced at the 1980 Geneva Show, the Panda (Tipo 141) was designed as a cheap, easy to use and maintain, no-frills utility vehicle, positioned in Fiat’s range between the 126 and 127. It can be seen as a then-modern approach to the same niche which the Citroën 2CV and Renault 4 were designed to serve. The first Panda was designed by Giorgetto Giugiaro of Italdesign. In an interview to Turinese newspaper La Stampa published in February 1980, Giugiaro likened the Panda to a pair of jeans, because of its practicality and simplicity, and he has often said that this is his favourite of all the cars he designed. Mechanically the first Pandas borrowed heavily from the Fiat parts bin. Engines and transmissions came from the Fiat 127 and, in certain territories, the air-cooled 652 cc two-cylinder powerplant from the Fiat 126. The plan for a mechanically simple car was also evident in the rear suspension, which used a solid axle suspended on leaf springs. Later versions of the car added various mechanical improvements but this spirit of robust simplicity was adhered to throughout the life of the model. Many design features reflect the Panda’s utilitarian practicality. Examples include a seven-position adjustable rear seat which could be folded flat to make an improvised bed, or folded into a V shape to support awkward loads, or easily and quickly removed altogether to increase the overall load space. The first Pandas also featured removable, washable seat covers, door trims and dashboard cover, and all the glass panels were flat making them cheap to produce, easy to replace and interchangeable between left and right door. Much like its earlier French counterparts the Panda could be specified with a two piece roll forward canvas roof. At launch two models were available: the Panda 30, powered by a longitudinally-mounted air cooled 652 cc straight-two-cylinder engine derived from the 126, or the Panda 45, with a transversely-mounted water cooled 903 cc four-cylinder from the 127. As a consequence of the different drivetrain layout the 45 had the radiator grille to the right side, the 30 to the left. In September 1982 Fiat added another engine to the line-up: the Panda 34 used an 843 cc water-cooled unit, derived from that in the 850. It was originally reserved for export to France, Belgium, Germany, and the Netherlands. Fiat launched the Panda 45 Super at the Paris Motor Show later in 1982, with previous specification models continuing as the “Comfort” trim. The Super offered numerous improvements, most significant being the availability of a five-speed gearbox as well as improved trim. There were minor styling changes to the Super including the introduction of Fiat’s new black plastic “corporate” grille with five diagonal silver bars. The earlier grille design (metal with slots on the left for ventilation) continued on the Comfort models until the next major revision of the line-up. A 30 Super was added to the range in February 1983, offering the Super trim combined with the smaller engine. The Panda 4×4 was launched in June 1983, it was powered by a 965 cc engine with 48 bhp derived from that in the Autobianchi A112. Known simply as the Panda 4×4, this model was the first small, transverse-engined production car to have a 4WD system. The system itself was manually selectable, with an ultra-low first gear. Under normal (on-road) conditions starting was from second, with the fifth gear having the same ratio as fourth in the normal Panda. Austrian company Steyr-Puch supplied the entire drivetrain (clutch, gearbox, power take-off, three-piece propshaft, rear live axle including differential and brakes) to the plant at Termini Imerese where it was fitted to the reinforced bodyshell. Minor revisions in November 1984 saw the range renamed “L”, “CL”, and “S”. Specifications and detailing were modified across the range including the adoption of the Fiat corporate grille across all versions. Mechanically, however, the cars remained largely unchanged. In January 1986, the Panda received a substantial overhaul and a series of significant mechanical improvements. Most of these changes resulted in the majority of parts being changed and redesigned, making many of the pre-facelift and post-facelift Panda parts incompatible between models. The 652 cc air-cooled 2-cyl engine was replaced by a 769 cc (34 bhp) water-cooled 4-cyl unit, and the 903/965cc by a 999cc (45 bhp, 50 bhp in the 4×4) unit. Both new engines were from Fiat’s new FIRE family of 4-cylinder water-cooled powerplants with a single overhead camshaft. The rear suspension was also upgraded, the solid axle with leaf springs being replaced by a more modern dependent suspension system using a non-straight rigid axle (known as the ‘Omega’ axle) with a central mounting and coil springs (first seen on the Lancia Y10, which used the same platform). The 4×4 retained the old leaf sprung live axle set-up, presumably to avoid having to redesign the entire 4WD system. Improvements were also made to the interior and the structure. The body was strengthened and fully galvanised on later models, virtually eliminating the earlier car’s strong tendency to rust. The rear panel design was also revamped to include flared arches that mirrored those of the front wings, replacing the un-sculpted style seen on earlier models, and the doors received a slight redesign with the earlier car’s quarter light windows being removed and replaced by a full width roll-down window. The bottom seam of the facelifted model’s doors unfortunately retained much the earlier car’s susceptibility to rust. In ascending order of specification and cost, the revised range was as follows: 750L, 750CL, 750S, 1000CL, 1000S, 4×4. April 1986 saw the introduction of a 1,301 cc diesel engine with 37 bhp (a detuned 127/Uno unit). Fitted as standard with a five-speed gearbox it was only available in the basic “L” trim. A van variant of the Panda was also introduced, with both petrol and diesel engines. The van was basically a standard Panda without rear seats. The rear windows were replaced with plastic blanking panels and a small (always black) steel extension with side hinged doors was fitted instead of the usual hatchback tailgate. Neither the van nor the diesel were available in right hand drive markets. In 1987, a new entry-level model badged “Panda Young” was added to the range. This was essentially an L spec car with a 769 cc OHV engine based on the old 903 cc push-rod FIAT 100 engine and producing the same 34 bhp as the more sophisticated 769 cc FIRE unit. The Panda 4×4 Sisley limited edition was also released; this was based on the standard 4×4, but came with metallic paint, inclinometer, white painted wheels, roof rack, headlamp washers, bonnet scoop, “Sisley” badging and trim. Although originally limited to the production of only 500, in 1989 the Sisley model became a permanent model due to its popularity. In 1991, a facelift was introduced. This entailed a new front grille with a smaller five-bar corporate badge, plus revisions to trim and specifications across the range. New arrivals included the ‘Selecta’, which had a continuously variable transmission with an electromagnetic clutch. This advanced transmission was available either with the normal 999 cc FIRE engine (revised with single-point fuel injection and a catalytic converter) or an all new 1108 cc FIRE unit, fitted with electronic fuel injection and a three-way catalytic converter and producing 51 bhp. The new CLX trim also featured a five-speed gearbox as standard. The range now comprised the 750 Young (769 cc ohv), 750 and 750 CLX (both 769 cc FIRE sohc), 900 Dance (903 cc ohv), 1000 Shopping, CLX, CL Selecta and S (all with 999 cc sohc, available with or without SPI and catalytic converter depending on the market), 1100 CL Selecta (1108 cc sohc with SPI and cat) and the 4×4 Trekking (999 cc, again available with and without a cat depending on the market). The Elettra concluded the range. In 1992, the 1108 cc engine, complete with SPI and catalytic converter, replaced the 999 cc unit in the 4×4 (with 50 bhp) and also in 1992 an 899 cc (with injection and catalyst) became available, in the ‘Cafe’ special edition. This was a reduced capacity 903 cc unit, designed to meet tax requirements in some markets. From 1996 onwards, the Panda was gradually phased out across Europe, due to tightening emissions and safety legislation. The car remained in production in Italy until May 2003. Its total production run of 23 years makes the Panda one of Europe’s longest-lived small cars. Over 4,5 million were built and the car is still popular in Italy.
Developed as the Tipo 175, the Coupe was introduced at the Brussels Motor Show in 1993. It is perhaps best remembered for its distinctive, angular design, with unique scalloped side panels. The body was designed by Chris Bangle from Centro Stile Fiat, while the interior was designed by Pininfarina, and the car media headlines in auto magazines during 1992 after several spy shots were taken revealing the car on test. On its launch in 1993, the Coupé was available with a four-cylinder, 2.0 litre 16V engine, in both turbo (190 PS) and normally aspirated (139 PS) versions. Both engines were later versions of Fiat’s twin-cam design and inherited from the Lancia Delta Integrale. 1996 brought in a 1.8 lire 131 PS 16V engine (not available in the UK), along with a 2.0-litre 5-cylinder 20V (147 PS), and a 5-cylinder 2.0-litre 20V turbo (220 PS). The turbocharged 16 and 20 valve versions were equipped with a very efficient Viscodrive limited-slip differential to counter the understeer that plagues most powerful front wheel drive cars. Additionally, the coupe featured independent suspension all round: at the front MacPherson struts and lower wishbones anchored to an auxiliary crossbeam, offset coil springs and anti-roll bar; at the rear, trailing arms mounted on an auxiliary subframe, coil springs and an anti-roll bar. The car was well received at launch, and the 5 cylinder engines just made it even better, with sales increasing slightly for a couple of years, but then they started to drop off, as Coupe models in general fell from favour. 1998 saw the release of the Limited Edition which featured red Brembo brake calipers at the front and standard red calipers at the back, a body kit, push-button start, six-speed gearbox, strut brace to make the chassis more rigid and Recaro seats with red leather inserts which offered better support than the standard 20VT seats. The LE was produced in Black, Red, Vinci Grey (metallic), Crono Grey and Steel Grey (metallic). The bodywork of the LE also benefited from titanium coloured insert around the light bezels and the wing mirrors. Each Limited Edition (‘LE’) Coupé was manufactured with a badge located by the rear-view mirror which contained that car’s unique number (it is rumored that Michael Schumacher was the original owner of LE No. 0001, however when the question was raised to him personally he confirmed he had owned one, but a red one, while LE No. 0001 is a Crono Grey one). Originally a spokesman from Fiat stated only approximately 300 Limited Editions would be built. The final number was much higher, perhaps as many as 1400. This angered many of the owners of the original 300 cars and almost certainly impacted residual values. The original number however was quoted by a Fiat UK spokesman, so probably that number only applied to the UK market. The numbered plaque on every Coupe features enough space for 4 numbers. In 1998 the 2.0-litre 5-cylinder 20V got a Variable Inlet System which brought the power to 154 PS. The 2.0-litre 5-cylinder 20V Turbo received a 6-speed gearbox and a large, satin gloss push starter button. In addition, the sills of the Turbo version were colour matched with the body paintwork. Fiat also released the 2.0 litre 5 cylinder Turbo ‘Plus’. This model came with an option kit that made it virtually identical to the LE, except for minor interior design changes and without the unique identification badge of the LE. In 2000 Fiat released another special version of the Fiat Coupé. Featuring the 1.8-litre engine, it was only available throughout mainland Europe and marketed as an elegant and affordable edition. Fiat also made changes throughout the rest of the range: new seats, side skirts and wheels for the 2.0-litre 20V model, ‘Plus’ edition wheels on turbo models and Fiat manufactured seats on the ‘Plus’ that were virtually identical to the original Plus Recaro seats with the addition of extra airbags. The 2.0-litre 20V Turbo model is capable of accelerating from 0–100 km/h (0 to 62 mph) in 6.5 seconds and 6.3 seconds for the 20v Turbo Plus, with a top speed of 240 km/h (149 mph) or 250 km/h (155 mph) with later 6-speed gearbox. When production finally stopped in September 2000, a total number of 72,762 units had been produced. There are still well over 1000 units in the UK, so this is a Fiat which has proved durable as well as good to drive, and to look at.
FORD
The Ford Model A was the Ford Motor Company’s second market success after its predecessor, the Model T. First produced on October 20, 1927, but not introduced until December 2, it replaced the venerable Model T, which had been produced for 18 years. This new Model A (a previous model had used the name in 1903–04) was designated a 1928 model and was available in four standard colours. By February 4, 1929, one million Model As had been sold, and by July 24, two million. The range of body styles ran from the Tudor at US$500 (in grey, green, or black) to the Town Car with a dual cowl at US$1200. In March 1930, Model A sales hit three million, and there were nine body styles available. Prices for the Model A ranged from US$385 for a roadster to US$1400 for the top-of-the-line Town Car. The engine was a water-cooled L-head inline four with a displacement of 3.3 litre. This engine provided 40 bhp. Top speed was around 65 mph (105 km/h). The Model A had a 103.5 in (2,630 mm) wheelbase with a final drive ratio of 3.77:1. The transmission was a conventional unsynchronized three-speed sliding gear manual with a single speed reverse. The Model A had four-wheel mechanical drum brakes. The 1930 and 1931 models were available with stainless steel radiator cowling and headlamp housings. The Model A came in a wide variety of styles including a Coupe (Standard and Deluxe), Business Coupe, Sport Coupe, Roadster Coupe (Standard and Deluxe), Convertible Cabriolet, Convertible Sedan, Phaeton (Standard and Deluxe), Tudor Sedan (Standard and Deluxe), Town Car, Fordor (five-window standard, three-window deluxe), Victoria, Town Sedan, Station Wagon, Taxicab, Truck, and Commercial. The very rare Special Coupe started production around March 1928 and ended mid-1929. The Model A was the first Ford to use the standard set of driver controls with conventional clutch and brake pedals, throttle, and gearshift. Previous Fords used controls that had become uncommon to drivers of other makes. The Model A’s fuel tank was situated in the cowl, between the engine compartment’s fire wall and the dash panel. It had a visual fuel gauge, and the fuel flowed to the carburettor by gravity. A rear-view mirror was optional. In cooler climates, owners could purchase an aftermarket cast iron unit to place over the exhaust manifold to provide heat to the cab. A small door provided adjustment of the amount of hot air entering the cab. The Model A was the first car to have safety glass in the windshield. Model A production ended in March 1932, after 4,858,644 had been made in all body styles. Its successor was the Model B, which featured an updated inline four-cylinder engine, as well as the Model 18, which introduced Ford’s new flathead (sidevalve) V8 engine.
The Mark I Ford Escort was introduced in the UK at the end of 1967, making its show debut at Brussels Motor Show in January 1968, replacing the successful, long-running Anglia. The car was presented in continental Europe as a product of Ford’s European operation. Escort production commenced at the Halewood plant in England during the closing months of 1967, and for left hand drive markets during September 1968 at the Ford plant in Genk. Initially the continental Escorts differed slightly from the UK built ones under the skin. The front suspension and steering gear were differently configured and the brakes were fitted with dual hydraulic circuits; also the wheels fitted on the Genk-built Escorts had wider rims. At the beginning of 1970, continental European production transferred to a new plant on the edge of Saarlouis, West Germany. The Escort was a commercial success in several parts of western Europe, but nowhere more than in the UK, where the national best seller of the 1960s, BMC’s Austin/Morris 1100 was beginning to show its age while Ford’s own Cortina had grown, both in dimensions and in price, beyond the market niche at which it had originally been pitched. In June 1974, six years into the car’s UK introduction, Ford announced the completion of the two millionth Ford Escort, a milestone hitherto unmatched by any Ford model outside the US. It was also stated that 60% of the two million Escorts had been built in Britain. In West Germany cars were built at a slower rate of around 150,000 cars per year, slumping to 78,604 in 1974 which was the last year for the Escort Mark I. Many of the German built Escorts were exported, notably to Benelux and Italy; from the West German domestic market perspective the car was cramped and uncomfortable when compared with the well-established and comparably priced Opel Kadett, and it was technically primitive when set against the successful imported Fiat 128 and Renault 12. Subsequent generations of the Escort made up some of the ground foregone by the original model, but in Europe’s largest auto-market the Escort sales volumes always came in well behind those of the General Motors Kadett and its Astra successor. The Escort had conventional rear-wheel drive and a four-speed manual gearbox, or three-speed automatic transmission. The suspension consisted of MacPherson strut front suspension and a simple live axle mounted on leaf springs. The Escort was the first small Ford to use rack-and-pinion steering. The Mark I featured contemporary styling cues in tune with its time: a subtle Detroit-inspired “Coke bottle” waistline and the “dogbone” shaped front grille – arguably the car’s main stylistic feature. Similar Coke bottle styling featured in the larger Cortina Mark III (also built in West Germany as the Taunus) launched in 1970. Initially, the Escort was sold as a two-door saloon (with circular front headlights and rubber flooring on the “De Luxe” model). The “Super” model featured rectangular headlights, carpets, a cigar lighter and a water temperature gauge. A two-door estate was introduced at the end of March 1968 which, with the back seat folded down, provided a 40% increase in maximum load space over the old Anglia 105E estate, according to the manufacturer. The estate featured the same engine options as the saloon, but it also included a larger, 7 1⁄2-inch-diameter clutch, stiffer rear springs and in most configurations slightly larger brake drums or discs than the saloon. A panel van appeared in April 1968 and the 4-door saloon (a bodystyle the Anglia was never available in for UK market) in 1969. Underneath the bonnet was the Kent Crossflow engine in 1.1 and 1.3 litre versions. A 940 cc engine was also available in some export markets such as Italy and France. This tiny engine remained popular in Italy, where it was carried over for the Escort Mark II, but in France it was discontinued during 1972. There was a 1300GT performance version, with a tuned 1.3 L Crossflow (OHV) engine with a Weber carburettor and uprated suspension. This version featured additional instrumentation with a tachometer, battery charge indicator, and oil pressure gauge. The same tuned 1.3 L engine was also used in a variation sold as the Escort Sport, that used the flared front wings from the AVO range of cars, but featured trim from the more basic models. Later, an “executive” version of the Escort was produced known as the “1300E”. This featured the same 13″ road wheels and flared wings of the Sport, but was trimmed in an upmarket, for that time, fashion with wood trim on the dashboard and door cappings. A higher performance version for rallies and racing was available, the Escort Twin Cam, built for Group 2 international rallying. It had an engine with a Lotus-made eight-valve twin camshaft head fitted to the 1.5 L non-crossflow block, which had a bigger bore than usual to give a capacity of 1,557 cc. This engine had originally been developed for the Lotus Elan. Production of the Twin Cam, which was originally produced at Halewood, was phased out as the Cosworth-engined RS1600 (RS denoting Rallye Sport) production began. The most famous edition of the Twin Cam was raced on behalf of Ford by Alan Mann Racing in the British Saloon Car Championship in 1968 and 1969, sporting a full Formula 2 Ford FVC 16-valve engine producing over 200 hp. The Escort, driven by Australian driver Frank Gardner went on to comfortably win the 1968 championship. The Mark I Escorts became successful as a rally car, and they eventually went on to become one of the most successful rally cars of all time. The Ford works team was practically unbeatable in the late 1960s / early 1970s, and arguably the Escort’s greatest victory was in the 1970 London to Mexico World Cup Rally, co-driven by Finnish legend Hannu Mikkola and Swedish co-driver Gunnar Palm. This gave rise to the Escort Mexico (1598cc “crossflow”-engined) special edition road versions in honour of the rally car. Introduced in November 1970, 10,352 Mexico Mark I’s were built. In addition to the Mexico, the RS1600 was developed with 1,601 cc Cosworth BDA which used a Crossflow block with a 16-valve Cosworth cylinder head, named for “Belt Drive A Series”. Both the Mexico and RS1600 were built at Ford’s Advanced Vehicle Operations (AVO) facility located at the Aveley Plant in South Essex. As well as higher performance engines and sports suspension, these models featured strengthened bodyshells utilising seam welding in places of spot welding, making them more suitable for competition. After updating the factory team cars with a larger 1701 cc Cosworth BDB engine in 1972 and then with fuel injected BDC, Ford also produced an RS2000 model as an alternative to the somewhat temperamental RS1600, featuring a 2.0 litre Pinto (OHC) engine. This also clocked up some rally and racing victories; and pre-empted the hot hatch market as a desirable but affordable performance road car. Like the Mexico and RS1600, this car was produced at the Aveley plant.
Codenamed “Erika”, the third generation Escort was launched in September 1980. The car, Ford Europe’s second front-wheel drive model, was originally meant to be called the “Ford Erika”, but ended up retaining the Escort name. Some say this was due to British consumers’ reluctance to let go of the “Escort” badge (as the first two generations of Escort had been among Britain’s most popular cars, with the Mk II being Britain’s best selling car in 1976), and some say that the Germans were concerned with the song Erika, which was a famous battlemarch of the German armed forces during World War II. The North American Escort introduced at this time was a distantly related derivative. Sales in the United Kingdom increased, and by 1982 it had overtaken the ageing Cortina as the nation’s best-selling car, beginning an eight-year run as Britain’s best selling car. Unlike the Mark II, which had essentially been a reskin of the original 1968 platform, the Mark III was a completely new design, and was conceived as a hi-tech, high-efficiency vehicle which would compete with the Volkswagen Golf and Honda Civic – considered at the time the class benchmarks. The Mark III was therefore a major engineering and stylistic departure from the two previous models; the biggest changes being the adoption of front-wheel drive, the new hatchback body and the all-new CVH overhead camshaft engines. The suspension was fully independent all around, departing from the archaic leaf spring arrangement found on its predecessors and the bodyshell was on average, 75kg lighter than that of the Mk II, yet Ford claimed was stiffer than the outgoing car. Ford however, was conscious that loyal customers of the previous generation Escorts may be deterred by the Mk III’s advanced design, and hence the car was marketed in the United Kingdom with the strapline “Simple is Efficient”. It was Ford Europe’s second front-wheel drive model launch, the first being the smaller Fiesta in 1976. The car used Ford’s contemporary design language of the period with the black louvred radiator grille and straked rear lamp clusters, as well as introducing the aerodynamic “bustle-back” bootlid stump (trademarked by Ford as Aeroback) which would be further developed in the forthcoming Sierra and Scorpio; the stump was proven to reduce the car’s aerodynamic drag co-efficient significantly, which was a class-leading 0.38 at launch. New were the overhead camshaft CVH engines in 1.3 L and 1.6 L formats, with the older Ford Kent-based “Valencia” engine from the Fiesta powering the 1.1 L derivative, although there was a short-lived 1.1 version of the CVH engine sold in certain markets before it was discontinued in 1982. The Escort Mark III was voted European Car of the Year in 1981, fighting off stiff competition from Italy’s Fiat Panda and British Leyland’s Austin Metro. From launch, the car was available in base (Popular), L, GL, Ghia and XR3 trim. As was common for Ford during this period, there were different dashboard mouldings for “high” and “low” series trim levels. GL and above models had a slush-moulded dashboard with ‘soft feel’ covering, and faux chrome embellishment. Base and L specification models had a ‘hard feel’ injection moulded dashboard with fewer holes for switches – the base dashboard was a sub-variation of this which omitted the centre air vents, glovebox, side demister vents and speaker grille and only a two-position blower fan switch. These lead-in models were extremely basic even for their time; in addition to the aforementioned dashboard, they came with just partial door cards with no armrests, vinyl seats (cloth was an optional extra), and no rear parcel tray or push button tailgate release. Consequently, these models sold very poorly and most buyers opted for at least the L specification. From mid-1982, a five-speed manual gearbox was introduced across the range. This was now standard on the 1.6 L versions and could be specified as an option on most 1.3 L engines. A selection of features was available, either as standard fitment or optional extras depending on model, including a tilt-and-slide sunroof, central locking, and electric windows. All models except for base and L were fitted with a check-light system for low fuel, low oil, low coolant, low screenwash, and worn out brake pads. Power steering was not available on European Escorts although it was available on the US Escort. The 1983 model year saw the Ford ATX three-speed automatic transmission (developed primarily for the US version) becoming available on the 1.6 L engine, and the base models now had cloth seat trim as standard. The Escort estate was initially only available with three doors, but a five-door version was introduced in 1983. In that year, a saloon version of the Escort, the Orion, was launched. It used the same mechanicals as the hatchback, but had a more upmarket image and was not available with the smaller 1.1 L engine. It was also directed at buyers of the earlier Cortina, which had ceased production in 1982, with its Sierra successor not available as a saloon at the time. However, the car attracted criticism from the motoring press at launch due to its suspension, with positive camber on the front wheels and negative camber at the rear, giving rise to the Mark III’s infamous “knock-kneed” stance. The Mark III soon had a reputation for a harsh, unforgiving ride. In September 1983 the revised suspension mounts from the Escort-based Orion and the larger Sierra steering rack were introduced as running changes for the 1984 model year which also coincided with other minor upgrades across the range, which included revised trim and steering wheels, new style badging and improved sound systems across the range, whilst the austere base models were finally given the “L” specification dashboard and improved seat trim. Another engine, introduced in August 1983, was the diesel engine. Developed in Dagenham, it was remarkably economical for its time, and still is to this day, managing over 70 mpg. It was available on the L and GL models. However, the performance was worse than the 1.1 L petrol version, with only 54 bhp and a top speed of barely 90 mph (140 km/h) – which prompted Ford to eventually enlarge the engine to 1.8 L some years later in the facelifted Escort. The Mk III model (1980–1986), was the most common type of car on British roads in December 1989, with almost 1,500,000 examples registered. A convertible version, made by coachbuilder Karmann, appeared the same year as the five-door estate (1983). It was the first drop-top car produced by Ford Europe since the Corsair of the 1960s. The Escort Cabriolet was initially available in both XR3i and Ghia specification, but the Ghia variant was later dropped.
The Sierra RS Cosworth model. a very sporting version of Ford’s upper-medium sized family car, was built by Ford Europe from 1986 to 1992, the result of a Ford Motorsport project with the purpose of producing an outright winner for Group A racing in Europe. The project was defined in the spring of 1983 by Stuart Turner, then recently appointed head of Ford Motorsport in Europe, who had realised right away that Ford was no longer competitive in this area. Turner got in touch with Walter Hayes, at the time the vice-president of public relations at Ford, to get support for the project. Hayes had earlier been the driving force behind the development of the Ford GT40 that won Le Mans in 1966, and the Cosworth DFV engine that brought Ford 154 victories and 12 world championships in Formula One during the 1960s and 1970s. Hayes found the project very appealing and promised his full support. Turner then invited Ken Kohrs, vice-president of development, to visit Ford’s longtime partner, the automotive company Cosworth, where they were presented a project developed on Cosworth’s own initiative, the YAA engine. This was a twin cam, 16-valve engine based on Ford’s own T88 engine block, better known as the Pinto. This prototype proved an almost ideal basis for the engine Turner needed to power his Group A winner. Therefore, an official request for a turbocharged version (designated Cosworth YBB) capable of 180 HP on the street and 300 HP in race trim, was placed. Cosworth answered positively, but they put up two conditions: the engine would produce not less than 204 HP in the street version, and Ford had to accept no fewer than 15,000 engines. Turner’s project would only need about 5,000 engines, but Ford nevertheless accepted the conditions. The extra 10,000 engines would later become one of the reasons Ford also chose to develop a four door, second generation Sierra RS Cosworth. To find a suitable gearbox proved more challenging. The Borg-Warner T5, also used in the Ford Mustang, was chosen, but the higher revving nature of the Sierra caused some problems. Eventually Borg-Warner had to set up a dedicated production line for the gearboxes to be used in the Sierra RS Cosworth. Many of the suspension differences between the standard Sierra and the Cosworth attributed their development to what was learned from racing the turbocharged Jack Roush IMSA Merkur XR4Ti in America and Andy Rouse’s successful campaign of the 1985 British Saloon Car Championship. Much of Ford’s external documentation for customer race preparation indicated “developed for the XR4Ti” when describing parts that were Sierra Cosworth specific. Roush’s suspension and aerodynamics engineering for the IMSA cars was excellent feedback for Ford. Some production parts from the XR4Ti made their way into the Cosworth such as the speedometer with integral boost gauge and the motorsport 909 chassis stiffening plates. In April 1983, Turner’s team decided on the recently launched Sierra as a basis for their project. The Sierra filled the requirements for rear wheel drive and decent aerodynamic drag. A racing version could also help to improve the unfortunate, and somewhat undeserved, reputation that Sierra had earned since the introduction in 1982. Lothar Pinske, responsible for the car’s bodywork, demanded carte blanche when it came to appearance in order to make the car stable at high speed. Experience had shown that the Sierra hatchback body generated significant aerodynamic lift even at relatively moderate speed. After extensive wind tunnel testing and test runs at the Nardò circuit in Italy, a prototype was presented to the project management. This was based on an XR4i body with provisional body modifications in fibreglass and aluminium. The car’s appearance raised little enthusiasm. The large rear wing caused particular reluctance. Pinske insisted however that the modifications were necessary to make the project successful. The rear wing was essential to retain ground contact at 300 km/h, the opening between the headlights was needed to feed air to the intercooler and the wheel arch extensions had to be there to house wheels 10” wide on the racing version. Eventually, the Ford designers agreed to try to make a production version based on the prototype. In 1984, Walter Hayes paid visits to many European Ford dealers in order to survey the sales potential for the Sierra RS Cosworth. A requirement for participation in Group A was that 5,000 cars were built and sold. The feedback was not encouraging. The dealers estimated they could sell approximately 1,500 cars. Hayes did not give up, however, and continued his passionate internal marketing of the project. As prototypes started to emerge, dealers were invited to test drive sessions, and this increased the enthusiasm for the new car. In addition, Ford took some radical measures to reduce the price on the car. As an example, the car was only offered in three exterior colours (black, white and moonstone blue) and one interior colour (grey). There were also just two equipment options: with or without central locking and electric window lifts. The Sierra RS Cosworth was first presented to the public at the Geneva Motor Show in March 1985, with plans to release it for sale in September and closing production of the 5,000 cars in the summer of 1986. In practice, it was launched in July 1986. 5545 were manufactured in total of which 500 were sent to Tickford for conversion to the Sierra three-door RS500 Cosworth. The vehicles were manufactured in right hand drive only, and were made in Ford’s Genk factory in Belgium. Exactly 500 RS500s were produced, all of them RHD for sale in the UK only – the biggest market for this kind of Ford car. It was originally intended that all 500 would be black, but in practice 56 white and 52 moonstone blue cars were produced.To broaden the sales appeal, the second generation model was based on the 4 door Sierra Sapphire body. It was launched in 1988, and was assembled in Genk, Belgium, with the UK-built Ford-Cosworth YBB engine. Cylinder heads on this car were early spec 2wd heads and also the “later” 2wd head which had some improvements which made their way to the 4X4 head. Suspension was essentially the same with some minor changes in geometry to suit a less aggressive driving style and favour ride over handling. Spindles, wheel offset and other changes were responsible for this effect. Approximately 13,140 examples were produced during 1988-1989 and were the most numerous and lightest of all Sierra Cosworth models. Specifically the LHD models which saved weight with a lesser trim level such as manual rear windows and no air conditioning. In the UK, the RHD 1988-1989 Sierra Sapphire RS Cosworth is badged as such with a small “Sapphire” badge on the rear door window trims. All 1988-1989 LHD models are badged and registered as a Sierra RS Cosworth with no Sapphire nomenclature at all. “Sapphire” being viewed as a Ghia trim level that saw power rear windows, air conditioning and other minor options. Enthusiasts of the marque are mindful of this and will describe the LHD cars by their body shell configuration, 3 door or 4 door. As the Sapphire Cosworth was based on a different shell to the original three-door Cosworth, along with its more discreet rear wing, recorded a drag co-efficient of 0.33, it registered slightly better performance figures, with a top speed of 150 mph and 0-60 of 6.1 seconds, compared to the original Cosworth. In January 1990, the third generation Sierra RS Cosworth was launched, this time with four wheel drive. As early as 1987, Mike Moreton and Ford Motorsport had been talking about a four wheel drive Sierra RS Cosworth that could make Ford competitive in the World Rally Championship. The Ferguson MT75 gearbox that was considered an essential part of the project wasn’t available until late 1989 however. Ford Motorsport’s desire for a 3-door “Motorsport Special” equivalent to the original Sierra RS Cosworth was not embraced. The more discreet 4-door version was considered to have a better market potential. It was therefore decided that the new car should be a natural development of the second generation, to be launched in conjunction with the face lift scheduled for the entire Sierra line in 1990. The waiting time gave Ford Motorsport a good opportunity to conduct extensive testing and demand improvements. One example was the return of the bonnet louvres. According to Ford’s own publicity material, 80% of the engine parts were also modified. The improved engine was designated YBJ for cars without a catalyst and YBG for cars with a catalyst. The latter had the red valve cover replaced by a green one, to emphasise the environmental friendliness. Four wheel drive and an increasing amount of equipment had raised the weight by 100 kg, and the power was therefore increased to just about compensate for this. The Sierra RS Cosworth 4×4 received, if possible, an even more flattering response than its predecessors and production continued until the end of 1992, when the Sierra was replaced by the Mondeo. The replacement for the Sierra RS Cosworth was not a Mondeo however, but the Escort RS Cosworth. This was to some extent a Sierra RS Cosworth clad in an “Escort-like” body. The car went on sale in May 1992, more than a year after the first pre-production examples were shown to the public, and was homologated for Group A rally in December, just as the Sierra RS Cosworth was retired. It continued in production until 1996. The Sierra and Sapphire Cosworths were undoubted performance bargains when new, but they also gained a reputation both for suffering a lot of accidents in the hands of the unskilled and also for being among the most frequently stole cars of their generation. These days, though, there are some lovely and treasured examples around and indeed you are far more likely to see a Cosworth version of the Sierra than one of the volume selling models.
The Ford Escort RS Cosworth is a sports derivative and rally homologation special of the fifth generation European Ford Escort. It was designed to qualify as a Group A car for the World Rally Championship, in which it competed between 1993 and 1998. It was available as a road car from 1992–96 in very limited numbers. Ford developed the car around the chassis and mechanicals of its spiritual predecessor, the Sierra Cosworth to accommodate the larger Cosworth engine and transmission, whilst clothing it in Escort body panels to make it resemble the standard car. Designed under the guidance of Rod Mansfield and John Wheeler of Ford’s SVO department, the styling was carried out during 1989, a year before the standard Escort was launched, by Stephen Harper at MGA Developments in Coventry. The spoiler was added by Frank Stephenson, who originally proposed a three-deck piece. The body tooling was created by coachbuilders Karmann at their facility in Rheine, Germany, where the cars were manufactured. Changes were made to the engine management system and a new turbocharger was fitted. Permanent four wheel drive with a 34/66% front/rear split came courtesy of an uprated five speed gearbox as used in the Sierra Cosworth. Recaro sports seats came as a standard fitment. Later production models were available without the oversize tail spoiler although by far the majority were still ordered with it. Like its Sierra predecessor, they are commonly nicknamed “Cossie” by enthusiasts. The car’s top speed was 150 mph, which rivalled lower-end supercars including the Audi Quattro, BMW M3, Nissan 300ZX and Toyota Supra, and comfortably outperformed traditional “hot hatchbacks” like the Volkswagen Golf GTI. It was much faster than the 126 mph which the Escort RS2000 and earlier Escort RS Turbo were capable of. Two versions were produced. The initial 2,500 units were “homologation specials” used to get the FIA accreditation for entry into the World Rally Championship. They were fitted with a Garrett T3/T04B turbocharger. Among these initial units, a handful were badged as Motorsport versions, these lacked certain refinements such as a sunroof and sound deadening. The initial cars included features that, although they made the Cosworth a more effective car, did not enhance it as a road vehicle, and once the rules were satisfied Ford attempted to make the car less temperamental and easier to drive under normal conditions. The second generation, starting production from late 1994, were fitted with a Garrett T25 turbocharger, a smaller unit which reduced turbo lag and increased usability in everyday driving situations. With these later models, the ‘whale tail’ spoiler became a delete option. The Escort Cosworth was a rare car, with 7,145 vehicles produced from the start of production on 19 February 1992 until the last car rolled out of the factory on 12 January 1996.
Drawing on inspiration from the mid-engined Ford Mustang I concept vehicle, Lee Iacocca ordered development of a new “small car” to vice-president of design at Ford, Eugene Bordinat. Bordinat tasked Ford’s three design studios (Ford, Lincoln-Mercury, and Advanced Design) to create proposals for the new vehicle. The design teams had been given five goals for the design of the Mustang: It would seat four, have bucket seats and a floor mounted shifter, weigh no more than 2,500 pounds (1,100 kg) and be no more than 180 inches (4,572 mm) in length, sell for less than $2,500, and have multiple power, comfort, and luxury options. The Lincoln–Mercury design studio ultimately produced the winning design in the intramural contest, under Project Design Chief Joe Oros and his team of L. David Ash, Gale Halderman, and John Foster. Development of the Mustang was completed in a record 18 months from September 1962 to March 1964. and Iacocca himself championed the project as Ford Division general manager. The styling is often credited to one person, and that is not accurate, as this was very much a team effort, it has been reported by those involved. To decrease developmental costs, the Mustang used chassis, suspension, and drivetrain components derived from the Ford Falcon and Fairlane. It used a unitised platform-type frame from the 1964 Falcon, and welded box-section side rails, including welded crossmembers. Although hardtop Mustangs accounted for the highest sales, durability problems with the new frame led to the engineering of a convertible first, which ensured adequate stiffness. Overall length of the Mustang and Falcon was identical, although the Mustang’s wheelbase was slightly shorter. With an overall width of 68.2 in (1,732 mm), it was 2.4 in (61 mm) narrower, yet the wheel track was nearly identical. Shipping weight, approximately 2,570 lb (1,166 kg) with the straight six-cylinder engine, was also similar to the Falcon. A fully equipped V8 model weighed approximately 3,000 lb (1,361 kg). Although most of the mechanical parts were from the Falcon, the Mustang’s body was completely different; sporting a shorter wheelbase, wider track, lower seating position and lower overall height. An industry first, the “torque box” was an innovative structural system that greatly stiffened the Mustang’s construction and helped contribute to better handling. The car was launched in 17th April 1964, as a hardtop and a convertible, with the fastback version following in August. It was an instant sensation, with demand massively exceeding supply. Since it was introduced four months before the normal start of the 1965 production year and manufactured alongside 1964 Ford Falcons and 1964 Mercury Comets, the earliest Mustangs are widely referred to as the 1964½ model. Nevertheless, all “1964½” cars were given 1965 U.S. standard VINs at the time of production, and – with limited exception to the earliest of promotional materials – were marketed by Ford as 1965 models. The low-end model hardtop used a “U-code” 170 cu in (2.8 litre) straight-6 engine borrowed from the Falcon, as well as a three-speed manual transmission and retailed for US$2,368. Standard equipment for the early 1965 Mustangs included black front seat belts, a glove box light, and a padded dash board. Production began in March 1964 and official introduction following on April 17 at the 1964 World’s Fair. V8 models got a badge on the front fender that spelled out the engine’s cubic inch displacement (“260” or “289”) over a wide “V.” This emblem was identical to the one on the 1964 Fairlane. Several changes to the Mustang occurred at the start of the “normal” 1965 model year in August 1964, about four months after its introduction. These cars are known as “late 65’s”. The engine lineup was changed, with a 200 cu in (3.3 litre) “T-code” engine that produced 120 hp. Production of the Fairlane’s “F-code” 260 cu in (4.3 litre) engine ceased when the 1964 model year ended. It was replaced with a new 200 hp “C-code” 289 cu in (4.7 litre) engine with a two-barrel carburettor as the base V8. An “A-code” 225 hp four-barrel carburettor version was next in line, followed by the unchanged “Hi-Po” “K-code” 271 hp 289. The DC electrical generator was replaced by a new AC alternator on all Fords (a way to distinguish a 1964 from a 1965 is to see if the alternator light on the dash says “GEN” or “ALT”). The Mustang GT version was introduced as the “GT Equipment Package” and included a V8 engine (most often the 225 hp 289), grille-mounted fog lamps, rocker panel stripes, and disc brakes. In the interior the GT option added a different instrument panel that included a speedometer, fuel gauge, temp. gauge, oil pressure gauge and ammeter in five round dials (the gauges were not marked with numbers, however.) A four-barrel carburettor engine was now available with any body style. Additionally, reverse lights were an option added to the car from August 1964 production. In 1965, the Shelby Mustang was born, it was available only in newly introduced fastback body version with its swept-back rear glass and distinctive ventilation louvres. The standard interior features of the 1965 Mustang included adjustable driver and passenger bucket seats, an AM radio, and a floor mounted shifter in a variety of colour options. Ford added additional interior options during the 1965 model year. The Interior Decor Group was popularly known as “Pony Interior” due to the addition of embossed running ponies on the seat fronts, and also included integral armrests, woodgrain appliqué accents, and a round gauge cluster that would replace the standard Falcon instrumentation. Also available were sun visors, a (mechanical) remote-operated mirror, a floor console, and a bench seat. Ford later offered an under-dash air-conditioning unit, and discontinued the vinyl with cloth insert seat option, offered only in early 1965 models. One option designed strictly for fun was the Rally-Pac. Introduced in 1963 after Ford’s success at that year’s Monte Carlo Rally and available on other Ford and Mercury compacts and intermediates, the Rally-Pac was a combination clock and tachometer mounted to the steering column. It was available as a factory ordered item for US$69.30. Installed by a dealer, the Rally-Pac cost US$75.95.A 14″ rim option was available for Rally-pac and GT350R vehicles widening front and rear track to 57.5″. Reproductions are presently available from any number of Mustang restoration parts sources. A compass, rear seat belts, A/C, and back-up lights were also optional. The 1966 Mustang debuted with moderate trim changes including a new grille, side ornamentation, wheel covers and filler cap. Ford’s new C-4 “cruise-o-matic” three-speed auto transmission became available for the 225 hp V8. The 289 “HiPo” K-code engine was also offered with a c4 transmission, but it had stronger internals and can be identified by the outer casing of the servo which is marked with a ‘C’. The long duration solid-lifter camshaft that allowed the high revving 289 to make the horsepower it was known for, was not friendly for a low stall speed automatic torque converter. The “HiPo” could be spotted very easily by the 1-inch-thick vibration damper, (as compared to 1/2 inch on the 225-hp version) and the absence of a vacuum advance unit on the dual point distributor. With the valve covers off, there is a large letter “K” stamped between the valve springs, along with screw in studs (vs. a pressed in stud for other 289s) for the adjustable rocker arms. A large number of new paint and interior color options, an AM/eight-track sound system, and one of the first AM/FM mono automobile radios were also offered. It also removed the Falcon instrument cluster; the previously optional features, including the round gauges and padded sun visors, became standard equipment. The Mustang would be the best-selling convertible in 1966, with 72,119 sold, beating the number two Impala by almost 2:1. The 1965 and 1966 Mustangs are differentiated by variations in the exterior, despite similar design. These variations include the emblem on the quarter-panels behind the doors. From August 1964 production, the emblem was a single vertical piece of chrome, while for 1966 models the emblem was smaller in height and had three horizontal bars extending from the design, resembling an “E”. The front intake grilles and ornaments were also different. The 1965 front grille used a “honeycomb” pattern, while the 1966 version was a “slotted” style. While both model years used the “Horse and Corral” emblem on the grille, the 1965 had four bars extending from each side of the corral, while on the 1966, these bars were removed. The 1966 model year saw introduction of ‘High Country Special’ limited edition, 333 of them were sold in Colorado, Wyoming, and Nebraska. When Ford wanted to introduce the Mustang in Germany, they discovered that Krupp company had already registered the name for a truck. The German company offered to sell the rights for US$10,000. Ford refused and removed Mustang badges from exported units, instead naming the cars as T-5 (a pre-production Mustang project name) for the German market until 1979 when Krupp copyrights expired. In 1965, Harry Ferguson Research purchased 3 Mustang notchbacks and converted them to 4×4 in an attempt to sell potential clients on their FF AWD system. A similar system was used in the Ferguson P99 Formula One car, and would go on to be featured in the Jensen FF, widely considered the first AWD passenger car. As in the Jensen FF, the AWD Mustangs also featured an ABS braking system, long before such a feature was commonplace. Ford Australia organised the importation and conversion of 1966 Mustang to right-hand-drive for the Australian market. This coincided with the launch of new XR Falcon for 1966, which was marketed as “Mustang-bred Falcon”. To set the official conversion apart from the cottage industry, the RHD Mustangs were called “Ford Australia Delivered Mustang” and had compliance plates similar to XR Falcon. About 209 were imported to Australia with 48 units were converted in 1965 while the further 161 were done in 1966. The 1967 model year Mustang was the first redesign of the original model. Ford’s designers began drawing up a larger version even as the original was achieving sales success, and while “Iacocca later complained about the Mustang’s growth, he did oversee the redesign for 1967 .” The major mechanical feature was to allow the installation of a big-block V8 engine. The overall size, interior and cargo space were increased. Exterior trim changes included concave taillights, side scoop (1967 model) and chrome (1968 model) side ornamentation, square rear-view mirrors, and usual yearly wheel and gas cap changes. The high-performance 289 option was placed behind the newer 335 hp 6.4 litre FE engine from the Ford Thunderbird, which was equipped with a four-barrel carburettor. During the mid-1968 model year, a drag racer for the street could be ordered with the optional 428 cu in (7.0 litre) Cobra Jet engine which was officially rated at 335 hp. All of these Mustangs were issued R codes on their VIN’s. The 1967 Deluxe Interior was revised, discontinuing the embossed running horse motif on the seat backs (the source for the “pony interior” nickname) in favor of a new deluxe interior package, which included special colour options, brushed aluminium (from August 1966 production) or woodgrain dash trim, seat buttons, and special door panels. The hardtop also included upholstered quarter trim panels, a carryover from the 1965-66 deluxe interior. The 1967 hardtop also had the chrome quarter trim caps, carried over from 1965-66, but these were painted to match the interior in 1968 models. The 1967 deluxe interior included stainless steel-trimmed seat back shells, similar to those in the Thunderbird. These were dropped at the end of the 1967 model year, and were not included in the woodgrain-trimmed 1968 interior. The deluxe steering wheel, which had been included in the deluxe interior for the 1965-66, became optional, and could also be ordered with the standard interior. The 1968 models that were produced from January 1968 were also the first model year to incorporate three-point lap and shoulder belts (which had previously been optional, in 1967-68 models) as opposed to the standard lap belts. The air-conditioning option was fully integrated into the dash, the speakers and stereo were upgraded, and unique center and overhead consoles were options. The fastback model offered the option of a rear fold-down seat, and the convertible was available with folding glass windows. Gone was the Rally-Pac, since the new instrument cluster had provisions for an optional tachometer and clock. Its size and shape also precluded the installation of the accessory atop the steering column. The convenience group with four warning lights for low fuel, seat belt reminder, parking brake not released, and door ajar were added to the instrument panel, or, if one ordered the optional console and A/C, the lights were mounted on the console. Changes for the 1968 model increased safety with a two-spoke energy-absorbing steering wheel, along with newly introduced shoulder belts. Other changes included front and rear side markers, “FORD” lettering removed from hood, rearview mirror moved from frame to windscreen, a 302 cu in (4.9 litre) V8 engine was now available, and C-Stripe graphics were added. The California Special Mustang, or GT/CS, was visually based on the Shelby model and was only sold in Western states. Its sister, the ‘High Country Special’, was sold in Denver, Colorado. While the GT/CS was only available as a coupe, the ‘High Country Special’ model was available in fastback and convertible configurations during the 1966 and 1967 model years, and as a coupe for 1968. The 1968 Ford Mustang GT Fastback reached iconic status after it was featured in the 1968 film Bullitt, starring Steve McQueen. In the film, McQueen drove a modified 1968 Mustang GT 2+2 Fastback chasing a Dodge Charger through the streets of San Francisco. There were further annual updates until the model’s replacement in 1973, but with each the car got steadily bigger and less overtly sporty. Sales reduced, too, suggesting that Ford were losing their way. Mustang II did not fix that, of course, but gradually, the legendary nameplate has returned to delivering the same sort of promise as those early and much loved cars were able to do.
The Maverick was introduced on April 17, 1969, as a 1970 model at a very competitive price point of $1,995. The TV commercials used the same music as the other Ford ads in the 1969 model year campaign, “Ford, it’s the going thing.” The Maverick was originally conceived and marketed as a subcompact “import fighter”, intended to compete against the newer Japanese rivals for North America, then primarily from the Datsun 610 and Toyota Mark II. The Falcon, Ford’s compact offering since 1960 and main rival to the Chevrolet Nova and Dodge Dart, had seen its sales decimated by the introduction of the Mustang in 1964, and despite a redesign in 1966, was unable to meet the then forthcoming U.S. National Highway Traffic Safety Administration motor-vehicle standards that would come into effect on January 1, 1970. Consequently, the Falcon was discontinued midway through the 1970 model year, and the Maverick repositioned as Ford’s compact entry, giving the Nova and Dart a new rival. For 1970½, a larger intermediate-sized Falcon was introduced, which was a rebadged entry-level version of the Fairlane series for the second half of the model year. For 1971, this larger Falcon was dropped, as the new Torino series replaced it and the Fairlane names. The Maverick’s styling featured the long hood, fastback roof, and short deck popularized by the Mustang, on a 103-inch (2,616 mm) wheelbase — and featured pop-out rear side windows. Nearly 579,000 Mavericks were produced in its first year, approaching the record-setting first year of Mustang sales (nearly 619,000), and easily outpaced the Mustang’s sales of fewer than 200,000 in 1970. Total North American Maverick production (1969–1977) reached 2.1 million units. Jumping gas prices and increasing demand for smaller cars resulting from the 1973 oil crisis caused the Maverick to grow in popularity. Maverick production continued for 1975 with the release of its intended replacement the Granada as a more European-style luxury compact (the Granada and Maverick shared the same basic chassis). Initially available only as a two-door sedan, early models lacked a glove compartment, which was added during the model year 1973 (early 1973 models still lacked a glove compartment). A four-door sedan on a 109.9-inch (2.791 m) wheelbase was introduced for 1971. At introduction, exterior paint colors were named with puns, including “Anti-Establish Mint”, “Hulla Blue”, “Original Cinnamon”, “Freudian Gilt”, and “Thanks Vermillion” — along with more typical names including black jade, champagne gold, gulfstream aqua, meadowlark yellow, Brittany blue, lime gold, Dresden blue, raven black, Wimbledon white, and candyapple red. Ford’s Lee Iacocca reported that the pun-names had been sent to him by a friend, who also supplied others not chosen by Iacocca: “Goodclean Fawn,” “Down Umber” and “Mickey Moss.” In the first half of production for the 1970 model, two engine options were available, a 105 hp 170 cu in (2,800 cc) straight-six and a 120 hp 200 cu in (3,300 cc) straight-six. A 250 cu in (4,100 cc) straight-six was added mid-year. For the 1970 model only the 170 cu in (2,800 cc) straight-six had an option for a 3 speed semi-automatic gearbox. Commercials and advertising compared the Maverick, at $1,995, to the smaller Volkswagen Beetle, which was about $500 less. The Pinto was later Ford’s primary competitor to the Beetle in the subcompact class, while also competing in that segment with the Chevrolet Vega, AMC Gremlin, Toyota Corolla and Datsun 1200 subcompacts new to the market at that time. The earliest Mavericks featured two-spoke steering wheels with partial horn rings, also found on other 1969 Fords, while in late 1969, production was changed to revised steering wheels with no horn rings. Also, the early models located the ignition switch in the instrument panel, while the cars built after September 1, 1969, had the ignition switches mounted on locking steering columns, as did all other 1970 Fords in compliance with a new federal safety mandate that took effect with the 1970 model year. A four-door model was introduced for 1971, available with a vinyl roof. Mercury also revived the Comet as a rebadged variant of the Maverick. Also for 1971, an optional 210 hp 302 CID V8 was introduced for both the Comet and the Maverick. The Comet was distinguished from the Maverick by using a different grille, taillights, trim, and hood. The Maverick Grabber trim package was introduced in mid-1970. In addition to larger tire fitment, the package included graphics and trim, including a spoiler. It was offered from 1970 to 1975. In 1971 and 1972, the Grabber came with a special dual scoop hood. A “sprint” package offered for 1972 featured white and blue two-toned paint with red pinstripes and a special colour-coordinated interior. The rear quarter panels included a stylized U.S.A. flag shield. This trim package acknowledged the 1972 Olympics and was available for only one year. A “luxury decor option” (LDO) trim level introduced late in the 1972 model year included reclining bucket seats in a soft vinyl material, plush carpeting, wood-grained instrument panel trim, radial tires with body-colour deluxe wheel covers, and a vinyl roof. The Maverick LDO option was one of the first American compacts to be marketed as a lower-priced (and domestic) alternative to the more expensive European luxury and touring sedans from Mercedes-Benz, BMW, Audi, and others. Minor changes were made from 1973 to 1975. For 1973, the 170 CID engine was dropped, making the 200 CID I6 the standard engine. Additionally, improved brakes and a previously optional chrome grille became standard. An AM/FM stereo and aluminium wheels became available while a slightly larger front bumper to comply with federal 5 MPH regulations was fitted. In 1974, the Maverick was unchanged except for new larger federally required 5 MPH bumpers for both front and rear, which required new rear quarter panel end caps. The Maverick received minor trim changes for 1975 that included new grilles and the replacement of nameplates on the hood and trunk lid with Ford nameplates in block letters. In 1976, the Grabber was dropped, and a “Stallion” package was introduced. The Stallion option came with special paint and trim. Standard Mavericks received new grilles and gained front disc brakes as standard equipment along with new foot-operated parking brakes that replaced the old under-dash T-handle units. Sales continued to drop. In its final year, the Maverick remained unchanged for 1977 except for a police package, which was not sufficiently upgraded for police work and sold less than 400 units. Mavericks were produced in Brazil until 1979 (with minor changes for the 1977 model, including new rear headlamps). The Maverick had no significant changes towards the end of its lifespan, since it was originally slated to be replaced for 1975 by the Ford Granada. Due to the increased demand for compact fuel efficient vehicles after the OPEC oil crisis, Ford decided to keep producing the Maverick as a price leader while pitching the Granada as an uplevel luxury compact model instead. The Maverick was eventually replaced by the 1978 Ford Fairmont which introduced the all new Fox platform.
This is the latest Mustang Mach 1. After a 17 year hiatus, the fifth instalment of the Mach 1 uses the GT’s 5.0 L Coyote V-8 producing 480 hp at 7,000 rpm and 420 lb/ft (569 Nm) at 4,600 rpm, which is same output of the Mustang Bullitt. The 2022 model produces 470 hp and 410 lb/ft at 4,600 rpm, which is a loss of 10 hp and 10 lb/ft of torque. Ford engineers were originally targeting 525 bhp and 450 lb⋅ft (610 N⋅m). It borrows several parts from the Shelby models: the intake manifold, oil-filter adapter, engine oil cooler, and front and rear subframe are shared with the Shelby GT350, while the rear axle cooling system, rear toe link, and rear diffuser are shared with the Shelby GT500. On the front grille, at each side of the pony badge there are two large vent holes. “Mach 1 performance is evident even before you get behind the wheel. Its streamlined design and exterior styling cues celebrate Mach 1 heritage dating back more than five decades. Sure, every Mustang looks good in the driveway, but the Mach 1 was made to shine on the track. The unique handling dynamics and an available Mach 1 Handling Package help you feel stuck to the road, around curves and when you’re hitting the straightaway at a 168 mph max speed. Better yet, it’s completely customizable in appearance, powertrain and performance, so you can put your spin on this icon. There is a hefty price premium, though,compared with the regular 5.0 GT model.
Ford introduced a dramatically new style of pickup in 1961 with the fourth-generation F-Series. Longer and lower than its predecessors, these trucks had increased dimensions and new engine and gearbox choices. Additionally, the 1961–1963 models offered an optional unibody design with the cab and bed integrated. The traditional separate cab/bed was offered concurrently. The unibody proved unpopular, and Ford discontinued the option after the 1963 model year. In 1965, the F-Series was given a significant mid-cycle redesign. A completely new platform, including the “Twin I-Beam” front suspension, was introduced, and continued to be used until 1996 on the F-150, and is still used today in the F-250 and F-350 4×2. Additionally, the Ranger name made its first appearance in 1965 on a Ford pickup; previously, the Ranger denoted a base model of the Edsel, but starting in 1965, it was used to denote a high-level styling package for F-Series pickups
This from the fifth generation of the Ford F-Series is a line of pickup trucks and commercial trucks that were produced by Ford from the 1967 to 1972 model years. Built on the same platform as the fourth generation F-series trucks, the fifth generation had sharper styling lines, a larger cab, and expanded engine options. Three trim levels were available during the production of the fifth generation F-series, though the names were changed in 1970. The “Base” trim became the “Custom” and the “Custom Cab” became the “Sport Custom” joining “Ranger” as optional levels of equipment and trim. Late in production the Ranger trim level was upgraded with the additional “Ranger XLT” option. 1967 saw the Introduction of fifth-generation F-Series in 1966 for the 1967 model year. Cab is 3 inches (7.6 cm) wider than predecessor and frame is heavier. Grille, exterior trim, interior cab fittings and engine choices are unique to this year. Trim levels are “Base”, “Custom Cab”, and “Ranger”. For 1968, as federal regulations required all automotive manufacturers to install side marker reflectors or lights, Ford redesigned the hood emblems to incorporate reflectors as well as added reflectors to the rear of the bed. Interior fittings changed due to new safety standards. New versions of the FE-Series engine added (360 truck and 390). First year of factory-installed air conditioning (air conditioning was installed by the dealer before 1968). In 1969 there was a new grille design, new 302 Windsor V8 engine option. In 1970, the mid-cycle update with many detail changes including a completely new grille including wraparound front turn signals, exterior trim changes, and new side marker lights. “Sport Custom” trim replaces “Custom Cab”, and “Ranger XLT” added as top trim level.
FRAZER NASH
GORDON KEEBLE
The Gordon-Keeble came about when John Gordon, formerly of the struggling Peerless company, and Jim Keeble got together in 1959 to make the Gordon GT car, initially by fitting a Chevrolet Corvette V8 engine, into a chassis by Peerless, for a USAF pilot named Nielsen. Impressed with the concept, a 4.6 litre Chevrolet V8 was fitted into a specially designed square-tube steel spaceframe chassis, with independent front suspension and all-round disc brakes. The complete chassis was then taken to Turin, Italy, where a body made of steel panels designed by Giugiaro was built by Bertone. The car’s four headlights were in the rare, slightly angled “Chinese eye” arrangement also used by a few other European marques, generally for high-speed cars such as Lagonda Rapide, Lancia Flaminia and Triumphs, as well as Rolls-Royce. The interior had an old luxury jet feel, with white on black gauges, toggle switches, and quilted aircraft PVC. The car was displayed on the Bertone stand at the Geneva Show in March 1960, branded simply as a Gordon. At that time problems with component deliveries had delayed construction of the prototype, which had accordingly been built at breakneck speed by Bertone in precisely 27 days. After extensive road testing the car was shipped to Detroit and shown to Chevrolet management, who agreed to supply Corvette engines and gearboxes for a production run of the car. Further development then took place, to ready for production with some alterations, the main ones being a larger 5.4 litre engine and a change from steel to a glass fibre body made by Williams & Pritchard Limited. “Production” started in 1964, but problems with suppliers occurred and before many cars were made the money ran out and the company went into liquidation. About 90 cars had been sold at what turned out to be an unrealistic price of £2798. In 1965 the company was bought by Harold Smith and Geoffrey West and was re-registered as Keeble Cars Ltd. Production resumed, but only for a short time, the last car of the main manufacturing run being made in 1966. A final example was actually produced in 1967 from spares, bringing the total made to exactly 100. The Gordon-Keeble Owners’ Club claim that over 90 examples still exist – an incredible survival rate.
HILLMAN
The Super Minx was announced in October 1961,and was intended to give Rootes, and particularly its Hillman marque, an expanded presence in the upper reaches of the family car market. It has been suggested that the Super Minx design was originally intended to replace, and not merely to supplement, the standard Minx, but was found to be too big for that purpose. An estate car joined the range in May 1962, and a two-door convertible in June 1962. The convertible never sold in significant numbers: the last one was made in June 1964. At launch, the car was powered by the Rootes 62 bhp 1,592 cc unit, which had first appeared late in 1953 with a 1,390 cc capacity. The original Super Minx had the cast-iron cylinder head version of the engine, though on later cars the cylinder head was replaced with an aluminium one. Suspension was independent at the front using coil springs with anti-roll bar and at the rear had leaf springs and a live axle. Un-assisted 9 in Lockheed drum brakes were fitted. The steering used a recirculating ball system and was as usual at the time not power assisted. Standard seating, trimmed in Vynide, used a bench type at the front with individual seats as an option. A heater was fitted but a radio remained optional. The car could be ordered in single colour or two tone paint. The four-speed manual transmission featured synchromesh on the top three ratios from the start and had a floor lever: “Smiths Easidrive” automatic transmission was option. A year after the car was launched a Mark II version was presented, in October 1962, with greasing points eliminated, larger front disc brakes and a revised axle ratio. For buyers of the automatic transmission cars, 1962 was the year that the Smiths Easidrive option was replaced by the Borg-Warner 35 transmission. In 1964, with the launch of the Super Minx Mark III, the wrap-around rear window gave way to a new “six-light” design with extra side windows aft of the rear side doors. Engine capacity was increased to 1,725 cc for the Super Minx Mark IV launched at the London Motor Show in October 1965.The car was replaced by the Arrow range (Hunter) in late 1966.
HOLDEN
The Holden Special Vehicles Maloo (or HSV Maloo), is a performance coupé utility, or ute, built by Holden’s performance vehicles department, Holden Special Vehicles (HSV), in Clayton, Victoria from 1992 until 2017 (final assembly of four vehicles completed in 2018). The Maloo holds the world record for the fastest ute, an LS2 powered VY series Maloo R8, achieving a top speed of 271.44 km/h (168.66 mph) in 2006, beating the record previously held by the Dodge Ram SRT-10 by over 20 km/h. However, succeeding Maloos have surpassed this figure. The Maloo is a ute version of HSV’s ClubSport sedan. It was produced in three main variants: the Maloo R8, the Maloo R8 SV and the Maloo GTS, however many others were produced throughout its lifetime, including the Gen F2’s Maloo GTSR, and the 474kW LS9-powered Maloo GTSR W1. The Maloo GTSR W1 was never intended for production, however HSV staff discovered that they had 4 excess Maloo GTSR bodies at their disposal, and built 4 units, one in burnt orange, one in bright yellow, one in matte grey, and one in green. These cars are now valued at well over AUD$1 million.
HONDA
It is now more than a thirty years since Honda stunned the world with a true Ferrari-beater. Its origins go back all the way to 1984, when Honda commissioned the Italian car designer Pininfarina to design the HP-X (Honda Pininfarina eXperimental), which had a mid-mounted C20A 2.0 L V6 configuration. After Honda committed to the project, management informed the engineers that the new car would have to be as fast as anything coming from Italy and Germany .The HP-X concept car evolved into a prototype called the NS-X, which stood for “New”, “Sportscar” and “eXperimental”. The NS-X prototype and eventual production model were designed by a team led by Chief Designer Ken Okuyama and Executive Chief Engineer Shigeru Uehara, who subsequently were placed in charge of the S2000 project. The original performance target for the NS-X was the Ferrari 328, and later the 348 as the design neared completion. Honda intended the NS-X to meet or exceed the performance of the Ferrari, while offering targeted reliability and a lower price point. For this reason, the 2.0L V6 of the HP-X was abandoned and replaced with a more powerful 3.0L VTEC V6 engine. The bodywork design had been specifically researched by Okuyama and Uehara after studying the 360 degree visibility inside an F-16 fighter jet cockpit. Thematically the F-16 came into play in the exterior design as well as establishing the conceptual goals of the NSX. In the F-16 and other high performance craft such as unlimited hydroplanes, single seat race cars etc. the cockpit is located far forward on the body and in front of the power plant. This “cab-forward” layout was chosen early in the NSX’s design to optimise visibility while the long tail design enhanced high speed directional stability. The NS-X was designed to showcase several Honda automotive technologies, many derived from its F1 motor-sports program. The NS-X was the first production car to feature an all-aluminium monocoque body, incorporating a revolutionary extruded aluminium alloy frame, and suspension. The use of aluminium in the body alone saved nearly 200 kg in weight over the steel equivalent, while the aluminium suspension saved an additional 20 kg; a suspension compliance pivot helped maintain wheel alignment changes at a near zero value. Other notable features included an independent, 4-channel anti-lock brake system; titanium connecting rods in the engine to permit reliable high-rpm operation; an electric power steering system; Honda’s proprietary VTEC variable valve timing system (a first in the US) and, in 1995, the first electronic throttle control fitted to a Honda. With a robust motorsports division, Honda had significant development resources at its disposal and made extensive use of them. Respected Japanese Formula One driver Satoru Nakajima, for example, was involved with Honda in the NS-X’s early on track development at Suzuka race circuit, where he performed many endurance distance duties related to chassis tuning. Brazilian Formula One World Champion Ayrton Senna, for whom Honda had powered all three of his world championship-winning Formula One race cars before his death in 1994, was considered Honda’s main innovator in convincing the company to stiffen the NSX chassis further after initially testing the car at Honda’s Suzuka GP circuit in Japan. Senna further helped refine the original NSX’s suspension tuning and handling spending a whole day test driving prototypes and reporting his findings to Honda engineers after each of the day’s five testing sessions. Senna also tested the NSX at the Nurburgring and other tracks. The suspension development program was far-ranging and took place at the Tochigi Proving Grounds, the Suzuka circuit, the 179-turn Nurburgring Course in Germany, HPCC, and Hondas newest test track in Takasu, Hokkaido. Honda automobile dealer Bobby Rahal (two-time CART PPG Cup and 1986 Indianapolis 500 champion) also participated in the car’s development. The production car made its first public appearances as the NS-X at the Chicago Auto Show in February 1989, and at the Tokyo Motor Show in October 1989 to positive reviews. Honda revised the vehicle’s name from NS-X to NSX before final production and sale. The NSX went on sale in Japan in 1990 at Honda Verno dealership sales channels, supplanting the Honda Prelude as the flagship model. The NSX was marketed under Honda’s flagship Acura luxury brand starting in 1991 in North America and Hong Kong. It sent shockwaves through the industry, as the car was considerably better than the Ferrari 348 in just about every respect. But that was not the end of the story, of course. While the NSX always was intended to be a world-class sports car, engineers had made some compromises in order to strike a suitable balance between raw performance and daily driveability. For those NSX customers seeking a no-compromise racing experience, Honda decided in 1992 to produce a version of the NSX specifically modified for superior on-track performance at the expense of customary creature comforts. Thus, the NSX Type R (or NSX-R) was born. Honda chose to use its moniker of Type R to designate the NSX-R’s race-oriented design. In 1995, a Targa model was released, the NSX-T, which allowed customers to experience fresh air thanks to two removable targa top panels. The original NSX body design received only minor modifications from Honda in the new millennium when in 2002 the original pop-up headlamps were replaced with fixed xenon HID headlamp units.
In September 1987, a redesigned Civic was introduced with increased dimensions and a lower hood line. A wide range of models and trim levels were offered for various markets around the world. The most notable of which was the Japanese market SiR (featuring the B16A 1.6-liter DOHC VTEC 4-cylinder engine). All U.S. models featured electronic fuel injection, but carbureted models were still available elsewhere. The fourth-generation saw the introduction of a fully independent rear suspension across the entire model range. In addition, the Honda CRX continued to be part of the Civic family which included the base model, HF and Si model in the U.S.A / four door version called the Ballade was built, under agreement, by Mercedes-Benz South Africa / models were 1500 16V, 1600i 16V and 1600i 16V DOHC. The first 800 cars produced at the then brand new Honda plant in Alliston, Ontario, Canada were SE model cars. These Special Edition models included all white side moulding that matched the white body and color matched dual mirrors. In the body moulding was a wrap-around blue stripe. Each car had interior upgrades as well as a chrome-tipped exhaust. The fifth generation car arrived in 1991.
Based on the Honda J-VX concept car unveiled at the 1997 Tokyo Motor Show, the Insight was introduced in Japan in November 1999 as the first production vehicle to feature Honda’s Integrated Motor Assist system. In the following month, December 1999, Insight became the first hybrid available in North America, followed seven months later by the Toyota Prius. The Insight featured optimised aerodynamics and a lightweight aluminium structure to maximize fuel efficiency and minimize emissions. In addition to its hybrid drive system, the Insight was small, light and streamlined — with a drag-coefficient of 0.25. The petrol engine is a 67 hp 1.0 litre, ECA series 3-cylinder unit providing lean burn operation with an air-to-fuel ratio that can reach 25.8 to 1. The engine utilises lightweight aluminium, magnesium, and plastic to minimize weight. The electrical motor assist adds another 10 kW (13 hp) and a maximum of 36 pound-feet (49 Nm) of torque when called on, with the aim to boost performance to the level of a typical 1.5 L petrol engine. It also acts as a generator during deceleration and braking to recharge the vehicle’s batteries, and as the Insight’s starter motor. (This improves fuel efficiency and extends the lifetime and fade resistance of the brakes, without adding unsprung weight). When the car is not moving, for example at a stop light, the engine shuts off. Power steering is electric, reducing accessory drag. The Insight uses the first generation of Honda’s Integrated Motor Assist (IMA) hybrid technology. (The next generation, used in the Honda Civic Hybrid, is much more space-efficient.) The Insight’s electric assist is an ultrathin 60 mm (about 2.4 inches) brushless 10-kW electric motor located on the crankshaft. Located behind the seats are a series of commercial grade “D” sized NiMH batteries wired to provide a nominal 144 V DC. During heavy acceleration, the NiMH batteries drive the electric motor, providing additional power; during deceleration, the motor acts as a generator and recharges the batteries using a process called regenerative braking. A computer control module regulates how much power comes from the internal combustion engine, and how much from the electric motor; in the CVT variant, it also finds the optimal gear ratio. The digital displays on the dashboard display fuel consumption instantaneously. On the manual transmission up and down arrows suggest when to shift gears. Dashboard gauges monitor the current battery status, instantaneous fuel consumption, and mode of the electric motor — standby, engine assist or charging the batteries. High pressure, low rolling resistance tires and the use of low viscosity “0W-20” synthetic oil enhance fuel economy. The original Insight had a conventional manual transmission. Starting with the 2001 model, a CVT variant of the Insight was available; the CVT is similar to that used in the Honda Civic Hybrid and the Honda Logo. A traditional transmission shifts between a fixed set of engine-to-wheel ratios; however, a CVT allows for an infinite set of ratios between its lowest gear and its highest. A feature shared by the two hybrids (and now appearing in others) is the ability to automatically turn off the engine when the vehicle is at a stop (and restart it upon movement). Since it is more powerful than most starters of conventional cars, the Insight’s electric motor can start the engine nearly instantaneously. The Integrated Motor Assist is run by an “Intelligent Power Unit (IPU)”, a desktop computer-sized box. The Intelligent Power Unit, the Power control Unit, the Electronic Control Unit, the vehicle’s batteries, dc-to-dc converter and a high-voltage inverter are all located under the cargo floor of the vehicle, behind the seats. Honda increased the vehicle’s fuel efficiency using aluminium and plastic extensively to reduce the vehicle’s weight. The basic structure is a new, lightweight aluminium monocoque, reinforced in key areas with aluminium extrusions joined at cast aluminium lugs. Stamped aluminium panels are welded onto this structure to form an extremely light and rigid platform for the drivetrain and suspension. The Insight has a body weight less than half that of the contemporary Civic 3-door, with increased torsional rigidity by 38% and bending rigidity by 13%. Honda built the Insight with aluminum front brake calipers and rear brake drums, and with a largely aluminium suspension, in addition to standard aluminium wheels; reducing the ratio of un-sprung to sprung weight as well as the total weight. The fuel tank is plastic; the engine mounts were aluminium; and the exhaust is a small, thin wall pipe. Its compact spare is also aluminium. The Insight weighed 1,847 lb (838 kg) in manual transmission form without air conditioning, 1,878 lb (852 kg) with manual transmission and air conditioning, or 1,964 lb (891 kg) with CVT and air conditioning. Insight has a coefficient of drag of 0.25e. The absence of a rear seat allows the body to taper just behind the driver and the rear track is 110 mm narrower than the front track. The CVT-equipped Insight is classified as a super-low emissions vehicle. The Insight features low emissions: the California Air Resources Board gave the 5-speed model a ULEV rating, and the CVT model earned a SULEV rating – the 5-speed model’s lean-burn ability traded increased efficiency for slightly higher NOx emissions. The Insight was assembled at the Honda factory in Suzuka, Japan, where the Honda NSX and the Honda S2000 were also assembled. At the 2003 Tokyo Motor Show, Honda introduced the concept car Honda IMAS, an extremely fuel-efficient and lightweight hybrid car made of aluminium and carbon fibre, which was perceived by most observers to be the future direction where the Insight was heading. With its aluminium body and frame, the Insight was an expensive car to produce and was never designed for high-volume sales. Instead, it was designed to be a real world test car for hybrid technology and a gauge to new consumer driving habits. With an aerodynamic fuel-saving shape similar to the Audi A2, and some unconventional body colors it was a bit more than mainstream car buyers could handle, preferring more conservative styles. Production halted announced in May 2006, with plans announced to replace Insight with a new hybrid car, smaller than the eighth generation Civic, but not earlier than in 2009. Ahead of this announcement, Honda stopped selling Insight in the UK, for example, as early as December 2005. To fill the market niche void, in 2002 Honda rolled out a hybrid version of the Honda Civic – Honda Civic Hybrid, followed by Toyota’s redesign of the Prius in 2003 as a 2004 model. Total global cumulative sales for the first generation Insight were 17,020 units. Honda had originally planned to sell 6,500 Insights each year of production.
The fourth generation Integra was introduced in Japan on April 13, 2001 and produced from July 2001 to July 2006. For North America (United States and Canada), it was introduced as the Acura RSX in accordance with Acura’s new alphabetical naming scheme. It also had an entirely new engine, the K-series. The Integra came in two models in the United States, the RSX and the RSX Type-S boasting the K20A2 engine from 2002 to 2004, while the 2005 and 2006 RSX-S came with a K20Z1. The RSX was sold as a Honda Integra in Japan and Australia, markets where Acura did not exist. In March 2006, Honda announced that the Integra would be discontinued in June after its final 300 cars were sold, due to the shrinkage of the coupe market. The reaction of the consumers towards the discontinuation, however, forced Honda to extend production until July 2006 and produce 150 more Integras. The Acura RSX was discontinued as well, as the RSX did not fit within the confines of Acura’s re-structured market strategy. This left the Acura TSX as Acura’s entry-level vehicle. Also, the introduction of the similarly powerful and less expensive 2006 model-year Honda Civic Si was there to fill in the gap left by the RSX. The DC5 Type R (Japanese market only) comes standard with a K20A 220 hp 2.0 litre DOHC i-VTEC four-cylinder engine. The “i” in i-VTEC stands for intelligent VTEC, which employs VTC (Variable Timing Control) to advance or retard the intake cam timing within a 50 degree range. The Integra Type R comes equipped with Recaro seats, four-piston Brembo front brakes, a close ratio six-speed manual transmission, a limited-slip differential, variable back-pressure exhaust system, and a stiffer suspension.
INEOS
Long awaited, the Grenadier is finally starting to reach those who ordered this modern version of a traditional Defender. Not quite the bargain that was promised at launch, it is still considerably cheaper than the latest Land Rover, so it will be interesting to see how strongly it sells over time.
JAGUAR
Jaguar stunned the world with the XK120 that was the star of the Earls Court Motor Show in 1948. Seen in open two seater form, the car was a testbed and show car for the new Jaguar XK engine. The display car was the first prototype, chassis number 670001. It looked almost identical to the production cars except that the straight outer pillars of its windscreen would be curved on the production version. The roadster caused a sensation, which persuaded Jaguar founder and design boss William Lyons to put it into production. Beginning in 1948, the first 242 cars wore wood-framed open 2-seater bodies with aluminium panels. Production switched to the 112 lb heavier all-steel in early 1950. The “120” in the name referred to the aluminium car’s 120 mph top speed, which was faster with the windscreen removed. This made it the world’s fastest production car at the time of its launch. Indeed, on 30 May 1949, on the empty Ostend-Jabbeke motorway in Belgium, a prototype XK120 timed by the officials of the Royal Automobile Club of Belgium achieved an average of runs in opposing directions of 132.6 mph with the windscreen replaced by just one small aeroscreen and a catalogued alternative top gear ratio, and 135 mph with a passenger-side tonneau cover in place. In 1950 and 1951, at a banked oval track in France, XK120 roadsters averaged over 100 mph for 24 hours and over 130 mph for an hour, and in 1952 a fixed-head coupé took numerous world records for speed and distance when it averaged 100 mph for a week. Roadsters were also successful in racing and rallying. The first production roadster, chassis number 670003, was delivered to Clark Gable in 1949. The XK120 was ultimately available in two open versions, first as an open 2-seater described in the US market as the roadster (and designated OTS, for open two-seater, in America), and from 1953 as a drophead coupé (DHC); as well as a closed, or fixed head coupé (FHC) from 1951. A smaller-engined version with 2-litres and 4 cylinders, intended for the UK market, was cancelled prior to production.
The C-Type was built specifically for the race track . It used the running gear of the contemporary road-proven XK120 clothed in a lightweight tubular frame, devised by William Heynes, and clothed in an aerodynamic aluminium body designed by Malcolm Sayer. The road-going XK120’s 3.4-litre twin-cam, straight-6 engine produced between 160 and 180 bhp, but when installed in the C-Type, it was originally tuned to around 205 bhp. Early C-Types were fitted with SU carburettors and drum brakes. Later C-Types, from mid 1953, were more powerful, using triple twin-choke Weber carburettors and high-lift camshafts. They were also lighter, and braking performance was improved with disc brakes on all four wheels, which were something of a novelty at the time, though their adoption started to spread quite quickly after Jaguar had used them. The lightweight, multi-tubular, triangulated frame was designed by William Heynes. Malcolm Sayer designed the aerodynamic body. Made of aluminium in the barchetta style, it is devoid of road-going items such as carpets, weather equipment and exterior door handles. The C-Type was successful in racing, most notably at the Le Mans 24 hours race, which it won twice. In 1951 the car won at its first attempt. The factory entered three, whose driver pairings were Stirling Moss and Jack Fairman, Leslie Johnson and triple Mille Miglia winner Clemente Biondetti, and the eventual winners, Peter Walker and Peter Whitehead. The Walker-Whitehead car was the only factory entry to finish, the other two retiring with lack of oil pressure. A privately entered XK120, owned by Robert Lawrie, co-driven by Ivan Waller, also completed the race, finishing 11th. In 1952 Jaguar, worried by a report about the speed of the Mercedes-Benz 300SLs that would run at Le Mans, modified the C-Type’s aerodynamics to increase the top speed. However, the consequent rearrangement of the cooling system made the cars vulnerable to overheating, and all three retired from the race. The Peter Whitehead-Ian Stewart and Tony Rolt/Duncan Hamilton cars blew head gaskets, and the Stirling Moss-Peter Walker car, the only one not overheating having had a full-sized radiator hurriedly fitted, lost oil pressure after a mechanical breakage. Testing by Norman Dewis at MIRA after the race proved that the overheating was caused more by the revisions to the cooling system than by the altered aerodynamics: the water pump pulley was undersized, so it was spinning too fast and causing cavitation; also the header tank was in front of the passenger-side bulkhead, far from the radiator, and the tubing diameter was too small at 7/8 inch. With the pump pulley enlarged, and the tubing increased to 1 1/4 inch, the problem was eliminated. The main drawback of the new body shape was that it reduced downforce on the tail to the extent that it caused lift and directional instability at speeds over 120 mph on the Mulsanne Straight. These cars had chassis numbers XKC 001, 002 and 011. The first two were dismantled at the factory, and the third survives in normal C-type form. In 1953 C-Types won again, and also placed second and fourth. This time the body was in thinner, lighter aluminium and the original twin H8 sand cast SU carburettors were replaced by three DCO3 40mm Webers, which helped boost power to 220 bhp. Further weight was saved by using a rubber bag fuel tank, lighter electrical equipment and thinner gauge steel for some of the chassis tubes . Duncan Hamilton and Tony Rolt won the race at 105.85 mph (170.35 km/h) – the first time Le Mans had been won at an average of over 100 miles per hour (161 km/h). 1954, the C-Type’s final year at Le Mans, saw a fourth place by the Ecurie Francorchamps entry driven by Roger Laurent and Jacques Swaters. Between 19951 and 1953, a total of 53 C-Types were built, 43 of which were sold to private owners mainly in the US. When new, the car sold for about $6,000, approximately twice the price of an XK120. Genuine cars have increased in value massively in recent years, however buyers do need to be aware that replicas have been produced by a number of companies, though even these are far from cheap to buy thesedays. Cars with true racing provenance are well into the millions now. A C-Type once owned and raced by Phil Hill sold at an American auction in August 2009 for $2,530,000 and another C-type was sold at the Pebble Beach auction in 2012 for $3,725,000, More recently an unrestored C-Type that raced at Le Mans has sold for £5,715,580, during the Grand Prix Historique race meeting in Monaco. In August 2015, an ex-Ecurie Ecosse Lightweight C-type, chassis XKC052 and the second of only three works lightweights, driven by Peter Whitehead and Ian Stewart to fourth at the 1953 Le Mans 24 Hours, fetched £8.4 million at auction in California.
The Jaguar Mark VII is a four-door luxury car produced from 1950 to 1956. Launched at the 1950 British International Motor Show as the successor to the Jaguar Mark V, it was called the Mark VII because there was already a Bentley Mark VI on the market. A version of the Jaguar Mark V with the XK engine had been designated as the Mark VI, but it is thought that only two were built. In its original 1950 form the Mark VII could exceed 100 mph, and in 1952 it became the first Jaguar to be made available with an optional automatic transmission. Mark VIIs were successful in racing and rallying. The Mark VII chassis came from the Jaguar Mark V and the wheelbase remained the same at 10 feet (3,048.0 mm). The new model’s body looked more streamlined, with integrated headlights and mudguards, a two-piece windscreen, and longer rear overhang. As on the Mark V, the rear wheels were partially covered by removable spats. Whereas the Mark V had a prewar pushrod engine originally developed by the Standard Motor Company, the Mark VII was powered by the newly developed XK engine. First seen in production form in the 1948 XK120, the 3442 cc DOHC straight-six provided 160 bhp, the same as in the XK120, and the saloon’s claimed top speed was over 100 mph (160 km/h). When the car was being developed, Jaguar thought it would find most of its customers overseas, mainly because UK car tax at that time penalised buyers of larger-engined cars. However it went into production just as Britain’s postwar economic austerity began to ease, and in 1951 the car’s enthusiastic reception in both the British and American markets prompted Jaguar to relocate production to larger premises, at the Browns Lane plant, which had been built for wartime production as a shadow factory and was now available for immediate use. The published performance figures for the Mark VII were based on the standard 8:1 compression ratio, but as this was unsuitable for the UK market’s low-octane Pool petrol, a 7:1 engine was optional. British motoring magazines tested the car’s performance with the higher compression ratio, using the Ostend to Brussels autoroute in Belgium, where 80 octane fuel was available. A Mark VII tested by The Motor in 1952 had a top speed of 101 mph (163 km/h), accelerated from 0–60 mph (97 km/h) in 13.7 seconds, and returned 17.6 miles per imperial gallon (16.1 L/100 km; 14.7 mpg‑US). The test car cost £1693 including taxes. In 1952 the Mark VII became the first Jaguar to be offered with an automatic transmission. By the time the model was upgraded to M specification in 1954, 20,908 had been produced. The Mark VII M was launched at the British International Motor Show in October 1954. Although the engine continued with the same capacity and 8:1 compression ratio, the introduction of new high-lift cams increased the amount of power to 190 bhp, giving the car a claimed top speed of 104 mph (167 km/h). The four-speed manual gearbox remained the standard fitting but was now constant mesh and fitted with closer ratios, while the Borg Warner automatic, hitherto available only on exported Mark VIIs, now became optional for British buyers. Larger torsion bars were fitted to the front suspension. Flasher-type traffic indicators replaced semaphore arms. Distinguishing the Mark VII M from its predecessor, circular grilles over the horns were installed below the headlights in place of the former integrated auxiliary lamps, which were moved slightly further apart up-rated and mounted on the bumper. Both bumpers now wrapped further around the sides of the car. New large tail lamps with built-in reflectors now incorporated direction indicators. New headlamps were given Le Mans type diffuser glasses. Seats were now full length and incorporated Dunlopillo. In 1956, with the advent of the Suez Crisis, Britain anticipated fuel rationing, and bubble cars appeared on the streets. Jaguar switched focus to their smaller saloons (the Mark I 2.4 had been introduced in 1955), and neither the Mark VII M nor any of its increasingly powerful but fuel-thirsty successors would match the production volumes of the original Jaguar Mark VII. Nevertheless, before it was superseded by the Mark VIII, the Mark VII M achieved 10,061 sales during its two-year production run
One of the most loved Jaguars of all time, both when it was new, and still now, is the Mark 2 saloon. Many will tell you that it is not the 3 Series BMW that “invented” the “compact sports saloon” car class, but this model, which dates back to 1959. A thorough revision of the small Jaguar saloon that had joined the range in 1955, the Mark 2 was notable in that it was the first car to use the Arabic numeral in its name, as opposed to the Roman numerals of the larger Jaguar models. At launch, the earlier model which had hitherto been known by its engine size was christened the Mark 1. Although clearly based on that car, the updated car looked significantly different, with an increase of 18% in cabin glass area greatly improving visibility. The car was re-engineered above the waistline. Slender front pillars allowed a wider windscreen and the rear window almost wrapped around to the enlarged side windows now with the familiar Jaguar D-shape above the back door and fully chromed frames for all the side windows. The radiator grille was amended and larger side, tail and fog lamps repositioned. Inside a new heating system was fitted and ducted to the rear compartment (although still notoriously ineffective). There was an improved instrument layout that became standard for all Jaguar cars until the XJ Series II of 1973. As well as the familiar 2.4 and 3.4 litre engines, what made this car particularly special was that it was also offered with the potent 220 bhp 3.8 litre unit that was fitted to the XK150 and which would later see service in the E Type. This gave the car a 0 – 60 time of around 8.5 seconds and a top speed of 125 mph. No wonder that the Mark 2 became popular as a get-away car for the criminal fraternity, and to keep up with and catch them, many police forces bought the car as well. With revised suspension and standard four wheel disc brakes, the car was effective on the track, taking plenty of class wins when new, and it is still popular in historic racing circles today. The quickest and most successful private entries came from John Coombs, a man with significant race experience who operated a large Jaguar dealership in Guildford. Coombs would undertake modifications to meet the demands of his customers, so not all the cars that he worked on are the same. Jaguar replaced the Mark 2 with simplified and slightly more cheaply finished 240 and 340 models, as an interim measure until an all-new model was ready to take over from them. The 3.8 litre disappeared from the range at this time, but in the 7 years it had been in production, it had been the best seller of the range, with around 30,000 cars produced, as compared to 28,666 of the 3.4 litre and 25,741 of the 2.4 litre model.
There was also an example of the S Type here. Having made 2 significant new car launches in 1961 at the top of the range, with the gargantuan Mark X and the E Type, for their next new model, Jaguar turned their attention lower down, believing that the Mark 2, based on design which had first launched in 1955 would need updating to keep it competitive. Sir William Lyons believed that the car would need to adopt some of the innovations that had been seen on the Mark X and the E Type, such as Jaguar’s new independent rear suspension and the triple SU carburettor version of the 3.8-litre XK engine Accordingly work started on a call which was codenamed “Utah Mk III”, (the Mark 2 having been “Utah Mk II”) and which made its public debut as the S Type. Both time and budget were limited, so rather than being an all new car, the S Type was a major redevelopment of the Mark 2. It used a mid-scale version of the Mark X independent rear suspension to replace the Mark 2’s live rear axle and featured revised styling, with the changes more obvious at the back with a longer tail giving more boot space. rear bodywork, with only minor changes to the front and a slightly flattened roofline, which is one reason why a lot of people have trouble distinguishing the car from its smaller brother. A more luxurious interior was fitted, with greater use of burr walnut and leather than was to be found in the Mark 2. The S Type was available with either 3.4 or 3.8-litre XK engines but only in twin carburettor form because the triple carburettor set-up would not fit into what was essentially still the Mark 2 engine bay. By the time of the S Type’s release in 1963, the Mark 2 was still selling strongly, despite its age, whereas the Mark X was selling less well than had been hoped, especially in its intended market of the USA, so Sir William decided to retain all three models in the Jaguar range concurrently. Sales of the S Type were relatively modest throughout its 6 year production life, with 9928 of the 3.4 litre and 15.065 of the 3.8 litre cars made.
The Series 1 E Type was introduced, initially for export only, in March 1961. The domestic market launch came four months later in July 1961. The cars at this time used the triple SU carburetted 3.8-litre six-cylinder Jaguar XK6 engine from the XK150S. Earlier built cars utilised external bonnet latches which required a tool to open and had a flat floor design. These cars are rare and more valuable. After that, the floors were dished to provide more leg room and the twin bonnet latches moved to inside the car. The 3.8-litre engine was increased to 4,235 cc in October 1964. The 4.2-litre engine produced the same power as the 3.8-litre (265 bhp) and same top speed (150 mph), but increased torque approximately 10% from 240 to 283 lb/ft. Acceleration remained pretty much the same and 0 to 60 mph times were around 6.4 seconds for both engines, but maximum power was now reached at 5,400 rpm instead of 5,500 rpm on the 3.8-litre. That all meant better throttle response for drivers that did not want to shift down gears. The 4.2-litre’s block was completely redesigned, made longer to accommodate 5 mm (0.20 in) larger bores, and the crankshaft modified to use newer bearings. Other engine upgrades included a new alternator/generator and an electric cooling fan for the radiator. Autocar road tested a UK spec E-Type 4.2 fixed head coupé in May 1965. The maximum speed was 153 mph, the 0–60 mph time was 7.6 seconds and the 1⁄4 mile from a standing start took 15.1 seconds. They summarised it as “In its 4.2 guise the E-Type is a fast car (the fastest we have ever tested) and offers just about the easiest way to travel quickly by road.”. Motor magazine road tested a UK spec E-Type 4.2 fixed head coupé in Oct 1964. The maximum speed was 150 mph, the 0–60 mph time was 7 seconds and the 1⁄4 mile time was 14.9 seconds. They summarised it as “The new 4.2 supersedes the early 3.8 as the fastest car Motor has tested. The absurd ease which 100 mph can be exceeded in a 1⁄4 mile never failed to astonish. 3,000 miles (4,828 km) of testing confirms that this is still one of the world’s outstanding cars”. All E-Types featured independent coil spring rear suspension designed and developed by R J Knight with torsion bar front ends, and four wheel disc brakes, in-board at the rear, all were power-assisted. The Coventry engineers spared nothing with regards to high automotive technology in braking. Like several British car builders of the middle and late 1950s, the four-wheel disc brakes were also used in that era by Austin-Healey, MG,putting the British far ahead of Ferrari, Maserati, Alfa Romeo, Porsche, and Mercedes-Benz. Even Lanchester tried an abortive attempt to use copper disc brakes in 1902. Jaguar was one of the first vehicle manufacturers to equip production cars with 4 wheel disc brakes as standard from the XK150 in 1958. The Series 1 (except for late 1967 models) can be recognised by glass-covered headlights (up to 1967), small “mouth” opening at the front, signal lights and tail-lights above bumpers and exhaust tips under the number plate in the rear. 3.8-litre cars have leather-upholstered bucket seats, an aluminium-trimmed centre instrument panel and console (changed to vinyl and leather in 1963), and a Moss four-speed gearbox that lacks synchromesh for first gear (“Moss box”) on all except very last cars. 4.2-litre cars have more comfortable seats, improved brakes and electrical systems, and, obviously, an all-synchromesh Jaguar designed four-speed gearbox. 4.2-litre cars also have a badge on the boot proclaiming “Jaguar 4.2 Litre E-Type” (3.8 cars have a simple “Jaguar” badge). Optional extras included chrome spoked wheels and a detachable hard top for the OTS. When leaving the factory the car was originally fitted with Dunlop 6.40 × 15-inch RS5 tyres on 15 × 5K wire wheels (with the rear fitting 15 × 5K½ wheels supplied with 6.50 X15 Dunlop Racing R5 tyres in mind of competition). Later Series One cars were fitted with Dunlop 185 – 15 SP41 or 185 VR 15 Pirelli Cinturato as radial ply tyres. A 2+2 version of the fastback coupé was added in 1966. The 2+2 offered the option of an automatic transmission. The body is 9 in (229 mm) longer and the roof angles are different. The roadster and the non 2+2 FHC (Fixed Head Coupé) remained as two-seaters. Less widely known, right at the end of Series 1 production, but prior to the transitional “Series 1½” referred to below, a small number of Series 1 cars were produced with open headlights. These Series 1 cars had their headlights modified by removing the covers and altering the scoops they sit in, but these Series 1 headlights differ in several respects from those later used in the Series 1½ (or 1.5), the main being they are shorter at 143 mm from the Series 1½ at 160 mm. Production dates on these machines vary but in right-hand drive form production has been verified as late as July 1968. They are not “rare” in the sense of the build of the twelve lightweights, but they are certainly uncommon; they were not produced until January 1967 and given the foregoing information that they were produced as late as July 1968, it appears that there must have been an overlap with the Series 1.5 production, which began in August 1967 as model year 1968 models. These calendar year/model year Series 1 E-Types are identical to other 4.2-litre Series 1 examples in every respect except for the open headlights; all other component areas, including the exterior, the interior, and the engine compartment are the same, with the same three SU carburettors, polished aluminium cam covers, center dash toggle switches, etc. Following the Series 1 there was a transitional series of cars built in 1967–68 as model year 1968 cars, unofficially called “Series 1½.” Due to American pressure the new features were not just open headlights, but also different switches (black rocker switches as opposed to the Series 1 toggle switches), de-tuning for emissions (using two Zenith-Stromberg carburettors instead of the original three SUs) for US models, ribbed cam covers painted black except for the top brushed aluminium ribbing, bonnet frames on the OTS that have two bows, and other changes. Series 1½ cars also have twin cooling fans and adjustable seat backs. The biggest change between 1961–1967 Series 1 E-Types and the 1968 Series 1.5 was the reduction in the number of carburettors from 3 to just 2 (North America), resulting in a loss in horsepower. Series 2 features were gradually introduced into the Series 1, creating the unofficial Series 1½ cars, but always with the Series 1 body style. A United States federal safety law affecting 1968 model year cars sold in the US was the reason for the lack of headlight covers and change in dash switch design in the “Series 1.5” of 1968. An often overlooked change, one that is often “modified back” to the older style, is the wheel knock-off “nut.” US safety law for 1968 models also forbade the winged-spinner knockoff, and any 1968 model year sold in the US (or earlier German delivery cars) should have a hexagonal knockoff nut, to be hammered on and off with the assistance of a special “socket” included with the car from the factory. This hexagonal nut carried on into the later Series 2 and 3. The engine configuration of the US Series 1.5s was the same as is found in the Series 2. An open 3.8-litre car, actually the first such production car to be completed, was tested by the British magazine Motor in 1961 and had a top speed of 149.1 mph and could accelerate from 0 to 60 mph in 7.1 seconds. A fuel consumption of 21.3 mpg was recorded. The test car cost £2,097 including taxes.The cars submitted for road test by the motoring journals of the time (1961) such as Motor, Autocar and Autosport magazines were prepared by the Jaguar works. This work entailed engine balancing and subtle tuning work such as gas-flowing checking the cylinder heads but otherwise production built engines. Both of the well-known 1961 road test cars: the E-Type coupé Reg. No. 9600 HP and E-Type Convertible Reg. No. 77 RW, were fitted with Dunlop Racing Tyres on test, which had a larger rolling diameter and lower drag coefficient. This goes some way to explaining the 150 mph (240 km/h) maximum speeds that were obtained under ideal test conditions. The maximum safe rev limit for standard 6-cylinder 3.8-litre E-Type engines is 5,500 rpm. The later 4.2-Litre units had a red marking on the rev counter from just 5,000 rpm. Both 3.8 test cars may have approached 6,000 rpm in top gear when on road test, depending on final drive ratio. Production numbers were as follows: 15,490 of the 3.8s, 17,320 of the 4.2s and 10,930 of the 2+2s. And by body style there were 15,442 of the FHC, 17,378 of the OTS and 5,500 of the 2+2, making a total of 38,419 of the Series 1 car.
The Series 2 introduced a number of design changes, largely due to U.S. National Highway Traffic and Safety Administration mandates. The most distinctive exterior feature is the absence of the glass headlight covers, which affected several other imported cars, such as the Citroën DS, as well. Unlike other cars, this step was applied worldwide for the E-Type. Other hallmarks of Series 2 cars are a wrap-around rear bumper, larger front indicators and tail lights re-positioned below the bumpers, and an enlarged grille and twin electric fans to aid cooling. Additional U.S.-inspired changes included a steering lock which moved the ignition switch to the steering column, replacing the dashboard mounted ignition and push button starter, the symmetrical array of metal toggle switches replaced with plastic rockers, and a collapsible steering column to absorb impact in the event of an accident. New seats allowed the fitment of head restraints, as required by U.S. law beginning in 1969. The engine is easily identified visually by the change from smooth polished cam covers to a more industrial “ribbed” appearance. It was de-tuned in the US with twin two-barrel Strombergs replacing three SUs. Combined with larger valve clearances horsepower was reduced from 265 to 246 and torque from 283 to 263. Air conditioning and power steering were available as factory options. Production totalled 13,490 of all types, with 4885 of the FHC, 5,326 of the 2+2 and 8,628 of the OTS model
The E-Type Series 3 was introduced in 1971, with a new 5.3 L Jaguar V12 engine, uprated brakes and standard power steering. Optionally an automatic transmission, wire wheels and air conditioning were available. The V12 was equipped with four Zenith carburettors, and as introduced produced a claimed 272 bhp, more torque, and a 0–60 mph acceleration of less than seven seconds. The short wheelbase FHC body style was discontinued, with the Series 3 available only as a convertible and 2+2 coupé. The newly used longer wheelbase now offered significantly more room in all directions. The Series 3 is easily identifiable by the large cross-slatted front grille, flared wheel arches, wider tyres, four exhaust tips and a badge on the rear that proclaims it to be a V12. The first published road test of the series 3 was in Jaguar Driver, the club magazine of the Jaguar Drivers’ Club, the only owners club to be officially sanctioned by Sir William Lyons and Jaguar themselves. The road test of a car provided by Jaguar was published ahead of all the national and international magazines. Cars for the US market were fitted with large projecting rubber bumper over-riders (in 1973 these were on front, in 1974 both front and rear) to meet local 5 mph impact regulations, but those on European models were considerably smaller. US models also have side indicator repeats on the front wings. There were also a very limited number of six-cylinder Series 3 E-Types built. These were featured in the initial sales procedure but the lack of demand stopped their production. The V12 Open Two Seater and V12 2+2 were factory fitted with Dunlop E70VR − 15-inch tyres on 15 × 6K wire or solid wheels. The final production E-Type OTS Roadster was built in June 1974. Total production was 15,290.
Now over 45 years old is the elegant XJC. First shown in September 1973, at the same time as the Series 2 versions of the Jaguar XJ6/12 and related Daimler models, it soon became clear that this version was not ready for production, with problems surrounding the window sealing. The economic troubles unfolding in the western world at this time seem to have reduced further any sense of urgency about producing and selling the cars, so it was a further two years before XJ Coupés finally started to appear in Jaguar showrooms. The Coupé was based on the short-wheelbase version of the XJ. The elongated doors were made out of a lengthened standard XJ front door, with the weld seams clearly visible under the interior panels where two front door shells were grafted together with a single outer skin. Even with the delay, these cars suffered from water leaks and wind noise. All coupes came with a vinyl roof as standard. Since the coupe lacked B-pillars, the roof flexed enough that the paint used by Jaguar at the time would develop cracks. More modern paints do not suffer such problems, so whenever a coupe is repainted it is viable to remove the vinyl. Today many XJ-Cs no longer have their vinyl roof, also removing the threat of roof rust. Some owners also modified their XJ-C by changing to Series III bumpers. This lifted the front indicators from under the bumper and provided built in rear fog lights. Both six and twelve-cylinder models were offered, along with Daimler badged versions. However, the delayed introduction, the labour-intensive work required by the modified saloon body, the higher price than the four-door car, and the focus on the new XJ-S all contributed to a short production run of just two years. 6,505 of the 4.2 and 1,873 of the V12 Jaguar models were made, along with 1677 Daimler Sovereign and 477 Double Six models, making a total of 10,426. Nowadays, the cars are much respected for their elegant design.
Successor to the E Type was the XJ-S, launched in September 1975, and to a not universally approving public. This was a very different sort of sporting Jaguar, more boulevard cruiser than sports car, even though the car had plenty of appeal with its smooth V12 engine which gave it genuine 150 mph performance. Press reports were favourable, but a thirsty V12 and a car with inconsistent build quality and styling that not everyone warmed to meant that sales were slow, and they got slower as the decade passed, leading questions to be asked as to whether the car should continue. As well as sorting the saloon models, Jaguar’s Chairman, John Egan, put in place a program to improve the XJ-S as well, which also benefitted from the HE engine in early 1981. A Cabrio model and the option of the new 3.6 litre 6 cylinder engine from 1984 widened the sales appeal, and the volumes of cars being bought started to go up. A fully open Convertible, launched in 1988 was the model many had been waiting for, and by this time, although the design was over 10 years old, it was now brimming with appeal to many. 1991 saw an extensive facelift which changed the styling details as well as incorporating the latest mechanical changes from the Jaguar parts bin, making the XJS (the hyphen had been dropped from the name in 1990) a truly desirable car. Seen here were both pre- and post-facelift models as well as one of the rare TWR-converted XJR-S cars. These were made between 1988 and 1993 by the newly formed JaguarSport, a separate company owned in a ratio of 50:50 by Jaguar and TWR Group Limited specialising in developing high performance Jaguar sports cars. The car had a distinctive body kit, special alloy wheels, a unique suspension system utilising modified coil springs and Bilstein shocks, a luxurious interior with Connolly Autolux leather along with walnut wood trim, and handling improvements. The first 100 of these cars were named “Celebration Le Mans” to commemorate Jaguar’s 1988 win at the 24 Hours of Le Mans and were only sold in the UK. Between 1988 and 1989, a total of 326 XJR-S cars were produced with the 5.3 litres engine with a power output of 318 bhp. After September 1989, the displacement of the engine was increased to 5,993 cc and it was now equipped with Zytek fuel injection and engine management system. This was different from the standard 6.0-litre engine used in the late XJS models and was unique to this model. The power output was raised to 334 bhp at 5,250 rpm and 495 Nm (365 lb/ft) of torque at 3,650 rpm due to a higher compression ratio of 11.0:1, a new forgedsteel crankshaft, increased bore and forged alloy pistons. A modified air intake system and a low loss dual exhaust system was also standard on the model. The engine was mated to the 3-speed GM400 automatic transmission utilising a recalibrated valve body and had faster shift times. The car was equipped with Dunlop D40 M2 tyres for better grip. These modifications resulted in a top speed of 260 km/h (160 mph). A total of 787 coupés and 50 convertible XJR-S were built for the world market.
Throughout the 1970s Jaguar had been developing “Project XJ40”, which was an all-new model intended to replace the original XJ6. Scale models were being built as early as 1972. Due to the 1973 oil crisis and problems at parent company British Leyland, the car was continually delayed. Proposals from both Jaguar’s in-house designers and Pininfarina were received. Eventually, it was decided an internal design would be carried through to production and, in February 1981, the British Leyland board approved £80 million to produce the new car. Launch was originally scheduled for 1984, but following Jaguar’s de-merger from BL and privatisation that same year, the company’s CEO Sir John Egan took advantage of the resurgence in sales of the existing Series III XJ6 (particularly in the lucrative North American market) to delay the XJ40’s launch a further two years to allow for more development time. The XJ40 was at the time, the most extensively tested vehicle the company had ever developed. Designs for the XJ40 pioneered significant improvements to how Jaguar cars were designed, built, and assembled. Among these improvements was a 25% reduction in the number of bodywork panels required per car (e.g. three pressings needed for a Series 3 door compared with one for a XJ40 door), resulting in not only a more efficient assembly process, but also a weight saving and a stiffer structure. Initially, only two engines were offered across the XJ40 models: a 2.9 L and a 3.6 L version of the AJ6 inline-six. In 1990 the 3.6 L was replaced by a 4.0 L model and in 1991 the 2.9 L was replaced by a 3.2 L model. During the development of the XJ40, British Leyland had considered providing the Rover V8 engine for the car, which would have eliminated the need for future Jaguar engine production. The XJ40 bodyshell was allegedly engineered to prevent fitting V-configuration engines – in particular the Rover V8 – which British Leyland management had desired; this delayed the introduction of the V12-powered XJ12 until 1993 as the front structure of the XJ40 had to be extensively redesigned. As a consequence, the preceeding Series III XJ was kept in production in V12 form to cater for this market need until 1992. The automatic gearbox used in the 2.9 L, 3.2 L and 3.6 L six-cylinder cars was the four-speed ZF 4HP22. On the 4.0 L, the four-speed ZF 4HP24 was used. A stronger automatic gearbox was required for the V12-equipped cars, and the four-speed GM 4L80-E was selected. The manual gearbox fitted to early cars was the five-speed Getrag 265, while later cars received the Getrag 290. The automatic transmission selector was redesigned to allow the manual selection of forward gears without accidentally selecting neutral or reverse. This new feature was dubbed the “J-Gate” and remained a staple of all Jaguar models up until the 2008 Jaguar XF, when shift by wire technology rendered it redundant – all subsequent Jaguar models now use a rotary knob for transmission mode selection. The base XJ6 of the model range was modestly equipped; extra-cost options included alloy wheels, anti-lock brakes, air conditioning, leather upholstery, and an automatic transmission. The exterior featured two pairs of circular headlamps and black powder-coated window frames. The Sovereign model came equipped with significantly more features than the base XJ6. Included was air conditioning, headlamp washers, a six-speaker sound system, rear self-levelling suspension (SLS), anti-lock braking system, and inlaid burl walnut wood trim (pre-MY1991). The headlamps fitted were the rectangular single units. The window frames were made from stainless steel. Further variants would follow, before the car’s replacement in 1994.
JENSEN
With the demise of the Austin-Healey 3000, Donald Healey opened discussions with Jensen Motors, who had built the bodies for Healey’s Austin-Healey cars. The largest Austin Healey Car Dealer in the US, Kjell Qvale was also keen to find a replacement to the Austin-Healey 3000 then became a major shareholder of Jensen, making Donald Healey the chairman. The Jensen-Healey was designed in a joint venture by Donald Healey, his son Geoffrey, and Jensen Motors. Hugo Poole did the styling of the body, the front and back of which were later modified by William Towns to take advantage of the low profile engine and to allow cars for the U.S. market to be fitted with bumpers to meet increasing US regulations. The unitary body understructure was designed by Barry Bilbie, who had been responsible for the Austin-Healey 100, 100-6 and 3000 as well as the Sprite. It was designed to be cheap to repair, with bolt-on panels, to reduce insurance premiums. Launched in 1972 as a fast luxurious and competent convertible sports car, it was positioned in the market between the Triumph TR6 and the Jaguar E-Type. The 50/50 weight balance due to the all alloy Lotus engine led to universal praise as having excellent handling. It all looked very promising, but it was the engine which was the car’s undoing. Various engines had been tried out in the prototype stage including Vauxhall, Ford and BMW units. The Vauxhall 2.3 litre engine met United States emission requirements but did not meet the power target of 130 hp. A German Ford V6 was considered but industrial action crippled supply. BMW could not supply an engine in the volumes needed. Colin Chapman of Lotus offered, and Jensen accepted his company’s new 1973 cc Lotus 907 engine, a two-litre, dual overhead cam, 16 valve all-alloy powerplant. This multi-valve engine is the first to be mass-produced on an assembly line. This setup put out approximately 144 bhp, topping out at 119 mph and accelerating from zero to 60 mph in 8.1 seconds. The problem was that it was a brand new engine, and Lotus were effectively using Jensen-Healey to complete the development. There were numerous issues early on, which meant that warranty claims rocketed and then sales stalled, so whilst this soon became the best selling Jensen of all time, it also helped seal the fate of the company. In total 10,503 (10 prototypes, 3,347 Mk.1 and 7,146 Mk.2) were produced by Jensen Motors Ltd. A related fastback, the Jensen GT, was introduced in 1975. Values are surprisingly low these days, which is a shame, as the problems are long since ironed out, and the resulting car looks good and goes well.
KIA
The Kia Sephia is a compact car that was manufactured by the South Korean automaker Kia Motors from September 1992 to 2003. The first generation Sephia was badged Kia Mentor in some markets, and as the Timor S515/S516 in Indonesia. This convention continued on with the second generation version, which was also badged Kia Shuma and Kia Spectra. The first-generation Kia Sephia is the first car that was actually designed by Kia with their own chassis. Engines available were the B-series engines, with the 1.5-liter rated at 79 hp, the 1.6-litre 105 hp, and the 1.8-litre BP engine at 122 hp from 1994. The car was presented in September 1992 to replace the aging Capital, which was rapidly losing market share. The Sephia proved quite successful, selling over 100,000 in its first full year in the home market. A total of 472,920 Sephias were sold over the life of the original Sephia. In the United States, sales began in late 1993 for the 1994 model year. This was the first Kia to be exported to the US. An update came in the 1995 model year when grille and tail lights were restyled and all US-market Sephias except California-market RS/LS models got upgraded to the new 1.8-liter DOHC four-cylinder BP engine as used in the Mazda Familia (BG). Kia licensed the engine design from Mazda, but manufactured it themselves. It was launched in Europe in the spring of 1994 as the Kia Sephia in some markets and in others, including the United Kingdom, as the Kia Mentor. It was similar in size to best-selling European small family cars like the Ford Escort, but was priced similarly to smaller cars like the Ford Fiesta. Its key rivals in Europe were budget-priced Eastern European and Far Eastern imported products including the Daewoo Nexia, Hyundai Accent, Proton Persona and Skoda Felicia. In Brazil, the car went on the market in March 1994. It was only offered with the 1.5-liter twin cam engine with 112 PS and was considered a competitor to the domestically built Chevrolet Omega and Volkswagen Santana. To make a car suitable for the Brazilian market, Kia went through the trouble of studying Brazilian road surfacing and importing 1,000 litres (260 US gal) of Brazilian gasoline to properly program the engine management. Kia presented a conceptual convertible version of the first generation Sephia, which was named “Kia Sephia Cabrio” at some auto shows.
LAGONDA
The Lagonda 16/80 was a sports touring car introduced by Lagonda in 1932, replacing the company’s 4-cylinder 2-litre model. The first part of its name referred to its Fiscal horsepower rating of 16 (actually 15.7). Under naming conventions common at the time, the second number in its name might have referred to the car’s bhp. However, actual power output fell a long way short of 80 bhp, leading one well informed owner to suggest that it may have referred to the car’s claimed top speed of 80 mph (129 km/h). The car was unusual in being the only Lagonda to be offered with a Crossley engine. However, each engine purchased was stripped down by Lagonda, checked and rebuilt according to their own specifications before becoming the heart of a 16/80. It was fitted with twin HV3 type SU carburettors. In 1933 the option of a E.N.V preselector gear-box became available. When new the car was guaranteed for nine years. However, a condition of the guarantee was that it be returned to the manufacturers every three years for a thorough overhaul and update, which would have been provided only at considerable cost. The car was dropped by Lagonda, shortly before the firm’s dramatic rescue from financial collapse by Alan Good, at the end of in 1934.
LAMBORGHINI
The Aventador SVJ is the fastest Lamborghini you can buy new. With 759bhp and 531lb ft on tap, the SVJ (Superveloce Jota) matches the power output of the ultra-low-volume Centenario and is 29bhp more powerful than the Aventador S. This power figure is produced by a tuned version of Lamborghini’s naturally aspirated 6.5-litre V12 and is transmitted to the road through all four wheels. Four-wheel steering is also fitted, as per the Aventador S, but the SVJ builds upon the standard car’s agility with a second generation of its active aerodynamics system (ALA 2.0), with improvements over the first system including redesigned air inlets and aero channel designs. The system aided the SVJ in lapping the Nürburgring circuit in 6min 44.97sec – a new record for a production car. Lamborghini claims the SVJ’s downforce is 40% greater than that of the Aventador SV – its former performance flagship. Larger side air intakes, a huge rear wing, tweaked underbody with vortex generators and prominent rear diffuser and aerodynamic bodywork at the front help to achieve the improved aero figure. The chassis is tweaked for additional stiffness – a 50% stiffer anti-roll bar compared with the Aventador SV has been fitted, while the suspension’s damping force range is increased by 15% over the SV. Other tweaks to the suspension are claimed to improve the car’s on-track stability. A re-engineered exhaust system reduces back pressure and has been fettled to produce a “more emotive’ sound, as well as being lighter than the standard set-up, with higher exit points. Also among the mechanical upgrades is a tweaked seven-speed automated manual gearbox, while the four-wheel drive system now sends 3% more torque rearwards. The stability control and ABS systems are tweaked to accommodate the greater grip provided by the active aerodynamics. The car’s exclusive aluminium Nireo wheels are shod in specially made Pirelli P Zero Corsa tyres and are stiffer, with a bespoke tread design for the Aventador SVJ. Lamborghini plans to build 900 SVJs, with UK prices starting at around £356,000 when deliveries begin in early 2019. An additional 63 units will be produced in 63 Edition guise, of which the Pebble Beach reveal car is one, celebrating the brand’s 1963 inception. These feature a bespoke colour and trim and will carry a higher price tag than the regular SVJ.
The Lamborghini Huracán (Spanish for “hurricane”; [uɾaˈkan]) is a sports car replacing the previous V10 offering, the Gallardo. The Huracán was revealed online in December 2013, making its worldwide debut at the 2014 Geneva Auto Show, and was released in the market in the second quarter of 2014. The Huracán’s name (huracán being the Spanish word for hurricane) is inspired by a Spanish fighting bull. Historic Spanish fighting bulls have traditionally provided the names of most Lamborghini car models. Huracán was a bull known for its courage that fought in 1879. The Huracán maintains the 5.2-litre naturally aspirated Audi/Lamborghini V10 engine with an additional 0.2 litres, compared to the Gallardo, tuned to generate a maximum power output of 602 bhp/610 PS. To ensure its balance and performance, the car is mid-engined. The engine has both direct fuel injection and multi-point fuel injection. It combines the benefits of both of these systems; it is the first time this combination is used in a V10 engine. To increase its efficiency, the Huracán’s engine also includes a start-stop system.[citation needed] The firing order of the engine is 1, 6, 5, 10, 2, 7, 3, 8, 4, 9. This is printed on a metal plate on the top of the engine, as with all other Lamborghini models. The drag coefficient of Cd=0.39 was undisclosed until 2021. The LP 610-4 designation comes from the car having 610 PS and four-wheel drive, while LP stands for “Longitudinale Posteriore”, which refers to the longitudinal mid-rear engine position. Changes from the Gallardo include full LED illumination, a 12.3 inch full-colour TFT instrument panel, fine napa leather and Alcantara interior upholstery, redesigned dashboard and central tunnel, Iniezione Diretta Stratificata (IDS, essentially an adapted version of parent Audi’s Fuel Stratified Injection) direct and indirect gasoline injections, engine Stop & Start technology, EU6 emissions regulation compliance, Lamborghini Doppia Frizione (LDF) 7-speed dual-clutch transmission with 3 modes (STRADA, SPORT and CORSA), 20-inch wheels, carbon-ceramic braking system, optional Lamborghini Dynamic Steering variable steering system and MagneRide electromagnetic damper control. The main competitors of the Huracán include the McLaren 650S (as well as the 720S), the Audi R8, the Ferrari 458 Speciale and the 488 GTB. Extra options that increase the price of the car include interior enhancements, special paint schemes, improved suspension, and a lifting system, as well as multiple components optionally available in carbon fibre, rather than aluminium. The convertible variant of the Huracán LP 610-4 was revealed at the Frankfurt Motor Show on 14 September 2015. The 5.2-litre naturally-aspirated V10 engine is the same as the coupé and generates a maximum power output of 602 bhp/610 PS. Acceleration from 0 to 100 km/h (62 mph) takes 3.4 seconds and the top speed is 323 km/h (201 mph). It has the same 7-speed Lamborghini Doppia Frizione (LDF) dual-clutch transmission as that of the coupé. The Spyder has a dry weight of 1,542 kg (3,400 lb) which is 120 kg (265 lb) more than the coupé due to chassis reinforcing components. The Spyder has a CO2 emission of about 280 g/km. Unveiled at the 2016 Geneva Motor Show, the Huracán LP 580-2 is a lower cost derivative of the Huracán LP 610-4 that differs mostly in having the 5.2 L V10 engine detuned to 572 bhp/580 PS and 533 Nm (393 lb/ft) of torque along with having a rear wheel drive drivetrain instead of the all-wheel drive drivetrain found in the standard Huracán. Lamborghini claims the car will accelerate from 0–100 km/h (0–62 mph) in 3.4 seconds and 0–200 km/h (0–124 mph) in 10.1 seconds. The top speed is claimed to be as high as 320 km/h (199 mph). It also features slight visual differences to the standard variant of the car – with a different front fascia and larger air vents at the rear of the car for improved brake cooling. The seven-speed dual-clutch transmission is the same as used in the standard LP 610–4. The base level LP 580-2 costs US$201,100, about US$40,000 less than the base level LP 610–4. A convertible variant of the Huracán LP 580-2 was unveiled at the Los Angeles Auto Show on 16 November 2016. The 5.2-litre naturally-aspirated V10 engine is the same as in the coupé, and generates a maximum power output of 572 bhp/580 PS. 0 to 100 km/h (62 mph) takes 3.6 seconds and the top speed is 320 km/h (199 mph). A track oriented variant of the Huracán, called the Performante, was unveiled at the 2017 Geneva Motor Show. The Performante underwent various exterior changes with the most noticeable being the front and rear bumpers. Carbon fibre is used for the bumpers and the side skirts. An adjustable carbon fibre rear wing has been added to increase downforce. The position of the exhaust has also been changed, and is now just a bit above the rear diffuser. The interior also underwent noticeable changes, now sporting new seats and a new digital speedometer (similar to that of the Aventador SV’s speedometer). The Performante’s 5.2-litre V10 has been tuned to have a power output of 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The weight has also decreased by 40 kg (88 lb), courtesy of the forged aluminium and forged carbon fibre body components (first used in the construction of the Sesto Elemento). All the new aero components on the car have active aerodynamic capability and help keep the car stable at high speeds. The Performante is capable of accelerating from 0–100 km/h (0–62 mph) in 2.9 seconds, 0–200 km/h (0–124 mph) in 8.9 seconds. It also has a theoretical top speed of 325 km/h (200 mph). The car has been stiffened by 10% with new springs, roll bars, and radial axial arm bushings. The magnetorheological suspension has been reworked to give a driver a serious track experience. The Lamborghini Dynamic Steering has been re-calibrated. The Performante utilises Lamborghini’s new ALA (Aerodinamica Lamborghini Attiva) system, which is said to be 80% lighter than regular sports car hydraulic systems. According to Lamborghini, ALA is also said to provide 750% more downforce than the standard Huracán. The Lamborghini Huracán Performante Spyder was unveiled at the 2018 Geneva Motor Show. It takes much of the styling inspiration from the coupé and the outgoing LP 610-4 Spyder. The Spyder is identical to the coupé from performance and technological standpoint, but the acceleration time from 0–60 mph has risen by one-tenth of a second and stands at 3.1 seconds while the 0–200 km/h (0–124 mph) has risen by four-tenths of a second and stands at 9.3 seconds. Due to the loss of the roof, the Spyder weighs 125 kg (276 lb) more than the coupé due to chassis reinforcing components. Top speed remains the same as well and stands at 325 km/h (202 mph). Deliveries of the Spyder began in the fourth quarter of 2018. The Huracán received a mid-cycle update in 2019, now being called the Huracán Evo. It now shares its engine and some of the technology with the Performante variant. The updated version of the Huracán has a more aggressive design language, the new front bumper has integrated aeroblades for improved downforce along with the rear styling inspired by the Performante variant, having the same rear diffuser, exhaust pipe position and radiators. A new ducktail spoiler improves downforce by 5 times as compared to the outgoing model. The engine is shared with the Performante and generates 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The exhaust system is more refined and has titanium intake valves. This allows the car to achieve a 0–60 mph) acceleration time of 2.9 seconds, 0–200 km/h (0–124 mph) acceleration time of 9 seconds and a top speed of 325 km/h (202 mph). The car has a braking distance from 100–0 km/h (62–0 mph) of 104 ft (32 m). The Huracán Evo has a rear-wheel steering system for improved handling and a torque vectoring system. A new central processing unit controls the various functions of the car and monitors various settings. The control system is controlled by the new infotainment system (via an 8.4 inch touchscreen) dubbed the Lamborghini Dinamica Veicolo Integrata which has integrated both Apple CarPlay and Android Auto. The infotainment system predicts the driving modes by a feed forward logic. The feed forward logic works by sensors monitoring the lateral, longitudinal and vertical accelerations, as well as roll, pitch and yaw rate to predict the best possible driving mode for the driver. The magnetorheological suspension is also revised and now uses electromagnetic current to adjust the suspension system in accordance with the driving mode. The transmission system from the outgoing model is retained which transfers power to all four wheels. A new Ego mode allows the driver to change driving settings to their own preference. The Huracán Evo Spyder was introduced online in February 2019. The Spyder has the same enhancements as the coupé but is 100 kg (220 lb) heavier due to the addition of chassis reinforcement components owing to the loss of the roof. The car has the same canvas folding soft top as the outgoing model which takes 17 seconds for operation and is operable at speeds up to 50 km/h (31 mph). The Spyder can accelerate to 100 km/h (62 mph) in 3.1 seconds from a standstill, to 200 km/h (124 mph) in 9.3 seconds and can attain a top speed of 325 km/h (202 mph). A rear-wheel drive variant of the Evo debuted in January 2020, replacing the LP 580–2. The front splitter has been reshaped and generates more airflow, which is directed to the revised diffuser. Unique to the RWD model is P-TCS (Performance Traction Control System) that ensures that torque is not cut off abruptly; Lamborghini claims this increases oversteer by 30 percent compared to the LP 580–2. The engine is detuned and is now rated at 602 bhp/610 PS. Due to the detuned engine, the car is slower than the standard Huracán Evo accelerating to 100 km/h (62 mph) in 3.3 seconds while having the same top speed. The car also receives a unique paint option, Giallo Belenus, along with a matching interior upholstered in leather and microsuede. A convertible version of the rear-wheel drive variant of the Evo was showcased in May 2020, replacing the LP 580-2 Spyder. Like the Coupé variant, the convertible has a power output of 602 bhp/610 PS. The convertible has a 0– 60 mph acceleration time of 3.5 seconds and has a claimed top speed of 323 km/h (201 mph). Unveiled on April 12, 2022, The Huracán Tecnica sits between the EVO RWD and the track-focused STO. It is 6.1 cm (2.4 in) longer than the EVO, but is the same height and width. It uses the naturally-aspirated V10 engine from the STO and has a top speed of 325 km/h (202 mph) and an acceleration time of 0–100 km/h (0–62 mph) in 3.2 seconds. According to Lamborghini, the Tecnica’s aerodynamic changes increase downforce 35 percent and reduce drag by 20 percent compared to the EVO. It is expected that production will end in 2024.
LANCIA
Replacing the Aurelia was the Flaminia, which although superficially similar to its illustrious predecessor and materially “better” in just about every respect, never managed to capture buyers’ imaginations in the same way when new, and even now, it has to play second fiddle to the older car. The first model in the range was the Berlina, which was launched at the 1957 Geneva Show. It had a Pininfarina styled body which took much inspiration from the Florida concept car that had been shown in the previous year. Much was new under the skin. Its larger 2.5 litre 100 bhp V6 engine was new in detail, and was designed to allow for further increases in capacity, which would come in time. I was smoother than the Aurelia engines and had more torque, and with better cylinder head design and revised cooling, it was more robust, as well. There was synchromesh on all four gears. Lancia’s famous sliding pillar suspension was banished in favour of unequal length wishbones and coil springs which required less maintenance and were more refined. But the car was heavy, and complex, and exceedingly expensive. Lancia thought that their customers would pay a premium for “the best”, but tastes were changing, and the Berlina was never a strong seller, with fewer than 3000 of them being constructed, most of them being the first series cars. Just 549 of the later second series model with 110 bhp and disc brakes were made between 1961 and 1963, hardly surprising when the car cost more than a Rolls Royce Silver Cloud, as it did in the UK. The later cars had a 2.8 litre engine and 125 bhp, and just 599 of these were made between 1963 and 1968. There was more success with the coachbuilt two door variants which joined the range. The most successful of these, the Pininfarina Coupe, was the first to appear. This was made between 1959 and 1967, during which time 5284 of these mostly steel-bodied cars were constructed. In many ways they were very like the Berlina, just a bit smaller, though there was a floor mounted gear lever, and the cars had more power. The first 3200 of them had a 119 bhp single carb engine with a sport camshaft. Later 3Bs had a triple choke Solex from 1962 and the power went up to 136 bhp. It was only a year after the Pininfarina car’s debut when Touring of Milan announced their Flaminia models. These aluminium bodied cars were sold in three distinct variants between 1960 and 1965. The single carburettor GT was followed by a Convertible in 1960, both of them uprated to 140 bhp triple Weber 3C spec in 1961. The 2.8 litre 3C took over in 1963 and were supplemented by a new 2+2 version called the GTL, with a taller roofline, front-hinged bonnet, longer doors and more substantial seats. It is the rarest of all Flaminia models, with just 300 made. The styling house to offer a car was Zagato, with their Sports and SuperSports. Only 526 were made and there is a complicated production history which probably shows the sort of chaotic thinking that was going on at Lancia and which would lead to is bankruptcy and take over by Fiat in 1969. The first 99 Sports had faired-in headlights and the 119 bhp engine. From 1960 another 100 cars were built with expose lights until the introduction of the Sport 3C with the 140 bhp triple carb. Zagato made 174 of those in 1962 and 1963, still with the exposed lights. The faired-in lights returned in 1964 on the SuperSport, which also had a Kamm tail, and with DCN Webers this one put out 150 bhp. 150 of these were made between 1964 and 1967. Many of the earlier cars were upgraded early in their life, so if you see one now, you cannot be totally sure of is true origin. Production of the car ceased in 1970, with fewer than 13,000 Flaminia of all types having been built. These days, the cost to restore them properly – and it is a huge job – exceeds the value of most of them, by some margin, as Berlina and Coupe models tend not to sell for more than £30k. The Zagato cars are a different matter, and when they come up for sale, routinely go for over £300k. The Touring cars – considered by most to be the prettiest tend to be around £100k for the GT and another 50 – 80k for a convertible – a long way from the value of an Aston Martin DB4 Volante, which cost roughly the same when new.
The Fulvia Coupé was a compact two-door, three-box coupé introduced in 1965. Like the saloon it was designed in-house by Piero Castagnero, using a wheelbase 150 mm (5.9 in) shorter than its sedan counterpart. As the last Fulvia model to be discontinued, the coupe was ultimately replaced in 1977 by a 1.3-litre version of the Beta Coupé. The 1965–67 cars were equipped with a 1,216 cc 818.100 engine—from 1967 enlarged to 1,231 cc—producing 79 hp at 6,000 rpm. The same engines were subsequently used on the Berlina GT. The Coupé HF of 1966–67 was the competition version of the coupé, introduced later in 1965. It carried a tuned version of the 1,216 cc engine producing 87 hp at 6,000 rpm. Bodywork was lightened by removing the bumpers, using an aluminium bonnet, doors and boot lid, Plexiglas side and rear windows, and bare steel wheels without hubcaps. The Rallye 1.3 HF of 1967–69 had a new 1,298 cc engine with 100 hp at 6,400 rpm. The Rallye 1.3 of 1967–68 was an updated coupé with the 818.302 1,298 cc engine with 86 hp at 6,000 rpm. The Rallye 1.3 S of 1968–70 was an updated, more powerful Rallye 1.3 with a new 818.303 1,298 cc engine producing 91 hp at 6,000 rpm. There was also the Rallye 1.6 HF of 1969–70. Known as Fanalone (“big lamps”) because of the characteristic upsized inner pair of headlamps. The evolution of Rallye 1.3 HF, equipped with an all-new 818.540 1,584 cc engine producing 113 hp at 6,500 rpm. Other changes included negative camber front suspension geometry, with light alloy 13 inch 6J wheels; and a close ratio 5-speed gearbox and wheel arch extensions. The easiest way to distinguish this version is by the triangular holes between headlamps and grille. The Rallye 1.6 HF of 1969–70 was a works rally-spec Fanalone, produced in very limited numbers. The most powerful Fulvia with a 1,584 cc engine producing up to 130 hp depending on tune. This was the version used by the works rally team until 1974 when it was superseded in competition by the Stratos HF. 45 mm bore Solex carburettors were used that were later replaced by 45 DCOE Webers. The cam cover had a special blue stripe over the yellow paint job (HF cars had just a yellow paint job). The Series II cars first appeared in 1970. For the Coupé 1.3 S of 1970–73, there was a face-lifted body and new 5 speed gearbox with 1298 cc (818.303) engine producing 89 hp at 6000 rpm. Larger Girling callipers and pads replaced the Dunlop system fitted to 1st series cars. The Coupé 1.3 S Montecarlo of 1972–73 was a special edition based on the 1.3 S, commemorating Lancia’s victory at the 1972 Monte Carlo Rally. The livery resembled the works car, with matte black bonnet and boot lid bearing Monte Carlo rally plate-style stickers. This version used his own bodyshell with flared wheel arches, similar to the 1.6 HF bodyshell. Other accoutrements included 1.6 HF Lusso interior fittings such as bucket seats with headrests, rectangular front fog lamps, no bumpers and black single wing mirror; 4.5J steel wheels of the standard Coupé were fitted. The Coupé 1600 HF of 1970 had the face-lifted all steel body with 1,584 cc engine with Solex C42DDHF carb producing 113 hp at 6,000 rpm. The bodywork was changed from the standard 1.3 Coupé to incorporate flared wheel arches (replacing the extensions used on 1st series HFs). There was a further update creating the Coupé Series 3. This was introduced in 1974 and was mechanically the same as the earlier Series 2 1.3 S except for the addition of emission control on the Solex carburettors. Other than for “Fulvia 3” badges, it is easily recognized by its matte black grilled and headlight frame. It featured a new design of seats incorporating headrests and new white-faced instrument dials with an updated range of trim colours, materials and options. There was a Coupé 3 Montecarlo between 1974–76 which was as the earlier Montecarlo, but with Coupé 3 accoutrements. And finally there was the Safari between 1974–76. A limited edition based on the standard Coupé 3 with simplified trim and equipment, celebrating Fulvia’s participation in the Safari Rally. It came without bumpers, with matte black exterior trim, seats upholstered in denim cloth and leatherette, exterior badges on the bonnet and on the boot lid and also a special numbered plaque on the dashboard.
Lancia launched the Delta in 1979, as what we would now think of as a “premium hatch”. Offered in 1300 and 1500cc engines, this car, which collected the prestigious “Car of the year” award a few months later, brought Italian style and an expensive feeling interior to a new and lower price point in the market than Lancia had occupied since the early days of the Fulvia some 15 years earlier. The range grew first when a model was offered using the 4 speed AP automatic transmission and then in late 1982, more powerful models started to appear, with first a 1600cc engine, and then one with fuel injection, before the introduction of the HF Turbo. All these cars kept the same appearance and were quite hard to tell apart. These were the volume models of the range, but now they are very definitely the rare ones, as it is the performance versions which have survived and are now much loved classics, even though relatively were sold when they were new, thanks to a combination of the fact that they were quite costly and that they only ever came with left hand drive. The Integrale evolved over several years, starting off as the HF Turbo 4WD that was launched in April 1986, to homologate a new rally car for Lancia who needed something to fill the void left by the cancellation of Group B from the end of 1986. The Delta HF 4X4 had a four-wheel drive system with an in-built torque-splitting action. Three differentials were used. Drive to the front wheels was linked through a free-floating differential; drive to the rear wheels was transmitted via a 56/44 front/rear torque-splitting Ferguson viscous-coupling-controlled epicyclic central differential. At the rear wheels was a Torsen (torque sensing) rear differential. It divided the torque between the wheels according to the available grip, with a maximum lockup of 70%. The basic suspension layout of the Delta 4WD remained the same as in the rest of the two-wheel drive Delta range: MacPherson strut–type independent suspension with dual-rate dampers and helicoidal springs, with the struts and springs set slightly off-centre. The suspension mounting provided more isolation by incorporating flexible rubber links. Progressive rebound bumpers were adopted, while the damper rates, front and rear toe-in and the relative angle between springs and dampers were all altered. The steering was power-assisted rack and pinion. The car looked little different from the front wheel drive models. In September 1987, Lancia showed a more sophisticated version of the car, the Lancia Delta HF Integrale 8V. This version incorporated some of the features of the Delta HF 4WD into a road car. The engine was an 8-valve 2 litre fuel injected 4-cylinder, with balancing shafts. The HF version featured new valves, valve seats and water pump, larger water and oil radiators, more powerful cooling fan and bigger air cleaner. A larger capacity Garrett T3 turbocharger with improved air flow and bigger inter-cooler, revised settings for the electronic injection/ignition control unit and a knock sensor, boosting power output to 185 bhp at 5300 rpm and maximum torque of 224 lb/ft at 3500 rpm. The HF Integrale had permanent 4-wheel drive, a front transversely mounted engine and five-speed gearbox. An epicyclic centre differential normally split the torque 56 per cent to the front axle, 44 per cent to the rear. A Ferguson viscous coupling balanced the torque split between front and rear axles depending on road conditions and tyre grip. The Torsen rear differential further divided the torque delivered to each rear wheel according to grip available. A shorter final drive ratio (3.111 instead of 2.944 on the HF 4WD) matched the larger 6.5×15 wheels to give 24 mph/1000 rpm in fifth gear. Braking and suspension were uprated to 284 mm ventilated front discs, a larger brake master cylinder and servo, as well as revised front springs, dampers, and front struts. Next update was to change the engine from 8 valves to 16. The 16v Integrale was introduced at the 1989 Geneva Motorshow, and made a winning debut on the 1989 San Remo Rally. It featured a raised centre of the bonnet to accommodate the new 16 valve engine, as well as wider wheels and tyres and new identity badges front and rear. The torque split was changed to 47% front and 53% rear. The turbocharged 2-litre Lancia 16v engine now produced 200 bhp at 5500 rpm, for a maximum speed of 137 mph and 0–100 km/h in 5.5 seconds. Changes included larger injectors, a more responsive Garrett T3 turbocharger, a more efficient intercooler, and the ability to run on unleaded fuel without modification. The first Evoluzione cars were built at the end of 1991 and through 1992. These were to be the final homologation cars for the Lancia Rally Team; the Catalytic Evoluzione II was never rallied by the factory. The Evoluzione I had a wider track front and rear than earlier Deltas. The bodyside arches were extended and became more rounded. The wings were now made in a single pressing. The front strut top mounts were also raised, which necessitated a front strut brace. The new Integrale retained the four wheel drive layout. The engine was modified to produce 210 bhp at 5750 rpm. External changes included: new grilles in the front bumper to improve the air intake for engine compartment cooling; a redesigned bonnet with new lateral air slats to further assist underbonnet ventilation; an adjustable roof spoiler above the tailgate; new five-bolt wheels with the same design of the rally cars; and a new single exhaust pipe. Interior trim was now grey Alcantara on the Recaro seats, as fitted to the earlier 16V cars; leather and air conditioning were offered as options, as well as a leather-covered Momo steering wheel. Presented in June 1993, the second Evolution version of the Delta HF Integrale featured an updated version of the 2-litre 16-valve turbo engine to produce more power, as well as a three-way catalyst and Lambda probe. A Marelli integrated engine control system with an 8 MHz clock frequency which incorporates: timed sequential multipoint injection; self-adapting injection times; automatic idling control; engine protection strategies depending on the temperature of intaken air; Mapped ignition with two double outlet coils; Three-way catalyst and pre-catalyst with lambda probe (oxygen sensor) on the turbine outlet link; anti-evaporation system with air line for canister flushing optimised for the turbo engine; new Garrett turbocharger: water-cooled with boost-drive management i.e. boost controlled by feedback from the central control unit on the basis of revs/throttle angle; Knock control by engine block sensor and new signal handling software for spark park advance, fuel quantity injected, and turbocharging. The engine now developed 215 PS as against 210 PS on the earlier uncatalysed version and marginally more torque. The 1993 Integrale received a cosmetic and functional facelift that included. new 16″ light alloy rims with 205/45 ZR 16 tyres; body colour roof moulding to underline the connection between the roof and the Solar control windows; aluminium fuel cap and air-intake grilles on the front mudguards; red-painted cylinder head; new leather-covered three-spoke MOMO steering wheel; standard Recaro seats upholstered in beige Alcantara with diagonal stitching. In its latter years the Delta HF gave birth to a number of limited and numbered editions, differing mainly in colour, trim and equipment; some were put on general sale, while others were reserved to specific markets, clubs or selected customers
LAND ROVER
The 1955-56 Oxford and Cambridge Far Eastern Expedition was a publicity effort by the Rover Company as manufacturer of the Land Rover Series I 86″ Station Wagons. The station wagons were very different from the previous Tickford model, being built with bolt-together aluminium panels. The journey was undertaken by six Oxford & Cambridge university students from London to Singapore. The Oxford and Cambridge Far Eastern Expedition was inspired by the earlier 1954 Oxford and Cambridge Trans-Africa Expedition. The next joint expedition was the 1957-8 Oxford and Cambridge Expedition to South America, on which at least two team members from the Singapore journey took part: Adrian Cowell and Nigel Newbery and this is the vehicle that was used.
The first-generation Range Rover was produced between 1969 and 1996. It was available only in a 2-door body until 1981. (Before then, 4-door models had been produced by specialist firms). Unlike other 4x4s such as the Jeep Wagoneer, the original Range Rover was not designed as a luxury vehicle. It was up-market compared to preceding Land Rover models, but the early Range Rovers had fairly basic, utilitarian, interiors with vinyl seats and plastic dashboards that were designed to be washed down with a hose. Convenience features such as power steering, carpeted floors, air conditioning, cloth/leather seats, and wooden interior trim were fitted later. The Range Rover was a body-on-frame design with a box section ladder type chassis, like the contemporary Series Land Rovers. The Range Rover used coil springs as opposed to leaf springs, permanent four-wheel drive, and four-wheel disc brakes. The Range Rover was originally powered by various Rover V8 engines and diesel engines. Originally, the Range Rover was fitted with a detuned 130 hp version of the Buick-derived Rover V8 engine. In 1984, the engine was fitted with Lucas fuel injection, boosting power to 155 bhp. The 3.5-litre (3,528 cc) engine was bored out to a displacement of 3.9 litres for the 1990 model year, and 4.2-litre in 1992 for the 108-inch Long Wheelbase Vogue LSE (County LWB [long wheelbase] in North America). One of the first significant changes came in 1981, with the introduction of a four-door body. Shortly after twin thermo fan technology was introduced to reduce significant overheating problems 1970s models experienced in Australia. In 1988, LR introduced a 2.4-litre turbodiesel (badged Vogue Turbo D) with 112 bhp, manufactured by Italian VM Motori. The same engine was available in the Rover SD1 passenger car. The diesel project was codenamed project Beaver. During the project, 12 world records were broken, including the fastest diesel off-roader to reach 100 mph (160 km/h), and the furthest a diesel off-roader has travelled in 24 hours. In 1990 project Otter was unveiled. This was a mildly tuned 2.5-litre, 119 bhp version of the ‘Beaver’ 2.4. In 1992, Land Rover finally introduced their own diesel engines in the Range Rover, beginning with the 111 bhp 200TDi, first released in the Land Rover Discovery and following in 1994, the 300 TDi, again with 111 bhp. The first generation was known as the Range Rover until almost the end of its production when Land Rover introduced the name Range Rover Classic to distinguish it from its successors. The original model served as the basis for the 1989 introduced 1st generation Discovery (directly based on the standard (short) wheelbase Range Rover), and for the 2nd generation Range Rover, based on the LWB chassis of the Classic.
LITTLE CAR COMPANY
Headquartered at Bicester Heritage, this company specialises in the production of small scale recreations of some iconic classic cars. The attention to detail is amazing, but none of this comes cheap. We are talking tens of thousands, so these are not going to a toy that many children are ever likely to receive!
The Ferrari Testa Rossa J is a 75% reproduction of the Ferrari 250 Testa Rossa – one of the most iconic models in the history of Ferrari and motor racing. Developed and built from the original drawings kept in Ferrari Classiche, this is a beautiful scaled tribute with just 299 cars being built. Designed to share the joy of driving across generations and a true collector’s item to be cherished. As an official Ferrari product, only components of the highest quality have been used, with each car being impeccably hand-built.
LOTUS
The silver Italdesign concept that eventually became the Esprit was unveiled at the Turin Motor Show in 1972 as a concept car, and was a development of a stretched Lotus Europa chassis. It was among the first of designer Giorgetto Giugiaro’s polygonal “folded paper” designs. Originally, the name Kiwi was proposed, but in keeping with the Lotus tradition of having all car model names start with the letter “E”, the name became Esprit. The production Esprit was launched in October 1975 at the Paris Auto Show, and went into production in June 1976, replacing the Europa in the Lotus model lineup. These first cars eventually became known as S1 Esprits. With a steel backbone chassis and a fibreglass body, the Esprit was powered by the Lotus 907 4-cylinder engine, as previously used in the Jensen Healey. This engine displaced 2.0 litre, produced 160 bhp in European trim 140 bhp in US/Federal trim, and was mounted longitudinally behind the passengers, as in its predecessor. The transaxle gearbox was a 5-speed manual unit, previously used in the Citroën SM and Maserati Merak; it featured inboard rear brakes, as was racing practice at the time. The Series 1 embodied Lotus’ performance through light weight mantra, weighing less than 1,000 kg (2,205 lb). The original Esprit was lauded for its handling and is said to have the best steering of any Esprit. However, it was generally regarded as lacking power, especially in markets such as the United States where the engine was down-rated for emissions purposes. Lotus’ claim of 0-60 mph in 6.8 seconds and a top speed of 138 mph may be thought of as optimistic – actual road test times indicated 0-60 mph in 8 seconds and a top speed of around 133 mph. The S1 Esprit can be distinguished from later Esprits by a shovel-style front air dam, Fiat X1/9 tail lights, lack of body-side ducting, and Wolfrace alloy wheels. Inside the car, the most obvious indication of an S1 Esprit is a one-piece instrument cluster with green-faced Veglia gauges. The car gained fame through its appearance in the James Bond film The Spy Who Loved Me (1977) where a fictionally-modified version was featured in a long action sequence. Bond’s Esprit car is first chased on road, by a motorcycle, then by another car, and then a helicopter, then converts into a submarine for an undersea battle. A series of improvements made to the Esprit during its initial run culminated in the S2 Esprit, which was introduced in 1978. The most obvious of these changes are intake and cooling duct “ears” located behind the rear quarter window, tail lights from the Rover SD1, and an integrated front spoiler. S2 Esprits also used 14-inch Speedline alloy wheels designed specifically for Lotus. Other changes included relocating the battery from above the right side fuel tank (under the rear quarter window) to the rear of the car, adding an access door to the engine cover, as well as replacing the instrument cluster made by Veglia with individual gauges made by Smiths and using different style of switches on the dashboard. During this era, a special edition car was released to commemorate Lotus’s racing victories and their victory in the 1978 F1 World Championship. Sharing the black and gold colour scheme of Lotus’ then F1 sponsor, John Player & Sons, these cars are commonly known as the John Player Special (JPS) Esprits. The “JPS” Esprit has the same mechanicals as the regular two-litre S2. According to Lotus themselves a limited series of 300 was built, but most likely the total was considerably lower.Lotus’ records of production figures are notoriously vague, but best estimates suggest that 149 JPS Esprits were produced. The S2.2 was produced as a stop-gap model from May 1980, almost identical to the S2 but with an enlarged (2.2 litre) type 912 engine used. This kept horsepower the same, but bumped up torque from 140 lb·ft to 160 lb·ft. Importantly, the S2.2 also introduced the use of a galvanised chassis, although it did not benefit from the succeeding S3’s chassis improvements. These cars are extremely rare even among Esprits: according to Lotus themselves, only 88 were produced in its thirteen-month production span. In 1980 the first factory turbocharged Esprit was launched. Initially, this was another special edition model commemorating F1 ties and reflecting current sponsorship, this time in the blue, red and chrome livery of Essex Petroleum, and is therefore known as the Essex Esprit. The new turbocharged dry-sump type 910 engine produced 210 hp and 200 lb·ft of torque. 0-60 mph could be achieved in 6.1 seconds, with a top speed of 150 mph. These performance improvements were coupled to a redesign and strengthening of the chassis and rear suspension, where an upper link was added to alleviate strain on the driveshafts, along with brake improvements. The Essex cars introduced a Giugiaro-designed aerodynamic body kit with a rear lip spoiler, prominent louvered rear hatch, more substantial bumpers, a deeper front airdam, and air ducts in the sills just ahead of the rear wheels, which were 15″ Compomotive three piece items. Internally, scarlet leather, combined with a roof-mounted Panasonic stereo, made for a dramatic environment. 45 Essex Esprits were built, interspersed and followed by a number of non Essex-liveried but otherwise identical specification dry-sump turbo cars. Two Essex-spec Turbo Esprits – one in white and the other in copper – were featured in the James Bond film For Your Eyes Only (1981), although these were scripted as the same vehicle – the white one was destroyed by an anti-burglar explosion system in Spain, while the copper red one was a “rebuild” of the original (actually a joke between Bond and Q in the latter’s laboratory), and was fully functional (the copper exterior paint colour for the replacement car was chosen to make the car stand out more in filming against the snowy background of Cortina, Italy, the only locale in which it appears). By the close of 1980, Lotus was effectively building three different models of Esprit, with distinct chassis designs and body moulds – the Domestic S2.2, the Export S2.2, and the dry-sump Turbo Esprit. Introduced in April 1981, the Turbo Esprit and S3 Esprits marked a necessary consolidation: both new models had a common chassis, inheriting much of the configuration of the Essex cars, whilst body production was based on a single common set of moulds. The S3 continued to use the 2.2 litre type 912 engine of the S2.2, whilst the Turbo Esprit reverted to a less complex wet-sump lubrication system, retaining the power and torque outputs of its dry-sump predecessor. The interior for both cars was revised and featured new trim; combined with changes to the body moulds this resulted in more headroom and an enlarged footwell. Externally, the Turbo Esprit retained the full aerodynamic body kit of the Essex cars, and featured prominent ‘turbo esprit’ decals on the nose and sides; the S3 gained the more substantial bumpers, yet retained the simpler sill line and glazed rear hatch of the S2.2 body style. Both models were supplied with 15″ BBS alloy wheels. For the 1985 model year, the S3 and Turbo underwent some slight alterations to the bodywork and to the front suspension. In April 1986, the final incarnations of the Giugiaro-styled Esprit were announced, with raised engine compression giving rise to the ‘HC’ moniker. This increased the output of the naturally aspirated engine to 172 hp and 160 lb·ft for the Esprit HC, and to 215 hp and 220 lb/ft for the Turbo Esprit HC, with the increased torque available at a lower rpm. For markets with stringent emissions requirements (mainly the United States), Lotus introduced the HCi variant, teaming the higher compression engine with Bosch KE-Jetronic fuel injection and a catalytic converter- the first fuel-injected Esprits. This engine had the same peak power as the carburettor version, but at a somewhat higher engine speed, and torque dropped to 202 lb·ft.
In 1987, a new version of the mid-engined Esprit was unveiled, incorporating rounder styling cues given by designer Peter Stevens (who later designed the McLaren F1). A new Lotus patented process was introduced to create the new body, called the VARI (Vacuum Assisted Resin Injection) process, which offered more advantages than the previous hand laid process. Kevlar reinforcement was added to the roof and sides for roll-over protection, resulting in an increase of the Esprit’s torsional rigidity by 22 percent. Giugiaro is said to have liked the restyling, claiming it was perhaps too close to his original design. The Stevens styled cars retained the mechanical components of the previous High Compression Esprit and Turbo Esprit, but introduced a stronger Renault transaxle, which necessitated a move to outboard rear brakes. However, the MY 1988 North American Esprit Turbo kept its Citroën SM type transaxle and the Bosch K-Jetronic fuel injection system used in the previous model year. The car’s Type 910 engine retained 215 bhp and 220 lb·ft, but decreased its zero to sixty from 5.6 seconds to a varied time between 5.4 – 5.1 seconds and a top speed of over 150 mph. The exterior style changes were accompanied by a redesign of the interior, allowing a little more space for the occupants. The Stevens styled Esprit is often known by its project code of X180. In 1989, the Esprit was again improved with the GM multi-port, electronic fuel injection system and the addition of a water to air intercooler, which Lotus has named the Chargecooler, producing the SE (Special Equipment). This inline-four engine was known as the Type 910S. Horsepower was pushed up to 264 with 280 available on overboost and zero to sixty miles per hour times reduced to 4.7 seconds with a top speed of over 160 mph. Several modifications were made to the body kit as well, like side skirts which are parallel to the body, five air ducts in the front air dam, wing mirrors from the Citroën CX and the addition of a rear wing. Along with the SE, Lotus produced the little seen Esprit S, a midrange turbocharged car offering fewer appointments and 228 hp, as well as the standard turbo still offering 215 hp . The N/A and lower-powered turbo were cancelled after 1990, and the S in 1991. Another unusual variant was a two-litre “tax special” developed for the Italian market, fitted with an intercooled and turbocharged version of a new 1,994 cc version of the venerable 900-series four-cylinder engine. Equipped with SE trim, this appeared in December 1991 and produced 243 PS at 6,250 rpm. Beginning in the autumn of 1996, this engine became available in other markets as well. The Esprit was a popular and successful addition to the American IMSA Bridgestone Supercar Championship and as a result Lotus produced the SE-based X180R, with horsepower bumped to 300 and with racing appointments. The Sport 300 was a derivative of the X180R sold in Europe, which included many modifications. These are known as the fastest of the four-cylinder Esprits and among the most desirable. In 1993, another exterior and interior revamp of the car resulted in the S4 which was the first model to include power steering. The exterior redesign was done by Julian Thompson, which included a smaller rear spoiler placed halfway up the rear decklid. Other major changes were to the front and rear bumpers, side skirts and valence panels. New five spoke alloy wheels were also included in the redesign. The S4 retained the same horsepower as the SE at 264 hp.The S4 was succeeded in 1994 by the S4s (S4 sport), which upped power to 300 bhp and 290 lb·ft of torque, improving all-around performance while retaining the comfort of the previous version. Top speed was increased to 168 mph, skidpad increased to 0.91g, an increased slalom of 61.7 mph and a 0-60 mph time of 4.6 seconds. Although the engine kept its 2.2-litre capacity, many modifications were added to improve engine performance. Some of the changes were enlarged inlet ports, cylinder head modifications, a re-calibrated ECM and a revised turbocharger. The most visible external styling changes was the addition of a larger rear wing taken from the Sport 300. In 1996 the Esprit V8 used Lotus’ self-developed all-aluminium, twin-turbocharged (Garrett T25/60 turbos) 90-degree V-8, Code-named Type 918, in front of the same Renault transmission as before with no Chargecooler. Derek Bell developed an uprated gearbox that overcame a lot of the gearbox problems with a much thicker single piece input shaft. The Type 918 engine was detuned from a potential 500 bhp to 350 bhp to prevent gearbox damage due to the fragility of the Renault UN-1 transmission. In period tests, zero to sixty miles per hour came in at 4.4 seconds and top speeds of over 175 mph were achieved. Produced alongside V8 models was the GT3, a turbocharged four-cylinder car with the type 920 2.0 litre chargecooled and turbocharged engine which had been used only in Italian market cars previously. In 1998 the V8 range was split into SE and GT specifications, both cars with a much changed interior configuration, both offering similar performance with the SE being the more luxurious of the two. The ultimate incarnation of the Esprit came in 1999 with the Sport 350. Only 50 were made, each offering 350 horsepower (per the name) and various engine, chassis and braking improvements, like the addition of AP Racing brakes, stiffer springs and a revised ECU. Several visual changes were made as well, including the addition of a large carbon fibre rear wing on aluminium uprights in place of the standard fibreglass rear wing. By this time the Esprit could reach 60 mph in 4.3 seconds as well as reaching 0-100 mph in less than 10 seconds, and weighed 1,300 kg (2,866 lb) as a result of many modifications. Thereafter, Lotus made little development aside from minor cosmetic changes including a switch to four round tail lights for the 2002 model year. Esprit production ceased in February 2004 after a 28 year production run. A total of 10,675 Esprits were produced.
It is now over 20 years since Lotus launched the Elise, a model which showed a return to the core values of simplicity and light-weight which were cornerstones of Colin Chapman’s philosophy when he founded the marque in 1955. The first generation Elise was produced for just over 4 years, with a replacement model, the Series 2 arriving in October 2000. It came about as the Series 1 could not be produced beyond the 2000 model production year due to new European crash sustainability regulations. Lacking the funding to produce a replacement, Lotus needed a development partner to take a share of investment required for the new car. General Motors offered to fund the project, in return for a badged and GM-engined version of the car for their European brands, Opel and Vauxhall. The result was therefore two cars, which although looking quite different, shared much under the skin: a Series 2 Elise and the Vauxhall VX220 and Opel Speedster duo. The Series 2 Elise was a redesigned Series 1 using a slightly modified version of the Series 1 chassis to meet the new regulations, and the same K-series engine with a brand new Lotus-developed ECU. The design of the body paid homage to the earlier M250 concept, and was the first Lotus to be designed by computer. Both the Series 2 Elise and the Opel Speedster/Vauxhall VX220 were built on the same production line, in a new facility at Hethel. Both cars shared many parts, including the chassis, although they had different drive-trains and power-plants. The VX220 carried the Lotus internal model identification Lotus 116, with the code name Skipton for the launch 2.2 normally aspirated version and Tornado for the 2 litre Turbo which came out in 2004. Fitted with 17 inch over the Elise’s 16 inch front wheels, the Vauxhall/Opel version ceased production in late 2005 and was replaced by the Opel GT for February 2007, with no RHD version for the United Kingdom. The Elise lived on. and indeed is still in production now, some 15 years later, though there have been countless different versions produced in that time. Whilst the first of the Series 2 cars came with the Rover K-Series engine, and that included the 111S model which had the VVC engine technology producing 160 hp , a change came about in 2005 when Lotus started to use Toyota engines. This was initially due to Lotus’ plans to introduce the Elise to the US market, meaning that an engine was needed which would comply with US emissions regulations. The selected 1.8 litre (and later 1.6 litre) Toyota units did, and the K-series did not. that MG-Rover went out of business in 2005 and engine production ceased confirmed the need for the change. Since then, Lotus have offered us track focused Elise models like the 135R and Sport 190, with 135 bhp and 192 bhp respectively, as well as the 111R, the Sport Racer, the Elise S and Elise R. In 2008 an even more potent SC model, with 218 bhp thanks to a non-intercooled supercharger was added to the range. In February 2010, Lotus unveiled a facelifted version of the second generation Elise. The new headlights are now single units; triangular in shape they are somewhat larger than the earlier lights. The cheapest version in Europe now has a 1.6 litre engine to comply with Euro 5 emissions, with the same power output as the earlier 1.8 136bhp car. Lotus has been through some difficult times in recent years, but things are looking more optimistic again, with production numbers having risen significantly in the last couple of years, after a period when next to no cars were made.
In 2004, the Series 2 Exige was introduced. It features a naturally aspirated 1.8 L 16-valve DOHC Toyota/Yamaha engine that is rated at 190 bhp with the Toyota engine designation of 2ZZ-GE. Compared to the Series 2 Elise, it has a front splitter, a fibreglass hardtop roof with roof scoop, a rear engine cover, and rear spoiler. The sole purpose of these aerodynamic additions to the base Elise is to create more downforce (almost 45 kg (100 lb) of downforce at 161 km/h (100 mph) in the Exige versus 5.9 kg (13 lb) at 100 mph in the Elise). In February 2005, Lotus announced a limited production run of 50 Exiges, using the Toyota engine with a supercharger. This increased the power output to 243 bhp. These models were only available in yellow or black, representing the colours of Lotus Sport, and are badged 240R. They have a projected 0 – 60 mph time of 3.9 seconds and 0-161 km/h (100 mph) of 9.9 seconds, with a top speed of 249 km/h (155 mph). The North American Exige was unveiled at the Los Angeles Auto Show in January 2006. According to Lotus, the standard Exige Series 2 model weighs 2,016 lb (914 kg). In February 2006, Lotus announced the Exige S model which used a supercharged Toyota 2ZZ-GE engine rated at 220 bhp The S was also made available in North American markets as a 2007 model. According to Lotus, the Exige S model, weighing 2,057 lb (933 kg), has the following specifications: In 2008, the Exige S was replaced by the Exige S 240. Power output increased by 9% over the outgoing model to 240 bhp. The S 240 also received upgraded AP Racing brakes from the Exige Cup 240 and a larger roof scoop utilised by the Exige Cup 255. 0–60 mph times improved to 4.0 seconds. The S 240 base manufacturer suggested retail price was $65,690. The Exige S 260 produced an additional 7% power output over the S 240 resulting in 256 bhp. Even with a full fuel tank, extensive use of weight-saving materials such as carbon fiber reduced the vehicle’s gross weight to 916 kg (2,020 lb) compared to 942 kg (2,077 lb) in the S 240. It can accelerate from 0–60 mph in 4.0 seconds. After 2009, both the S 240 and S 260 received distinctively new and enlarged rear spoilers mounted to the rear clam instead of the motor bay cover. Countless limited edition models were produced, as well. A third generation car was launched in 2012.
Also here was Lotus’ latest sports car, the Emira.
Having got this far, that’s only half the story. Make sure to go to the Part 2 report from this event to see the rest.