There seems to be no end to the number of venues who are launching their own car meets. Clearly a considerable amount of space is needed, as nothing is more frustrating than to turn up at a venue and find it full, and that is an almost inevitability once word gets out, which it does pretty quickly these days. Some locations, of course, have a lot more room than others and the one I visited for this report is certainly lucky to have a large field which they can use as well as the regular car park. The Cotswold Barn started off as a farm shop and cafe but realised the potential of their site for hosting car meets, and so they now offer a mix of the ones they organise themselves as well as ones they are happy to host for Clubs who apply. They announced a regular program of mid-week evening meets for the 2023 season, and I managed to pop along to one before the nights start to draw in too much. I arrived at the site, which is to be found between Stow on the Wold and Broadway to find that the parking was filling up nicely with a very varied collection of cars. Compared to some better known venues, this one is not huge though there were steady comings and goings all the time I was there, so there was plenty to look at, and there also some particularly good food options on offer for a very reasonable price, so the evening just sot by. Here are the cars that I thought notable enough to warrant photographs:
ABARTH
Slightly surprisingly, perhaps, there was just one Abarth here: mine. Rumours started to circulate towards the end of 2014 that Abarth were going to upgrade the Competizione model, so as better to bridge the gap between the Turismo and the 190 bhp 695 Biposto that had been added to the range earlier in the year. It was Geneva 2015 when the result was finally shown to an expectant fan base. Most exciting news was that thanks to a bigger Garrett Turbo, the engine had been tweaked to 180 bhp, and with reduced CO2 emissions. A standard spec that included Koni Dampers, Brembo brakes, Xenon lights, Sabelt seats, Climate Control, parking sensors as well as other refinements that had been added like the TFT instrument display all proved very compelling, so not long after the first cars reached the UK in June of 2015, I found temptation too hard to resist, and as is well documented here, swapped my 2010 car for one of these. At the time I ordered it, Cordolo Red, a tri-coat pearlescent paint which shimmers in bright sunlight looked set to become one of the most popular colours of the lot, even though it is a cost option. Indeed, the Launch Edition models were all offered either in this colour or Scorpion Black, with black wheels. Surprisingly, the colour was not carried over to the Series 4 cars.
AC
Genuine AC Cobra cars from the 1960s are rare, as there were only a relatively small number of them produced, but the shape and ethos endures with a seemingly limitless number of recreations and replicas from a variety of companies including AC themselves as well as AK Sports cars, DAX, Pilgrim and many others. There were three examples here.
ALFA ROMEO
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.
Having a rather short production life was the GTA version of the 147. Launched in 2002. this car was intended to compete with the most sporting Golf and Focus models of the day. as well as injecting more potency into a range which always seemed like it needed more power. Fitted with a 3.2 V6 engine which produced 247 bhp, the 147GTA was the most powerful hot hatch available at the time, and the modifications to the body, including lower sills and wider wheel arches, if anything, made it look even better rather than endowing it with the sort of “after market look” that can afflict some high end performance versions of regular family cars. Performance figures were impressive, with the car able to achieve a top speed of 153 mph. It had a widened body by 15 mm at each side to accommodate the 225/45R17 tyres. Most models had a 6-speed manual transmissions; whilst a smaller number of other models used the semi automatic Selespeed system. Production ran through to 2004 and in total 5,029 147 GTAs were built, 1004 of which were Selespeeds. Only around 300 came to the UK, so this was never a common sighting on British roads.
Rather than replacing the 916 Series GTV with a single model, Alfa elected to produce two successors., The more commodious of the two, the GT, was the first to appear, making its debut in March 2003 at the Geneva Motor Show, finally going on sale in early 2004. It was built at the Pomigliano plant, alongside the 147 and 159. The GT was based on the Alfa 156 platform, which was also used for the 147, providing the 2-door coupé with genuine five-passenger capacity. It was styled by Bertone. Most mechanicals were taken directly from the 156/147 using the same double wishbone front suspension and MacPherson rear setup. The interior was derived form the smaller hatchback 147 and shared many common parts. The GT shared the same dash layout and functions, the climate control system as well as having a similar electrical system. Some exterior parts were taken from 147 with the same bonnet, wing mirrors and front wings (from 147 GTA). The engine range included both a 1.8 TS, and 2.0 JTS petrol engine, a 1.9 MultiJet turbodiesel, and a top-of-the-range 240 bhp 3.2 V6 petrol. There were few changes during the GT’s production life. In 2006 Alfa introduced a 1.9 JTD Q2 version with a limited slip differential, and also added a new trim level called Black Line. In 2008 Alfa introduced the cloverleaf model as a limited edition complete with new trim levels, lowered suspension, body kit, 18 inch alloy wheels and was only available in the colours black, Alfa red, or blue. with 1.8 and 2.0 litre petrol engines as well as the 1.9 litre Multijet turbo diesel. The GT was acclaimed for its attractive styling and purposeful good looks, in 2004 being voted the world’s most beautiful coupe in the annual ‘World’s Most Beautiful Automobile’ (L’Automobile più Bella del Mondo) awards. The car sold reasonably well, with 80,832 units being produced before the model was deleted in 2010.
ALPINA
There were three different Alpina models based on the E28, the B7S Turbo and the B9 and B10 Saloons. The B9 came first, launching in November 1981, a few months after the debut of the standard E28, featuring a 3.5 litre inline 6 cylinder engine. When this unit was updated in 1985, the model designation changed to B10. 577 of these cars were made. In standard form, the BMW 3.5 litre engine delivered 218 bhp, but after the special Alpina treatment, this was upped to 245 bhp. Other changes included new springs, gas-filled dampers, uprated discs and 16″ Alpina wheels on the outside, and a leather steering wheel, Alpina upholstery and Recaro seats on the inside. The second generation B7 Turbo arrived in April 1984 and just like the E12 based B7S Turbo cars which had been built between November 1981 and May 1982, this was the fastest 4 door saloon in the world, and this latest one took performance to new levels. Using the BMW 3.5 litre engine again, as it now had a higher compression than before, boost was not quite as great as it had been, at 0.7 bar, but that and the other detailed changes Alpina made were enough to give the new B7 Turbo an output of 300 bhp and 320 bhp in the catalyst equipped models, along with 509 Nm of torque, resulting in a top speed of 265 – 270 km/h, and a 0- 100 km/h time of either 4.8 or 6.1 seconds depending on which test source you believe. The gearbox was a Getrag 5 speed manual unit that had been developed for the 745i. Uprated Bilstein suspension was fitted, with height adjustable rear dampers and the car had what for the time were huge wheels, 205/55 16″ at the front and 225/55 at the rear. Inside the car was much like the B7 Turbo but with a black roof lining. Alpina made 236 non cat and 42 catalyst cars before “production” ended in the summer of 1987.
ALVIS
Oldest car here was this 1927 Alvis 12/50 which belongs to my friend James Swan. I spotted the car first but it was not long before I found James as well, so we could have a good catch up. The 12/50 and 12/60 series of cars went through a series of versions, with the last ones being made in 1932. A range of factory bodies (made by Carbodies and Cross & Ellis) could be specified in two- or four-seat form, with either open or closed bodies. The first 12/50s were produced in late 1923 for the 1924 model year. The cars from this first year of production were designated SA and SB. The SA had a 1496 cc 4-cylinder overhead valve engine in a chassis with a wheelbase of 108.5 in (2,756 mm), while the SB had a wheelbase of 112.5 in (2,858 mm). The SB was initially fitted with the 1496cc engine, but after the introduction of a 1598 cc version of the OHV engine this became the standard fitment. The engines of these early cars were carried in a subframe bolted to the relatively slender ladder chassis. The SA usually carried two-seat bodywork, typically the Super Sports 2/3-seater nicknamed “duck’s back” because of its pointed rear end, said to resemble that of a duck. The majority of SB cars carried Super Sports four-seater bodywork, but a good number were also fitted with touring bodies from the standard Alvis range. The SA and SB 12/50s were built with (twin shoed) brakes on the rear wheels only. All the 12/50s had a four speed non-synchromesh gearbox with right hand change. The clutch was a fabric-faced aluminium cone. The cars were right hand drive. The SC arrived in Autumn 1924, with the larger 1598 cc engine as standard (though the 1496 cc unit could be specified for sporting use). Most SC 12/50s were built on the longer chassis, which would be standard for the 12/50 until the end of production. Front wheel brakes were offered as an option on this model: a front axle of new design could be supplied with or without brakes. Power transmission was via a roller-bearing prop shaft of new design. The 12/50 was redesigned for the 1926 model year. From Autumn 1925 a new stronger chassis was used for the TE, which had its engine (now built around a redesigned crankcase) enlarged again to 1645 cc, and the TF of the same year with a short stroke version of the same engine, displacing 1496 cc. A single-plate clutch replaced the previous cone type, and for these and all subsequent 12/50s the engine was bolted directly to the flange-frame chassis, dispensing with the subframe of previous models. From the TE and TF models onwards four-wheel brakes were fitted as standard, single-shoe drums on the rear replacing the double-shoe drums of the previous model. The TE and was superseded for the 1927 model year by the TG. Confusingly, the short-stroke TF was replaced in the 1927 range by a car with an ‘S’ prefix: the SD. The TG was the standard ‘touring’ model, while the SD – powered by the 1496 cc engine, now fitted with a large-port cylinder head – satisfied the needs of the sporting motorist. Also available in this year was the TH, which had the gearbox and rear axle ratios of the ‘touring’ TG, but the sub-1500 cc engine of the SD. The TG and SD models were available until 1929. The TG and (very rare) TH models can be recognised by their taller radiators, with a noticeably deeper top section. Cars from the 1928 and 1929 model years also sported higher-set lamps, with horizontal crossbar, in accordance with the fashion of the time. The 12/50 was withdrawn between 1929 and 1930 when the company decided that the future lay with the front-wheel drive FD and FE models, but when these did not reach the hoped for volumes a final version of the 12/50 was announced for the 1931 model year as TJ. Fitted with the 1645 cc engine this continued in production until 1932. The ‘post-vintage’ TJ is referred to by Alvis historians as being from the ‘revival period’, and it differs from its predecessor in a number of ways, notably coil instead of magneto ignition, deep chromed radiator shell, and rear petrol tank in place of the scuttle-mounted tank on most older 12/50s. The TJ was joined in the range by a more sporting version of the same chassis, but this car was marketed not as a 12/50, but as the 12/60. The TK 12/60 was available in 1931, and the TL 12/60 in 1932.
ASTON MARTIN
Oldest Aston Martin here was a DB6, a model which was launched in 1965 as a replacement for the DB5 which had run since 1963. The wheelbase was now 4″ longer than before, resulting in an extensive restyle with a more raked windscreen, raised roofline and reshaped rear quarter windows. Opening front quarter lights made a reappearance, but the major change was at the rear where a Kamm tail with spoiler improved the aerodynamics, greatly enhancing stability at high speeds. “The tail lip halves the aerodynamic lift around maximum speed and brings in its train greater headroom and more luggage space”, declared Motor magazine, concluding that the DB6 was one of the finest sports cars it had tested. Famed employee, Tadek Marek, designed the six cylinder engine, which had been enlarged to 3,995cc for the preceding DB5 and remained unchanged. Power output on triple SU carburettors was 282bhp, rising to 325bhp in Vantage specification. Premiered at the 1965 London Motor Show, the DB6 Volante marked the first occasion the evocative ‘Volante’ name had been applied to a soft-top Aston Martin. After 37 Volante convertibles had been completed on the DB5 short wheelbase chassis, the model adopted the longer DB6 chassis in October 1966. A mere 140 DB6 based Volantes were manufactured, and of these only 29 were specified with the more powerful Vantage engine.
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.
Follow on to the DB7 was the DB9 (there has never been a car called DB8 – supposedly because people might have assumed this meant a V8 engine), and there was a nice example here. The Aston Martin DB9, designed by Marek Reichmann and Hendrik Fisker, was first shown by Aston Martin at the 2003 Frankfurt Auto Show, in coupe form. It was widely praised for the beauty of its lines. This was the first model to be built at Aston Martin’s Gaydon facility. It was built on the VH platform, which would become the basis for all subsequent Aston models. The Aston Martin DB9 was initially launched equipped with a 6.0 litre V12 engine, originally taken from the V12 Vanquish. The engine produced 420 lbf·ft of torque at 5,000 rpm and a maximum power of 444 hp at 6,000 rpm, allowing the DB9 to accelerate from 0 to 60 mph in 4.7 seconds and a top speed of 299 km/h (186 mph). The engine largely sits behind the front-axle line to improve weight distribution. Changes to the engine for the 2013 model year increased the power to 503 hp and torque to 457 lb-ft, decreasing the 0 to 60 mph time to 4.50 seconds and with a new top speed is 295 km/h (183 mph). The DB9 was available with either a six-speed conventional manual gearbox from Graziano or a six-speed ZF automatic gearbox featuring paddle-operated semi-automatic mode. The gearbox is rear-mounted and is driven by a carbon-fibre tail shaft inside a cast aluminium torque tube. The DB9 was the first Aston Martin model to be designed and developed on Ford’s aluminium VH (vertical/horizontal) platform. The body structure is composed of aluminium and composites melded together by mechanically fixed self-piercing rivets and robotic assisted adhesive bonding techniques. The bonded aluminium structure is claimed to possess more than double the torsional rigidity of its predecessor’s, despite being 25 percent lighter. The DB9 also contains anti-roll bars and double wishbone suspension, supported by coil springs. To keep the back-end in control under heavy acceleration or braking, the rear suspension has additional anti-squat and anti-lift technology. Later versions of the car also features three modes for the tuning: normal, for every-day use, sport, for more precise movement at the cost of ride comfort, and track, which furthers the effects of the sport setting. The Aston Martin DB9 Volante, the convertible version of the DB9 coupe, followed a few months later. The chassis, though stiffer, uses the same base VH platform. To protect occupants from rollovers, the Volante has strengthened windscreen pillars and added two pop-up hoops behind the rear seats. The hoops cannot be disabled and will break the car’s rear window if deployed. In an effort to improve the Volante’s ride while cruising, Aston Martin have softened the springs and lightened the anti-roll bars in the Volante, leading to a gentler suspension. The retractable roof of the Volante is made of folding fabric and takes 17 seconds to be put up or down. The Volante weighs 59 kilograms (130 pounds) more than the coupe. The coupe and Volante both share the same semi-automatic and automatic gearboxes and engine. The car was limited to 266 km/h (165 mph) to retain the integrity of the roof. Like the coupe, the original Volante has 420 lb·ft of torque at 5,000 rpm and a maximum power of 450 hp at 6,000 rpm. The 0 to 60 mph slowed to 4.9 seconds due to the additional weight. The DB9 was facelifted in July 2008, which mainly amounted to an increase in engine power, to 476 hp and a redesigned centre console. Externally, the DB9 remained virtually unchanged. For the 2013 model year revision, Aston made minor changes to the bodywork by adapting designs from the Virage, including enlarging the recessed headlight clusters with bi-xenon lights and LED daytime strips, widening the front splitter, updating the grille and side heat extractors, updating the LED rear lights with clear lenses and integrating a new rear spoiler with the boot lid. .On newer models, like the coupe’s, the Volante’s horsepower and torque increased to 517 PS (510 hp) and 457 lb·ft respectively. As a finale for the model, a more powerful DB9 was released in 2015, called the DB9 GT. This had 540 bhp and 457 lb-ft of torque at 5500 rpm, giving a 0 to 60mph time of 4.4 seconds and 0 to 100mph in 10.2 seconds, with the standing quarter mile dispatched in 12.8 to 12.9 seconds and a top speed of 183mph. Production of the DB9 ended in 2016 being replaced by its successor, the DB11.
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.
AUDI
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 HEALEY
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 smaller Austin-Healey Sprite, is a popular classic now. You come across the 3000 models more frequently than the 100s, as they accounted for more than 60% of all Big Healey production
BMW
Not surprisingly, there were a number of modern BMWs here, but the only example of the marque which I photographed was this pre-war 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.
CHEVROLET
A new Camaro debuted in early 1970 and this would run through to 1982 before replacement. Dubbed “Super Hugger”, the second-generation Camaro was developed without the rush of the first generation and benefitted from a greater budget justified by the success of the first generation. Although it was an all-new car, the basic mechanical layout of the new Camaro was familiar, engineered much like its predecessor with a unibody structure utilising a front subframe, A-arm and coil spring front suspension, and rear leaf springs. The chassis and suspension of the second generation were greatly refined in both performance and comfort; base models offered significant advances in sound-proofing, ride isolation, and road-holding. Extensive experience Chevrolet engineers had gained racing the first-generation led directly to advances in second-generation Camaro steering, braking, and balance. Although it began its run with a number of high-performance configurations, as the 1970s progressed, the Camaro grew less powerful, succumbing, like many production cars of the era, to the pressures of tightening emissions regulations and a fuel crisis. Detailed changes were made in every year of production and major styling changes were made in 1974 and 1978; 1981 was the final model year for the second-generation Camaro.
The C5 Corvette was redesigned from the ground up after sales from the previous generation began to decline. Production of the C5 Corvette actually began in 1996 but quality/manufacturing issues saw its release to the public in mass delayed until 1997, and continuing through the 2004 model year. The C5 was a completely new design that featured many new concepts and manufacturing breakthroughs that would be carried forward to the C6 & C7. It had a top speed of 176 mph (283 km/h) and was judged by the automotive press as a breakthrough with vastly improved dynamics in nearly every area over the previous C4 design. Innovations included a 0.29 drag coefficient, near 50/50 weight distribution, active handling (the first stability control for a Corvette). It also weighed less than the C4. It was the first time the platform was badge engineered as the Cadillac XLR with limited sales. An all new LS1 aluminium engine (Gen III small block) featured individual ignition coils for each cylinder, and aluminium block and pistons. It was initially rated at 345 bhp and 350 lb/ft (470 Nm), but was increased to 350 bhp in the 2001 edition. The new engine, combined with the new body, was able to achieve up to 28 mpg on the highway. For its first year, the C5 was available only as a coupe, although the new platform was designed from the ground up to be a convertible, which returned in 1998, followed by the fixed-roof coupe (FRC) in 1999. One concept for the FRC was for it to be a stripped-down model with a possible V6 engine (nicknamed in-house as the “Billy Bob”). By 2000, FRC plans laid the groundwork for the return in 2001 of the Z06, an RPO option not seen since Zora’s 1963 race-ready Corvette. The Z06 model replaced the FRC model as the highest performance C5 Corvette. Instead of a heavier double-overhead cam engine like the ZR-1 of the C4 generation, the Z06 used an LS6, a 385 bhp derivative of the standard LS1 engine. Using the much more rigid fixed roof design allowed the Z06 unprecedented handling thanks to upgraded brakes and less body flex. Those characteristics, along with the use of materials such as a titanium exhaust system and a carbon fiber hood in the 2004 model year, led to further weight savings and performance gains for the C5 Z06. The LS6 was later upgraded to 405 bhp for 2002–2004. Although the Z06’s rated power output equal to that of the C4 ZR-1, the improved rigidity, suspension, brakes, and reduced weight of the C5 produced a car quicker than C4 ZR-1. A sixth generation model arrived for the 2005 model year.
FERRARI
Effectively a mid-life update to the 360 Modena, the F430 debuted at the 2004 Paris Motor Show. Designed by Pininfarina, under the guidance of Frank Stephenson, the body styling of the F430 was revised from the 360 Modena, to improve its aerodynamic efficiency. Although the drag coefficient remained the same, downforce was greatly enhanced. Despite sharing the same basic Alcoa Aluminium chassis, roof line, doors and glass, the car looked significantly different from the 360. A great deal of Ferrari heritage was included in the exterior design. At the rear, the Enzo’s tail lights and interior vents were added. The car’s name was etched into the Testarossa-styled driver’s side mirror. The large oval openings in the front bumper are reminiscent of Ferrari racing models from the 60s, specifically the 156 “sharknose” Formula One car and 250 TR61 Le Mans cars of Phil Hill. Designed with soft-top-convertible. The F430 featured a 4.3 litre V8 petrol engine of the “Ferrari-Maserati” F136 family. This new power plant was a significant departure for Ferrari, as all previous Ferrari V8’s were descendants of the Dino racing program of the 1950s. This fifty-year development cycle came to an end with the entirely new unit. The engine’s output was 490 hp at 8500 rpm and 343 lb/ft of torque at 5250 rpm, 80% of which was available below 3500rpm. Despite a 20% increase in displacement, engine weight grew by only 4 kg and engine dimensions were decreased, for easier packaging. The connecting rods, pistons and crankshaft were all entirely new, while the four-valve cylinder head, valves and intake trumpets were copied directly from Formula 1 engines, for ideal volumetric efficiency. The F430 has a top speed in excess of 196 mph and could accelerate from 0 to 100 km/h in 3.9 seconds, 0.6 seconds quicker than the old model. The brakes on the F430 were designed in close cooperation with Brembo (who did the calipers and discs) and Bosch (who did the electronics package),resulting in a new cast-iron alloy for the discs. The new alloy includes molybdenum which has better heat dissipation performance. The F430 was also available with the optional Carbon fibre-reinforced Silicon Carbide (C/SiC) ceramic composite brake package. Ferrari claims the carbon ceramic brakes will not fade even after 300-360 laps at their test track. The F430 featured the E-Diff, a computer-controlled limited slip active differential which can vary the distribution of torque based on inputs such as steering angle and lateral acceleration. Other notable features include the first application of Ferrari’s manettino steering wheel-mounted control knob. Drivers can select from five different settings which modify the vehicle’s ESC system, “Skyhook” electronic suspension, transmission behaviour, throttle response, and E-Diff. The feature is similar to Land Rover’s “Terrain Response” system. The Ferrari F430 was also released with exclusive Goodyear Eagle F1 GSD3 EMT tyres, which have a V-shaped tread design, run-flat capability, and OneTRED technology. The F430 Spider, Ferrari’s 21st road going convertible, made its world premiere at the 2005 Geneva Motor Show. The car was designed by Pininfarina with aerodynamic simulation programs also used for Formula 1 cars. The roof panel automatically folds away inside a space above the engine bay. The conversion from a closed top to an open-air convertible is a two-stage folding-action. The interior of the Spider is identical to that of the coupé. Serving as the successor to the Challenge Stradale, the 430 Scuderia was unveiled by Michael Schumacher at the 2007 Frankfurt Auto Show. Aimed to compete with cars like the Porsche RS-models and the Lamborghini Gallardo Superleggera it was lighter by 100 kg/220 lb and more powerful (510 PS) than the standard F430. Increased power came from a revised intake, exhaust, and an ion-sensing knock-detection system that allows for a higher compression ratio. Thus the weight-to-power ratio was reduced from 2.96 kg/hp to 2.5 kg/hp. In addition to the weight saving measures, the Scuderia semi-automatic transmission gained improved “Superfast”, known as “Superfast2”, software for faster 60 millisecond shift-times. A new traction control system combined the F1-Trac traction and stability control with the E-Diff electronic differential. The Ferrari 430 Scuderia accelerates from 0-100 km/h in 3.6 seconds, with a top speed of 202 miles per hour. Ferrari claimed that around their test track, Fiorano Circuit, it matched the Ferrari Enzo, and the Ferrari F430’s successor, the Ferrari 458. To commemorate Ferrari’s 16th victory in the Formula 1 Constructor’s World Championship in 2008, Ferrari unveiled the Scuderia Spider 16M at World Finals in Mugello. It is effectively a convertible version of the 430 Scuderia. The engine produces 510 PS at 8500 rpm. The car has a dry weight of 1,340 kg, making it 80 kg lighter than the F430 Spider, at a curb weight of 1,440 kg (3,175 lb). The chassis was stiffened to cope with the extra performance available and the car featured many carbon fibre parts as standard. Specially lightened front and rear bumpers (compared to the 430 Scuderia) were a further sign of the efforts Ferrari was putting into this convertible track car for the road. Unique 5-spoke forged wheels were produced for the 16M’s launch and helped to considerably reduce unsprung weight with larger front brakes and callipers added for extra stopping power (also featured on 430 Scuderia). It accelerates from 0-100 km/h in 3.7 seconds, with a top speed of 315 km/h (196 mph). 499 vehicles were released beginning early 2009 and all were pre-sold to select clients.
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.
FORD
Well known now, thanks to a starring role in the Harry Potter films is the Anglia 105E, a model that Ford launched in October 1959. It was a basic car, even in the better selling De Luxe version, so it was not surprising that Ford introduced a more powerful and luxurious model from 1962, the 123E Anglia Super. It had a larger 1198 cc engine and other refinements. Towards the end of the run Ford experimented with two colours of metallic paint on the Anglia, “Blue Mink” and “Venetian Gold”. 250 were made in the Blue and 500 were made in the Gold. Anglia saloons were provided with various levels of trim. The base model was the Standard, and this sported no chromework, painted rear light surrounds, steel slatted grille and limited interior trim. The deluxe had a chrome side strip, chrome rear lights, glovebox lid, sun visor and full width chrome radiator grille while the top of the range, also seen here, was the Super, which had twin chrome side strips, contrasting coloured roof and side flash, plusher interior trim, together with the 1198 cc engine and a gearbox with synchromesh on first gear. Production concluded at the end of 1967 when the car was replaced by the Escort.
The squarer-styled Mark II Escort appeared in January 1975. The first production models had rolled off the production lines on 2 December 1974. Unlike the first Escort (which was developed by Ford of Britain), the second generation was developed jointly between the UK and Ford of Germany. Codenamed “Brenda” during its development, it used the same mechanical components as the Mark I. The 940 cc engine was still offered in Italy where the smaller engine attracted tax advantages, but in the other larger European markets in Europe it was unavailable. The estate and van versions used the same panelwork as the Mark I, but with the Mark II front end and interior. The car used a revised underbody, which had been introduced as a running change during the last six months production of the Mark I. Rear suspension still sat on leaf springs though some contemporaries such as the Hillman Avenger had moved on to coil springs. The car came in for criticism for its lack of oddments space, with a glove compartment only available on higher end models, and its stalk-mounted horn. The “L” and “GL” models (2-door, 4-door, estate) were in the mainstream private sector, the “Sport”, “RS Mexico”, and “RS2000” in the performance market, the “Ghia” (2-door, 4-door) for a hitherto untapped small car luxury market, and “base / Popular” models for the bottom end. Panel-van versions catered to the commercial sector. The 1598 cc engine in the 1975 1.6 Ghia produced 84 hp with 92 lb/ft torque and weighed 955 kg (2105 lb). A cosmetic update was given in 1978 with L models gaining the square headlights (previously exclusive to the GL and Ghia variants) and there was an upgrade in interior and exterior specification for some models. Underneath a wider front track was given. In 1979 and 1980 three special edition Escorts were launched: the Linnet, Harrier and Goldcrest. Production ended in Britain in August 1980, other countries following soon after.
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 cross-members. 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.
Also here was the current Mustang, the first generation of the car to be sold officially here in right hand drive form.
After a 17 year hiatus, the fifth instalment of the Mustang 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. 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.
HONDA
For the third generation of Civic Type R there was quite a difference between the European model and what was offered in Japan. The European and international market Civic Type R is offered only as a three-door hatchback and uses a different chassis and internal layout (notably tank placement below the driver’s seat), which will serve as the base for the next European version of the Jazz. The rear suspension, formerly a double wishbone setup, was changed to a less complex torsion beam axle. The drive train is largely the same as the predecessor, offering 201 PS (198 hp) at 7,800 rpm and 193 Nm (142 lb/ft) of torque at 5,600 rpm, with 90 percent of peak torque is available from 2,500 rpm. The car is fitted with 225/40 R18 Y88 Bridgestone Potenza RE050A tires, while optional 19-inch Rage alloys fitted with Yokohama Advan Sport 225/35 ZR19 88Y tyres were also available. The car has a curb weight of 1,320 kg (2,910 lb). A total of 29,039 Type-R specification FN2 models were built at the Honda factory in Swindon, 13,514 RHD for the UK, 8,378 LHD for Europe, 3,510 for Japan, 2,285 for Australia, with the remaining units heading to the Africa and Asia regions. From introduction in 2007, The Type R GT trim includes dual-zone climate control (Left:right independent), rain-sensing windscreen wipers, refrigerated glove box, automatic headlights with dusk sensor, front fog lights, power-folding wing mirrors, cruise control, front and rear curtain airbags. In the UK market from 2009 model year, GT models also gained HID headlights with auto levelling, headlight washers with switch, USB and AUX connectors located in the arm rest storage area as well as a multi LED high level rear brake light to replace the previous design. An LSD was fitted to all GT models from April 2010 production also (this was never made available on base Type R models). FN2 Type R’s were finished in the same four colours as the standard FN2, and a new color called Deep Sapphire Blue Pearl added to the colours offered from 2010, at the same time Deep Bronze Metallic was dropped. Only 226 examples of the Deep Sapphire Blue Pearl were built in Type-R specification, 114 for the UK and 112 for Europe. In 2009, the Championship White Edition Type R was made available and added a Helical LSD to the Type R GT feature roster as well as trim items such as dark tint front grill and fuel filler cap as well as color-matched white wheels. As often, names and trims vary even within domain markets down to local ones, and a Heritage trim replaces the GT version in some of them, adding Xenon/HID lights to the mix. The Heritage’s infotainment system version adds Bluetooth telephone system and voice recognition DVD satellite navigation. This model was not offered in the UK. The Type R Race was a more radical trim dubbed Race differs from the Heritage by removing components (incl. HID, AC, fog lights, audio system, soundproofing, some airbags) to reduce weight as much as 40 kg (88 lb). The Type R (Australasia) trim includes dual-zone climate control (Left:right independent), rain-sensing windscreen wipers, refrigerated glove box, front fog lights, power-folding wing mirrors, cruise control, CD/radio/apple integration, front and rear curtain airbags. It is finished in the same four colours as the Euro standard FN2. Production for the European market ended in October 2010 due to the engine not meeting Euro V emissions regulations which came into effect in 2011. Over 12,000 Civic Type Rs were sold in the UK since January 2007, Honda continued to export the car to the Australian market into 2011. It was also exported to Japan and marketed as Civic Type-R EURO in a limited edition in fall 2010, following a successful run in November 2009.
JAGUAR
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.
Debuting over 50 years later was another beautiful sports car, the still current F Type, seen here in coupe format.
LAND ROVER
The Series 2 model, the successor to the successful Series I, saw a production run from 1958 to 1961. It came in 88 in and 109 in wheelbases (normally referred to as the ‘SWB’ and ‘LWB’). This was the first Land Rover to receive the attention of Rover’s styling department. Chief Stylist David Bache produced the familiar ‘barrel side’ waistline, with a 5 in greater width to cover the vehicle’s wider tracks, as well as the improved design of the truck cab variant, introducing the curved side windows and rounded roof still used on current Land Rovers. The series II was the first vehicle to use the well-known 2.25-litre petrol engine, although the first 1,500 or so short wheelbase (SWB) models retained the 52 hp 2.0-litre petrol engine from the series I. This larger petrol engine produced 72 hp and was closely related to the 2.0-litre diesel unit still in use. This engine became the standard Land Rover unit until the mid-1980s when diesel engines became more popular. The 109-inch series II station wagon introduced a twelve-seater option on top of the standard ten-seater layout. This was primarily to take advantage of UK tax laws, by which a vehicle with 12 seats or more was classed as a bus, and was exempt from Purchase Tax and Special Vehicle Tax. This made the twelve-seater not only cheaper to buy than the 10-seater version, but also cheaper than the seven-seater 88-inch Station Wagon. The twelve-seater layout remained a highly popular body style for decades, being retained on the later series and Defender variants until 2002, when it was dropped. The unusual status of the twelve-seater remained until the end—such vehicles were classed as minibuses and thus could use bus lanes and (if registered correctly) could be exempt from the London Congestion Charge. There was some degree of overlap between series I and II production. Early series-II 88-inch ehicles were fitted with the old 2-litre petrol engine to use up existing stock from production of the series I. The 107-inch Station Wagon continued until late 1959 due to continued demand from export markets and to allow the production of series-II components to reach full level. The SII and the SIIA are very difficult to distinguish. There were some minor cosmetic changes. Body configurations available from the factory ranged from short-wheelbase soft-top to the top-of-the-line five-door station wagon. A 2.25-litre diesel was added to the engine line, which after 1967 included a 2.6-litre inline six cylinder petrol engine for the long-wheelbase models, which also had servo-assisted brakes. 811 of these were NADA (or North American Dollar Area) trucks, which were the only long-wheelbase models made for the American and Canadian markets. From February 1969 (home market), the headlamps moved into the wings on all models, and the sill panels were redesigned to be shallower a few months afterwards. The series IIA is considered by many the most hardy series model constructed. It is quite possibly also the type of classic Land Rover that features strongly in the general public’s perception of the Land Rover, from its many appearances in popular films and television documentaries set in Africa throughout the 1960s, such as Born Free. In February 1968, just a few months after the Rover Company had been subsumed, under government pressure, into the Leyland Motor Corporation, the Land Rover celebrated its twentieth birthday, with total production to date just short of 600,000, of which more than 70% had been exported. Certainly it was whilst the series IIA was in production that sales of utility Land Rovers reached their peak, in 1969–70, when sales of over 60,000 Land Rovers a year were recorded. (For comparison, the sales of the Defender have been around the 25,000 level since the 1990s.) As well as record sales, the Land Rover dominated many world markets- in Australia in the 1960s Land Rover held 90% of the 4×4 market. This figure was repeated in many countries in Africa and the Middle East. The Series 3 replaced this version in 1971.
LOTUS
Known internally as the Type 89, the Excel, built from 1982 to 1992, was a development of the earlier Lotus Eclat, which itself was based on the Type 75 Elite. Although a promising design, the Elite and Eclat had suffered from numerous quality control issues which were difficult for owners to accept given the price of the cars. The Excel was a concerted effort to address these, and it stood every chance of so doing, as it took advantage of the relationship with Toyota. This had started when Toyota engaged Lotus to assist with engineering work on the Supra. During this period, Toyota then became a major shareholder in Lotus. Part of the deal between the two included the use of many Toyota mechanical components in Lotus’ cars. The original Excel (aka the Eclat Excel) used the W58 manual transmission, driveshafts, rear differential, 14×7 in alloy wheels, and door handles from the Supra Mk II, which was made from 1982 to 1986. The engine was the familiar all-aluminium, DOHC 2.2 litre Lotus 912 Slant Four which was also used in the Lotus Esprit S3. During its lifetime, the Excel received two major upgrades. With the introduction of the Excel SE which had a 180 bhp engine vs the standard 160 bhp car in October 1985, the bumpers, wing and interior was changed, including a new dashboard. In October 1986 the Excel SA with automatic gearbox was introduced. Further facelifts in 1989 saw Citroën-derived mirrors, as featured on the Esprit, and 15 inch OZ alloy wheels to a similar pattern as the Esprit’s. According to Lotus records, only 1 Excel was manufactured to USA specification. The lack of release in the USA was due to the high emission regulations (which would hinder the car’s performance), and poor sales of the car in Europe.
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.
There has only ever been one front wheel drive model with Lotus badges on it, the “M100” Elan sports car. Like many specialist produced cars of the era, there was a long wait for this car form when news first broke that it was under development to the actual release of cars people could buy. The M100 Elan story goes back to 1986 and the purchase of Lotus by General Motors which provided the financial backing to develop a new, small, affordable car in the same spirit as the original Elan, the last of which had been built in December 1972. A development prototype, the M90 (later renamed the X100) had been built a few years earlier, using a fibreglass body designed by Oliver Winterbottom and a Toyota-supplied 1.6-litre engine and transmission. Lotus was hoping to sell the car through Toyota dealerships worldwide, badged as a Lotus Toyota, but the project never came to fruition and the prototype was shelved, although Lotus’s collaboration with Toyota had some influence on the design of the Toyota MR2. The idea of a small roadster powered by an outsourced engine remained, however, and in late 1986 Peter Stevens’s design for the Type M100 was approved and work began by Lotus engineers to turn the clay styling buck into a car that could be built. This process was completed in just under three years, a remarkably short time from design to production car. The M100 Elan was conceived as a mass-market car and in particular one that would appeal to US buyers. Consequently, Lotus put an enormous effort (for such a small firm) into testing the car; over a two-year period 19 crash cars and 42 development vehicles were built, logging nearly a million test miles in locations from Arizona to the Arctic. The Elan was driven at racing speeds for 24 hours around the track at Snetterton. Finally each new car was test-driven for around 30 miles at Lotus’s Hethel factory to check for any manufacturing defects before being shipped to dealers. The choice of front-wheel drive is unusual for a sports car, but according to Lotus sales literature, “for a given vehicle weight, power and tyre size, a front wheel drive car was always faster over a given section of road. There were definite advantages in traction and controllability, and drawbacks such as torque steer, bump steer and steering kickback were not insurmountable.” This was the only front-wheel-drive vehicle made by Lotus. Every model made since the M100 Elan, such as the Lotus Elise, has been rear-wheel drive. The M100 Elan’s cornering performance was undeniable (on release the Elan was described by Autocar magazine as “the quickest point to point car available”). Press reaction was not uniformly positive, as some reviewers found the handling too secure and predictable compared to a rear-wheel-drive car. However, the Elan’s rigid chassis minimised roll through the corners and has led to its description as ‘the finest front wheel drive [car] bar none’. Unlike the naturally aspirated version, the turbocharged SE received power steering as standard, as well as tyres with a higher ZR speed rating. The M100 Elan used a 1,588 cc double overhead camshaft (DOHC) 16-valve engine, sourced from the Isuzu Gemini and extensively modified by Lotus (a third generation of this engine was later used in the Isuzu Impulse), which produced 162 hp. 0–60 acceleration time was measured by Autocar and Motor magazine at 6.5 seconds, and a top speed of 137 mph was recorded. Significant differences in the Isuzu-Lotus engine from the original include a new exhaust system, re-routed intake plumbing for better thermodynamic efficiency, improved engine suspension, and major modifications to the engine control unit to improve torque and boost response. Almost all models featured an IHI turbocharger. Two variants were available at launch, the 130 bhp Elan 1.6 (retailing at £17,850) and the 162 bhp Turbo SE (£19,850). Initial sales were disappointing, perhaps because its launch coincided with a major economic recession in the UK and USA, and perhaps also because it coincided with the cheaper Mazda MX-5 which was arguably similar in concept, though the MX-5 was quite intentionally nostalgic and old fashioned (apeing the original Elan), while the M100 was deliberately futuristic, modern and forward looking. The Elan was regarded as a good product in a bad market, but was also very expensive to make (the cost to design and produce the dashboard alone was more than the total cost of the Excel production line), and sales figures were too low to recoup its huge development costs. Altogether 3,855 Elans were built between November 1989 and July 1992, including 129 normally aspirated (non-turbo) cars. 559 of them were sold in the US, featuring a ‘stage 2 body’ which had a different rear boot spoiler arrangement together with a lengthened nose to accommodate a USA-compliant crash structure and airbag, and 16-inch wheels (optional in most markets, standard in the U.S.) instead of 15-inch as on the UK model. A limited edition of 800 Series 2 (S2) M100 Elans was released during the Romano Artioli era (produced June 1994–September 1995) when it was discovered that enough surplus engines were available to make this possible. According to Autocar magazine, the S2 addressed some of the concerns over handling, but power was reduced to 155 bhp and the 0–60 acceleration time increased to 7.5 seconds, due to the legislative requirement to fit a catalytic converter in all markets. The S2s have very similar performance to the USA vehicles, having an identical engine management system calibration and a slightly lower overall vehicle weight.
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.
Lotus dusted off the Europa name for a new car In 2005, based on the Elise, which was officially introduced at the 2006 Geneva Motor Show. Lotus Europa S production commenced in July 2006 and continued to 2010. The engine was a 2.0 litre turbo delivering 197 bhp at 5,400 rpm, with a maximum torque of 272 N·m (201 lb·ft) at 5,400 rpm, delivering 0-60 mph in 5.6 seconds and a maximum speed of 143 mph. Lotus did not export the Europa S to the USA, but despite this, the American manufacturer Dodge developed an electric vehicle based on the Europa, known as the Dodge Circuit, which it planned to bring to the US market by 2010, but the project was cancelled in May 2009. The Europa SE was unveiled at the Geneva International Motor Show on 5 March 2008. The Europa was an upgraded model with more comfort in mind, intended to bring in more customers. The Europa S motor was modified to bring power to 222 bhp and torque to 300 N·m (221 lb·ft). Neither version was a success, though and the Europa was discontinued in 2010 after a short model life.
Currently Lotus are only producing one car, the Emira, though more are – all electric – are coming. Production of the Emira was somewhat delayed but there are now significant numbers of the cars (by Lotus standards!) out there so quite a few were presented here.
MAZDA
The fourth-generation Mazda MX-5 was unveiled in 2014 and has been in production since 2015. An updated model was introduced in 2019 and is visually identical to the pre-update model; it has been designated as series “ND2” due to an engine upgrade to 181 bhp and several other improvements around the car. The ND generation introduced a Retractable Fastback (RF) variant that features a rigid roof and buttresses that give the silhouette a more coupé-like appearance than the soft top convertible. The fourth generation MX-5 has received several accolades such as the 2015-2016 Car of the Year Japan Award, the 2016 World Car of the Year Award, Car and Driver’s 10Best list from 2016 to 2019, and the Red Dot Best of the Best Award in Product Design 2017. In addition, the car is the basis for the Fiat 124 Spider and Abarth 124 Spider.
McLAREN
Sitting below the 720 in the range are the 540 and 570 models. The first of these were revealed at the 2015 New York Auto Show, going on sale towards the end of that year. These were labelled as part of McLaren’s Sports Series. This mid-engine sportscar features the lightweight carbon fibre MonoCell II chassis, and a highly efficient 3.8-litre twin turbo V8 engine generating 562bhp and 443lb/ft of torque. Although the model has been conceived with a greater focus on day-to-day usability and refinement, but it is still very much a pure McLaren, boasting a class-leading power-to-weight ratio of 434PS per tonne, and electrifying performance. The 570S Coupé accelerates from 0 to 100km/h in just 3.2 seconds, reaches 200km/h (124mph) in 9.5 seconds, and on to a top speed of 204mph. Pricing for the 570S Coupé started at £143,250, though like all cars of this type, that figure can quickly rise once you raid the options list.
MG
Replacing the J series cars was the 1934 PA. The PA and later PB replaced the J Type Midget. These 2-door sports cars used an updated version of the overhead camshaft, crossflow engine that was also used in the 1928 Morris Minor and Wolseley 10 as well as the J-type Midget of 1932 to 1934. It drove the rear wheels through a four-speed non-synchromesh gearbox. The chassis was a strengthened and slightly longer version of that used in the J-type with suspension by half-elliptic springs all round with rigid front and rear axles. Steering was initially by a Marles Weller and later a Bishop Cam system. The two-seat car had a wheelbase of 87″ and a track of 42″. Most cars were open two seaters, but streamlined Airline coupé bodies were also made. The P-type was also available as a four-seater, a car that suffered from a lack of power and poor rear ground clearance. Whereas J, K and L-type MGs differentiated between versions with the use of numbers, with 1 indicating a four-seater (the J1) and 2 a two-seater (the J2), this was not the case with the P-type (or its six-cylinder sister, the N-type Magnette), and there is no clue to the type in the name. The first version, the PA used an 847 cc engine similar to the one on the J-Type, but now with a 3-bearing crankshaft, larger camshaft and twin SU carburettors. It produced 36 bhp at 5,500 rpm. In 1935, a PA open two-seater cost £222. Around 2,000 PAs were made. In late 1936 the PA was replaced by the PB, which had a larger 939cc 43bhp engine and which is distinguished by a grille of vertical slats as opposed to the honeycomb pattern of the PA. 526 examples of the PB were made.
Although pre-war MG is best known for its sports cars, the Abingdon marque did head up market in the late 1930s, producing a range of cars which were aimed at competing with the emerging Jaguar saloons, and there were examples of each of the three series that resulted, an SA, the smaller VA and the later WA. All three were splendid. Seen here was an SA Saloon that I have admired on a number of occasions here in the past The SA Saloon was launched as the 2 litre, and only later became known as the SA. The car had been originally planned as an advanced performance saloon to rival the likes of SS Cars (later to be known as Jaguar) and even Bentley with all independent suspension and was given the factory code of EX150 and designated the S-type. A prototype was made but with the amalgamation of MG with Morris Motors in 1935, development stopped. The Cowley drawing office picked up the project again but a much more conservative car appeared with conventional live rear and beam front axles. The SA used a tuned version of the six cylinder 2062cc Morris QPHG engine which it shared with the Wolseley Super Six but enlarged to 2288cc. The capacity was increased again to 2322cc in 1937 bringing it into line with the Wolseley 18. This was a tall engine and to allow the bonnet line to be as low as possible the twin SU carburettors had their dashpots mounted horizontally. Drive was to the live rear axle via a four speed manual gearbox with synchromesh on the top two ratios (on all but a few early models). Wire wheels were fitted and the drum brakes were hydraulically operated using a Lockheed system. A built in Jackall jacking system was fitted to the chassis. The saloon body, the only option available at the time of the car’s launch, was made in-house by Morris and was a spacious four door with traditional MG grille flanked by two large chrome plated headlights. The spare wheel was carried on the boot lid. Inside there were individual seats in front and a bench seat at the rear, all with leather covering. Much use was made of walnut for the dashboard and other trim items. A Philco radio was offered as an optional extra for 18 Guineas (£18.90). From April 1936 a Tickford drophead coupé by Salmons joined the range priced at £398, the saloon was £375, and in July coachbuilders Charlesworth offered a four door tourer at £375. The tourer originally had straight topped doors but these were replaced with front ones with cutaway tops from 1938 and at the same time the spare wheel moved to the front wing. Of the 2739 cars made, 350 were exported with Germany proving the best market. Quite a few have survived, though many are in need of restoration, and that is a costly business, as this was a complex car, and values of the car do not (yet) make this financially justifiable, which is a pity, as this is a supremely elegant car. This was one of my favourite cars of the whole event.
Launched in October 1962, this car was produced for the next 18 years and it went on to become Britain’s best selling sports car. When first announced, the MGB was an innovative, modern design, with a monocoque structure instead of the traditional body-on-frame construction used on both the MGA and MG T-types and the MGB’s rival, the Triumph TR series, though components such as the brakes and suspension were developments of the earlier 1955 MGA and the B-Series engine had its origins back in 1947. The lightweight design reduced manufacturing costs while adding to overall vehicle strength, and with a 95hp 3-bearing 1798cc engine under the bonnet, performance was quite respectable with a 0–60 mph time of just over 11 seconds. The car was rather more civilised than its predecessor, with wind-up windows now fitted as standard, and a comfortable driver’s compartment offered plenty of legroom. The roadster was the first of the MGB range to be produced. The body was a pure two-seater but a small rear seat was a rare option at one point. By making better use of space the MGB was able to offer more passenger and luggage accommodation than the earlier MGA while being 3 inches shorter overall. The suspension was also softer, giving a smoother ride, and the larger engine gave a slightly higher top speed. The four-speed gearbox was an uprated version of the one used in the MGA with an optional (electrically activated) overdrive transmission. A five-bearing engine was introduced in 1964 and a number of other modifications crept into the specification. In late 1967, sufficient changes were introduced for the factory to define a Mark II model. Alterations included synchromesh on all 4 gears with revised ratios, an optional Borg-Warner automatic gearbox, a new rear axle, and an alternator in place of the dynamo with a change to a negative earth system. To accommodate the new gearboxes there were significant changes to the sheet metal in the floorpan, and a new flat-topped transmission tunnel. US market cars got a new safety padded dashboard, but the steel item continued for the rest of the world. Rostyle wheels were introduced to replace the previous pressed steel versions in 1969 and reclining seats were standardised. 1970 also saw a new front grille, recessed, in black aluminium. The more traditional-looking polished grille returned in 1973 with a black “honeycomb” insert. Further changes in 1972 were to the interior with a new fascia. To meet impact regulations, in late 1974, the chrome bumpers were replaced with new, steel-reinforced black rubber bumpers, the one at the front incorporating the grille area as well, giving a major restyling to the B’s nose, and a matching rear bumper completed the change. New US headlight height regulations also meant that the headlamps were now too low. Rather than redesign the front of the car, British Leyland raised the car’s suspension by 1-inch. This, in combination with the new, far heavier bumpers resulted in significantly poorer handling. For the 1975 model year only, the front anti-roll bar was deleted as a cost-saving measure (though still available as an option). The damage done by the British Leyland response to US legislation was partially alleviated by revisions to the suspension geometry in 1977, when a rear anti-roll bar was made standard equipment on all models. US emissions regulations also reduced horsepower. In March 1979 British Leyland started the production of black painted limited edition MGB roadsters for the US market, meant for a total of 500 examples. Due to a high demand of the limited edition model, production ended with 6682 examples. The United Kingdom received bronze painted roadsters and a silver GT model limited editions. The production run of home market limited edition MGBs was split between 421 roadsters and 579 GTs. Meanwhile, the fixed-roof MGB GT had been introduced in October 1965, and production continued until 1980, although export to the US ceased in 1974. The MGB GT sported a ground-breaking greenhouse designed by Pininfarina and launched the sporty “hatchback” style. By combining the sloping rear window with the rear deck lid, the B GT offered the utility of a station wagon while retaining the style and shape of a coupe. This new configuration was a 2+2 design with a right-angled rear bench seat and far more luggage space than in the roadster. Relatively few components differed, although the MGB GT did receive different suspension springs and anti-roll bars and a different windscreen which was more easily and inexpensively serviceable. Although acceleration of the GT was slightly slower than that of the roadster, owing to its increased weight, top speed improved by 5 mph to 105 mph because of better aerodynamics. 523,826 examples of the MGB of all model types were built, and although many of these were initially sold new in North America, a lot have been repatriated here. There were several Roadsters and MGB GT models here.
MORGAN
PEUGEOT
Mindful of the success of the Golf GTi, in the class above, and how a small car with good handling could take more power, as the Mini Cooper had proved, Peugeot came up with the GTi in early 1984. The first models had a 1.6 litre XU5J engine, producing 105 PS, which was uprated in 1987 with a cylinder head with larger valves thus becoming XU5JA, which took the power output up to 115 bhp. Visually the car retained the good looks of the 3 door version of the regular models, but it featured plastic wheel arch extensions and trim, beefier front and rear bumper valances and judicious use of red badging and trim. The shell also underwent some minor changes, including larger wheel arches (to suit the larger wheels , and the suspension was redesigned and sat lower on the GTI with stiffer springs, different wishbones and a drop-linked anti-roll bar. Red was a dominant colour inside. The car was an instant hit. At the end of 1986, Peugeot followed up with a more potent model, the 1.9 GTi, whose XU9JA engine produced 128 PS. Internally the engine of this car and the 1.6 model are very similar, the main differences on 1.9 litre versions being the longer stroke, oil cooler, and some parts of the fuel injection system. The shorter stroke 1.6 litre engine is famed for being revvy and eager, while the 1.9 litre feels lazier and torquier. Outside the engine bay the main differences between the 1.6 GTi and the 1.9 GTi are half-leather seats on the 1.9 GTi vs. cloth seats and disc brakes all-round (1.9 GTi) vs. discs at the front and drum brakes at the back; as well as the 14-inch Speedline SL201 wheels on the 1.6 GTi vs. 15 inch Speedline SL299 alloys on the 1.9 GTi. The 205 is still often treated as a benchmark in group car tests of the newest GTI models or equivalent. Peugeot itself has never truly recreated this success in future GTI models, although they came very close with the highly regarded GTI-6 variant of the Peugeot 306.
PORSCHE
The Porsche 550 is a racing sports car produced by Porsche from 1953 until 1956. In that time only 90 Porsche 550s were produced, and they quickly established dominance in the 1.1- and 1.5- litre classes. The Porsche 550 is a mid-engine car with an air-cooled four-cylinder engine, following the precedent of the 1948 Porsche 356/1 prototype designed by Ferry Porsche. The mid-engine racing design was further developed with Porsche’s 718 model; its advantages led to it becoming the dominant design for top-level racing cars by the mid-1960s. The Porsche 550 has a solid racing history; it won the Nürburgring Eifel Race in May 1953, the first race it entered. The 550 Spyder usually finished in the top three in its class. Each Spyder was designed and customized to be raced. A 1958 Porsche 550A Spyder sold at auction in 2018 by Bonhams for $5,170,000 (£4,115,763); it was the highest price for a 550 at auction. The Type 550/550 A is powered by an all aluminium 1,498 cc naturally aspirated air-cooled 4 cylinder boxer engine known as the “Fuhrmann Engine” (Type 547). Its valvetrain uses double overhead camshafts on each cylinder bank, driven by vertical shafts, actuating 2 valves per cylinder. The engine is equipped with twin 2-barrel Solex 40 PII sandcasted carburetors and dual ignition. In its first version it produced 110 PS (108 bhp) at 6200 rpm and a maximum torque of 121 Nm (89 lb/ft) at 5000 rpm. The engine of the 550 is mounted in front of the rear axle making it mid-engined. This gives it a more balanced weight distribution, and allows for largely neutral handling. On the other hand, the low mass moment of inertia about the vehicle’s vertical axis can lead to a sudden, difficult to control rotation of the car. Ferdinand Porsche had pioneered this design layout with the Auto Union Grand Prix car of the 1930s. The first 550 had a fully synchronized 4-speed gearbox. Starting in 1956, a 5-speed gearbox was used, but its first gear only had to start and (like the reverse gear) had to be placed over a barrier and not synchronized. Excessive slip to the drive wheels in corners was prevented by a limited slip differential. Inspired by the Porsche 356 which was created by Ferry Porsche, as well as Spyder prototypes built and raced by Walter Glöckler starting in 1951, the factory decided to build a car designed for use in auto racing. The Porsche 550 Spyder was introduced at the 1953 Paris Auto Show. The 550 was very low to the ground, in order to be efficient for racing. In fact, former German Formula One racer Hans Herrmann drove it under closed railroad crossing gates during the 1954 Mille Miglia. The first three hand-built prototypes came in a coupé with a removable hardtop. The first (550-03) raced as a roadster at the Nurburgring Eifel Race in May 1953 winning its first race. Later that year the 550 took class wins in the 24 Hours of Le Mans and the Carrera Panamericana; the Carrera Panamericana win was commemorated with the Carrera branding for later Porsches with performance options. From 1953 to 1957, the Porsche works team evolved and raced the 550 with outstanding success and was recognized wherever it appeared. The silver Werke cars were painted with spears of different colours on the rear fenders to aid recognition from the pits. Hans Herrmann’s particularly famous ‘red-tail’ car No 41 went from victory to victory. For such a limited number of 90 prototype and customer builds, the 550 Spyder was always in a winning position, usually finishing in the top three results in its class. During its tenure with the works team it was challenged only twice among the smaller cars at the 24 Hours of Le Mans, with a 1.5-liter OSCA MT4 finishing ahead but disqualified in the 1954 race and a 1.1 litre Lotus Eleven trailing the 1.5 litre winning 550 by one lap in the 1957 race. The 1956 version, the 550A with a lighter and more rigid spaceframe chassis, gave Porsche its first overall win in a major sports car racing event, the 1956 Targa Florio. During this era Porsche was the first car manufacturer to get race sponsorship, which was through Fletcher Aviation, who Porsche was working with to design a light aircraft engine and later Telefunken and Castrol. The 550 was also raced by privateers, who kept the type in competition after the works team had moved on to the 718 in 1957. The 550 was both a road and track car and it was common for privateers to drive it to the race track, race it, then drive it home. Each Spyder was assigned a number for the race and had gumballs positioned on doors, front and rear, to be seen from any angle. On some 550s owned by privateers, a crude hand written number scrawled in house paint usually served the purpose. Cars with high numbers assigned such as 351, raced in the 1000 mile Mille Miglia, where the number represented the start time of 3.51am. On most occasions, numbers on each Spyder would change for each race entered, which today helps identify each 550 by chassis number and driver in period black and white photos. Its successor from 1957 onwards, the Porsche 718, commonly known as the RSK was even more successful. The Spyder variations continued through the early 1960s, the RS 60 and RS 61. The Porsche Boxster S 550 Spyder is a modern mid-engined sports car that pays tribute to the 550; the Spyder name was effectively resurrected with the RS Spyder Le Mans Prototype. One of the first 90 Porsche 550s built was James Dean’s, numbered 130 (VIN 550-0055), which was involved in a collision at the CA Rte. 46/41 Cholame Junction on September 30, 1955, resulting in Dean’s death. As Dean was finishing up Giant’s filming in September, 1955, he suddenly traded in his 356 Porsche Super Speedster at Competition Motors, for a new 1955 Porsche 550 Spyder on September 21, and immediately entered the upcoming Salinas Road Race event scheduled for October 1 and 2. A contemporary of Dean, the rising actor Tom Pittman also died prematurely when he crashed his Spyder over a cliff in 1958. The 550 is among the most frequently reproduced classic automobiles and this is one such.
The 911 traces its roots to sketches drawn by Ferdinand “Butzi” Porsche in 1959. The Porsche 911 was developed as a more powerful, larger and a more comfortable replacement for the 356, the company’s first model. The new car made its public debut at the 1963 Frankfurt Motor Show. The car was developed with the proof-of-concept twin-fan Type 745 flat-six engine, but the car presented at the auto show had a non-operational mockup of the single-fan 901 engine, receiving a working unit in February 1964. It originally was designated as the “Porsche 901” (901 being its internal project number). A total of 82 cars were built as which were badges as 901s. However, French automobile manufacturer Peugeot protested on the grounds that in France it had exclusive rights to car names formed by three numbers with a zero in the middle. Instead of selling the new model with a different name in France, Porsche changed the name to 911. Internally, the cars’ part numbers carried on the prefix 901 for years. Production began in September 1964, with the first 911s exported to the US in February 1965. The first models of the 911 had a rear-mounted 130 hp Type 901/01 flat-6 engine, in the “boxer” configuration like the 356, the engine is air-cooled and displaces 1,991 cc as compared to the 356’s four-cylinder, 1,582 cc unit. The car had four seats although the rear seats were small, thus it is usually called a 2+2 rather than a four-seater (the 356 was also a 2+2). A four or five-speed “Type 901” manual transmission was available. The styling was largely penned by Ferdinand “Butzi” Porsche, son of Ferdinand “Ferry” Porsche. Butzi Porsche initially came up with a notchback design with proper space for seating two rear passengers but Ferry Porsche insisted that the 356’s successor was to use its fastback styling. 7 prototypes were built based on Butzi Porsche’s original design and were internally called the Porsche 754 T7. Erwin Komenda, the leader of the Porsche car body construction department who initially objected, was also involved later in the design. In 1966, Porsche introduced the more powerful 911S with Type 901/02 engine having a power output of 160 PS. Forged aluminum alloy wheels from Fuchsfelge, with a 5-spoke design, were offered for the first time. In motorsport at the same time, the engine was developed into the Type 901/20 and was installed in the mid-engine 904 and 906 with an increased power output of 210 PS, as well as fuel injected Type 901/21 installed in later variants of the 906 and 910 with a power output of 220 PS. In August 1967, the A series went into production with dual brake circuits and widened (5.5J-15) wheels still fitted with Pirelli Cinturato 165HR15 CA67 tyres. and the previously standard gasoline-burning heater became optional. The Targa version was introduced. The Targa had a stainless steel-clad roll bar, as automakers believed that proposed rollover safety requirements by the US National Highway Traffic Safety Administration (NHTSA) would make it difficult for fully open convertibles to meet regulations for sale in the US, an important market for the 911. The name “Targa” came from the Targa Florio sports car road race in Sicily, Italy in which Porsche had several victories until 1973. The last win in the subsequently discontinued event was scored with a 911 Carrera RS against prototypes entered by Ferrari and Alfa Romeo. The road going Targa was equipped with a removable roof panel and a removable plastic rear window (although a fixed glass version was offered from 1968). The 110 PS 911T was also launched in 1967 with Type 901/03 engine. The 130 PS model was renamed the 911L with Type 901/06 engine and ventilated front disc brakes. The brakes had been introduced on the previous 911S. The 911R with 901/22 engine had a limited production (20 in all), as this was a lightweight racing version with thin fibreglass reinforced plastic doors, a magnesium crankcase, twin overhead camshafts, and a power output of 210 PS. A clutchless semi-automatic Sportomatic model, composed of a torque converter, an automatic clutch, and the four-speed transmission was added in Autumn 1967. It was cancelled after the 1980 model year partly because of the elimination of a forward gear to make it a three-speed. The B series went into production in August 1968, replacing the 911L model with 911E with fuel injection. It remained in production until July 1969. The 911E gained 185/70VR15 Pirelli Cinturato CN36. and 6J-15 wheels. The C series was introduced in August 1969 with an enlarged 2.2-litre engine. The wheelbase for all 911 and 912 models was increased from 2,211–2,268 mm (87.0–89.3 in), to help as a remedy to the car’s nervous handling at the limit. The overall length of the car did not change, but the rear wheels were relocated further back. Fuel injection arrived for the 911S (901/10 engine) and for a new middle model, 911E (901/09 engine). The D series was produced from Aug. 1970 to July 1971. The 2.2-litre 911E (C and D series) had lower power output of the 911/01 engine (155 PS) compared to the 911S’s Type 911/02 (180 PS, but 911E was quicker in acceleration up to 160 km/h. The E series for 1972–1973 model years (August 1971 to July 1972 production) consisted of the same models, but with a new, larger 2,341 cc engine. This is known as the “2.4 L” engine, despite its displacement being closer to 2.3 litres. The 911E (Type 911/52 engine) and 911S (Type 911/53) used Bosch mechanical fuel injection (MFI) in all markets. For 1972 the 911T (Type 911/57) was carbureted, except in the US and some Asian markets where the 911T also came with (MFI) mechanical fuel injection (Type 911/51 engine) with power increase over European models (130 hp) to 140 hp commonly known as a 911T/E. With power and torque increase, the 2.4-litre cars also got a newer, stronger transmission, identified by its Porsche type number 915. Derived from the transmission in the 908 race car, the 915 did away with the 901 transmission’s “dog-leg” style first gear arrangement, opting for a traditional H pattern with first gear up to the left, second gear underneath first, etc. The E series had the unusual oil filler behind the right side door, with the dry sump oil tank relocated from behind the right rear wheel to the front of it in an attempt to move the center of gravity slightly forward for better handling. An extra oil filler/inspection flap was located on the rear wing, for this reason it became known as an “Oil Klapper”, “Ölklappe” or “Vierte Tür (4th door)”. The F series (August 1972 to July 1973 production) moved the oil tank back to the original behind-the-wheel location. This change was in response to complaints that gas-station attendants often filled gasoline into the oil tank. In January 1973, US 911Ts were switched to the new K-Jetronic CIS (Continuous Fuel Injection) system from Bosch on Type 911/91 engine. 911S models also gained a small spoiler under the front bumper to improve high-speed stability. The cars weighed 1,050 kg (2,310 lb). The 911 ST was produced in small numbers for racing (the production run for the ST lasted from 1970 to 1971). The cars were available with engines of either 1,987 cc or 2,404 cc, having a power output of 270 PS at 8,000 rpm. Weight was down to 960 kg (2,120 lb). The cars had success at the Daytona 6 Hours, the Sebring 12 Hours, the 1000 km Nürburgring, and the Targa Florio. The G Series cars, with revised bodies and larger impact-absorbing bumpers arrived in the autumn of 1973 and would continue in production with few visual changes but plenty of mechanical ones for a further 16 years.
Replacing the 964, the 993 models were first seen in October 1993, with production starting a few weeks later. Its arrival marked the end of air-cooled 911 models. The 993 was much improved over, and quite different from its predecessor. According to Porsche, every part of the car was designed from the ground up, including the engine and only 20% of its parts were carried over from the previous generation. Porsche refers to the 993 as “a significant advance, not just from a technical, but also a visual perspective.” Porsche’s engineers devised a new light-alloy subframe with coil and wishbone suspension (an all new multi-link system), putting behind the previous lift-off oversteer and making significant progress with the engine and handling, creating a more civilised car overall providing an improved driving experience. The 993 was also the first 911 to receive a six speed transmission. The 993 had several variants, as its predecessors, varying in body style, engines, drivetrains and included equipment. Power was increased by the addition of the VarioRam system, which added additional power, particularly in the mid-ranges, and also resulted in more throttle noise at higher revs; as a consequence, resulted in a 15% increase in power over its predecessor. The external design of the Porsche 993, penned by English designer Tony Hatter, retained the basic body shell architecture of the 964 and other earlier 911 models, but with revised exterior panels, with much more flared wheel arches, a smoother front and rear bumper design, an enlarged retractable rear wing and teardrop mirrors. A major change was the implementation of all alloy multi-link rear suspension attached to an alloy sub frame, a completely new design derived from the 989, a four-door sedan which never went into production. The system later continued in the 993’s successor, the 996, and required the widening of the rear wheel arches, which gave better stability. The new suspension improved handling, making it more direct, more stable, and helping to reduce the tendency to oversteer if the throttle was lifted during hard cornering, a trait of earlier 911s. It also reduced interior noise and improved ride quality. The 993 was the first generation of the 911 to have a 6-speed manual transmission included as standard; its predecessors had 4 or 5-speed transmissions. In virtually every situation, it was possible to keep the engine at its best torque range above 4,500 rpm. The Carrera, Carrera S, Cabriolet and Targa models (rear wheel drive) were available with a “Tiptronic” 4-speed automatic transmission, first introduced in the 964. From the 1995 model year, Porsche offered the Tiptronic S with additional steering wheel mounted controls and refined software for smoother, quicker shifts. Since the 993’s introduction, the Tiptronic is capable of recognising climbs and descents. The Tiptronic equipped cars suffer as compared to the manual transmission equipped cars in both acceleration and also top speed, but the differences are not much notable. Tiptronic cars also suffered a 55 lb (25 kg) increase in weight. The 993’s optional all wheel drive system was refined over that of the 964. Porsche departed from the 964’s setup consisting of three differentials and revised the system based on the layout from its 959 flagship, replacing the centre differential with a viscous coupling unit. In conjunction with the 993’s redesigned suspension, this system improved handling characteristics in inclement weather and still retained the stability offered by all wheel drive without having to suffer as many compromises as the previous all-wheel-drive system. Its simpler layout also reduced weight, though the four wheel drive Carrera 4 weighs 111 lb (50 kg) more than its rear wheel drive counterpart (at 3,131 lb (1,420 kg) vs. 3,020 lb (1,370 kg)). Other improvements over the 964 include a new dual-flow exhaust system, larger brakes with drilled discs, and a revised power steering. A full range of models arrived before the arrival of the 996 generation in 1998.
During the 1990s, Porsche was facing financial troubles and rumours of a proposed takeover were being spread. The signature air-cooled flat-6 of the 911 was reaching the limits of its potential as made evident by the 993. Stricter emissions regulations world wide further forced Porsche to think of a replacement of the air-cooled unit. In order to improve manufacturing processes, Porsche took the aid of leading Japanese car manufacturer Toyota whose consultants would assist in the overhaul of the Zuffenhausen manufacturing facility introducing mass production techniques which would allow Porsche to carry out production processes more efficiently. Porsche had realised that in order to keep the 911 in production, it would need radical changes. This led to the development of the 996. The sharing of development between the new 911 and the entry level Boxster model allowed Porsche to save development costs. This move also resulted in interchangeable parts between the two models bringing down maintenance costs. The Porsche 996 was a new design developed by Pinky Lai under Porsche design chief Harm Lagaay from 1992 to 1994; it was the first 911 that was completely redesigned, and carried over little from its predecessor as Porsche wanted the design team to design a 911 for the next millennium. Featuring an all new body work, interior, and the first water-cooled engine, the 996 replaced the 993 from which only the front suspension, rear multi-link suspension, and a 6-speed manual transmission were retained in revised form. The 996 had a drag coefficient of Cd=0.30 resulting from hours spent in the wind tunnel. The 996 is 185 mm (7 in) longer and 40 mm (2 in) wider than its predecessor. It is also 45% stiffer courtesy of a chassis formed from high-strength steel. Additionally, it is 50 kg (110 lb) lighter despite having additional radiators and coolant. All of the M96 engines offered in the 996 (except for the variants fitted to the Turbo and GT2/GT3 models) are susceptible to the Porsche Intermediate Shaft Bearing issue which can potentially cause serious engine failure if not addressed via a retrofit. The 996 was initially available in a coupé or a cabriolet (Convertible) bodystyle with rear-wheel drive, and later with four-wheel drive, utilising a 3.4 litre flat-6 engine generating a maximum power output of 296 bhp. The 996 had the same front end as the entry-level Boxster. After requests from the Carrera owners about their premium cars looking like a “lower priced car that looked just like theirs did”, Porsche redesigned the headlamps of the Carrera in 2002 similar to the high performance Turbo’s headlamps. The design for the initial “fried egg” shaped headlamps could be traced back to the 1997 911 GT1 race car. In 2000, Porsche introduced the 996 Turbo, equipped with a four-wheel-drive system and a 3.6-litre, twin-turbocharged and intercooled flat-six engine generating a maximum power output of 420 bhp, making the car capable of accelerating from 0–60 mph in 4.2 seconds. An X50 option which included larger turbochargers and intercoolers along with revised engine control software became available from the factory in 2002, increasing power output to 451 bhp. In 2005, Porsche introduced the Turbo S, which had the X50 option included as standard equipment, with the formerly optional Carbon fibre-reinforced Silicon Carbide (C/SiC) composite ceramic brakes (PCCB) also included as standard. In 2000, power output on the base Carrera model was increased to 300 bhp. 2001 marked the final year of production for the base Carrera 4 Coupé in narrow body format. In 2002, the standard Carrera models underwent the above-mentioned facelift. In addition, engine capacity was also increased to 3.6-litres across the range, yielding gains of 15 bhp for the naturally aspirated models. 2002 also marked the start of the production of the 996 based Targa model, with a sliding glass “green house” roof system as introduced on its predecessor. It also features a rear glass hatch which gave the driver access to the storage compartment. Also in 2002, the Carrera 4S model was first introduced.
The 996 was replaced with the 997 in 2005. It retains the 996’s basic profile, with an even lower 0.28 drag coefficient, but draws on the 993 for detailing. In addition, the new headlights revert to the original bug-eye design from the teardrop scheme of the 996. Its interior is also similarly revised, with strong links to the earlier 911 interiors while at the same time looking fresh and modern. The 997 shares less than a third of its parts with the outgoing 996, but is still technically similar to it. Initially, two versions of the 997 were introduced— the rear-wheel-drive Carrera and Carrera S. While the base 997 Carrera had a power output of 321 hp from its 3.6 L Flat 6, a more powerful 3.8 L 350 hp Flat 6 powers the Carrera S. Besides a more powerful engine, the Carrera S also comes standard with 19 inch “Lobster Fork” style wheels, more powerful and larger brakes (with red calipers), lowered suspension with PASM (Porsche Active Suspension Management: dynamically adjustable dampers), Xenon headlamps, and a sports steering wheel. In late 2005, Porsche introduced the all-wheel-drive versions to the 997 lineup. Carrera 4 models (both Carrera 4 and Carrera 4S) were announced as 2006 models. Both Carrera 4 models are wider than their rear-wheel-drive counterparts by 1.76 inches (32 mm) to cover wider rear tyres. The 0–100 km/h (62 mph) acceleration time for the Carrera 4S with the 350 hp engine equipped with a manual transmission was reported at 4.8 seconds. The 0–100 km/h (62 mph) acceleration for the Carrera S with the 350 hp was noted to be as fast as 4.2 seconds in a Motor Trend comparison, and Road & Track has timed it at 3.8 seconds. The 997 lineup includes both 2- and 4-wheel-drive variants, named Carrera and Carrera 4 respectively. The Targas (4 and 4S), released in November 2006, are 4-wheel-drive versions that divide the difference between the coupés and the cabriolets with their dual, sliding glass tops. The 997 received a larger air intake in the front bumper, new headlights, new rear taillights, new clean-sheet design direct fuel injection engines, and the introduction of a dual-clutch gearbox called PDK for the 2009 model year. They were also equipped with Bluetooth support. The change to the 7th generation (991) took place in the middle of the 2012 model year. A 2012 Porsche 911 can either be a 997 or a 991, depending on the month of the production.
The 991 introduced in 2012 is an entirely new platform, only the third since the original 911. Porsche revealed basic information on the new Carrera and Carrera S models on 23 August 2011. The Carrera is powered by a 350 hp 3.4-litre engine. The Carrera S features a 3.8-litre engine rated at 400 hp. A Power Kit (option X51) is available for the Carrera S, increasing power output to 430 hp. The new 991’s overall length grows by 56 mm (2.2 in) and wheelbase grows by 99 mm (3.9 in) (now 96.5 in.) Overhangs are trimmed and the rear axle moves rearward at roughly 76 mm (3 in) towards the engine (made possible by new 3-shaft transmissions whose output flanges are moved closer to the engine). There is a wider front track (51 mm (2 in) wider for the Carrera S). The design team for the 991 was headed by Michael Mauer. At the front, the new 991 has wide-set headlights that are more three-dimensional. The front fender peaks are a bit more prominent, and wedgy directionals now appear to float above the intakes for the twin coolant radiators. The stretched rear 3/4 view has changed the most, with a slightly more voluminous form and thin taillights capped with the protruding lip of the bodywork. The biggest and main change in the interior is the center console, inspired by the Carrera GT and adopted by the Panamera. The 991 is the first 911 to use a predominantly aluminium construction. This means that even though the car is larger than the outgoing model, it is still up to 50 kilograms (110 lb) lighter. The reduced weight and increased power means that both the Carrera and Carrera S are appreciably faster than the outgoing models. The 0–60 mph acceleration time for the manual transmission cars are 4.6 seconds for the Carrera and 4.3 seconds for the Carrera S. When equipped with the PDK transmission, the two 991 models can accelerate from 0–97 km/h in 4.4 seconds and 4.1 seconds. With the optional sports chrono package, available for the cars with the PDK transmission, the 991 Carrera can accelerate from 0–97 km/h in as little as 4.2 seconds and the Carrera S can do the same in 3.9 seconds. Apart from the reworked PDK transmission, the new 991 is also equipped with an industry-first 7-speed manual transmission. On vehicles produced in late 2012 (2013 model year) Rev Matching is available on the 7-speed manual transmission when equipped with the Sport Chrono package. Rev-Matching is a new feature with the manual transmission that blips the throttle during downshifts (if in Sport Plus mode). Also, the 7th gear cannot be engaged unless the car is already in 5th or 6th gear. One of Porsche’s primary objectives with the new model was to improve fuel economy as well as increase performance. In order to meet these objectives, Porsche introduced a number of new technologies in the 911. One of the most controversial of these is the introduction of electromechanical power steering instead of the previous hydraulic steering. This steering helps reduce fuel consumption, but some enthusiasts feel that the precise steering feedback for which the 911 is famous is reduced with the new system.[citation needed] The cars also feature an engine stop/start system that turns the engine off at red lights, as well as a coasting system that allows the engine to idle while maintaining speed on downhill gradients on highways. This allows for up to a 16% reduction in fuel consumption and emissions over the outgoing models. The new cars also have a number of technologies aimed at improving handling. The cars include a torque vectoring system (standard on the Carrera S and optional on the Carrera) which brakes the inner wheel of the car when going into turns. This helps the car to turn in quicker and with more precision. The cars also feature hydraulic engine mounts (which help reduce the inertia of the engine when going into turns) as part of the optional sports chrono package. Active suspension management is standard on the Carrera S and optional on the Carrera. This helps improve ride quality on straights while stiffening the suspension during aggressive driving. The new 991 is also equipped with a new feature called Porsche Dynamic Chassis Control (PDCC). Porsche claims that this new feature alone has shaved 4 seconds off the standard car’s lap time around the Nürburgring. PDCC helps the car corner flat and is said to improve high-speed directional stability and outright lateral body control, but according to several reviews, the car is more prone to understeer when equipped with this new technology. In January 2013, Porsche introduced the all-wheel-drive variants of the Carrera models. The ‘4’ and ‘4S’ models are distinguishable by wider tyres, marginally wider rear body-work and a red-reflector strip that sits in between the tail-lights. In terms of technology, the 4 and 4S models are equipped with an all-new variable all-wheel-drive system that sends power to the front wheels only when needed, giving the driver a sense of being in a rear-wheel-drive 911. In May 2013, Porsche announced changes to the model year 2014 911 Turbo and Turbo S models, increasing their power to 513 hp on the ‘Turbo’, and 552 hp on the ‘Turbo S’, giving them a 0–97 km/h acceleration time of 3.2 and 2.9 seconds, respectively. A rear-wheel steering system has also been incorporated on the Turbo models that steers the rear wheels in the opposite direction at low speeds or the same direction at high speeds to improve handling. During low-speed manoeuvres, this has the virtual effect of shortening the wheelbase, while at high speeds, it is virtually extending the wheelbase for higher driving stability and agility. In January 2014, Porsche introduced the new model year 2015 Targa 4 and Targa 4S models. These new models come equipped with an all-new roof technology with the original Targa design, now with an all-electric cabriolet roof along with the B-pillar and the glass ‘dome’ at the rear. In September 2015, Porsche introduced the second generation of 991 Carrera models at the Frankfurt Motor Show. Both Carrera and Carrera S models break with previous tradition by featuring a 3.0-litre turbocharged 6-cylinder boxer engine, marking the first time that a forced induction engine has been fitted to the base models within the 911 range
The third-generation Boxster (internally known as the 981) was announced on 13 March 2012 at the Geneva Motor Show with sales starting in early summer 2012. The 981 Boxster reflected the new design language from the 911 (991) and 918, and featured new and revised engine and transmission specifications. Together with a new body, the type 981 Boxster featured a new, 40 per cent more torsionally rigid chassis, the front track was 40 mm (1.6 in) wider, the rear 18 mm (0.7 in) wider and the wheelbase extended by 60 mm (2.4 in), but with a small weight reduction of up to 35 kg (77 lb) compared to the previous type 987 Boxster. The standard Boxster was fitted with a new 2.7-litre flat-6 engine, and the Boxster S was fitted with the existing 3.4-litre engine but with revised performance. Both engines were equipped with a 6-speed manual gearbox and an optional 7-speed reworked PDK. Both manual and automatic models were available with several technical options, including Porsche Torque Vectoring (PTV) and a Sport Chrono Package that included active transmission mounts, and made the PDK-equipped model even faster. Porsche claimed that the new generation Boxster provided fuel savings of 15% over the outgoing model. The range was expanded in March 2014 with the addition of the GTS derivative, with slightly altered front and rear bumpers and an additional 15 PS/ 15 bhp from the 3.4-litre engine. In 2015 the GT4 derivative was introduced, seeing the engine from a 991.1 Carrera S rotated 180 degrees. The GT4 also saw a lowered ride height, altered bumpers, a rear wing and additional GT package upgrades including brakes and certain suspension components from a 991.1 GT3. These special cars were manufactured from 2015 – 2016 with a total of 2500 being made, making this model one of the more desirable collector’s cars in Porsche’s lineup. The GT4 was widely considered one of the best cars of 2015/2016 where it won many awards for its impeccable handling and performance. The third generation Cayman was unveiled at the 2012 Geneva Motor Show. The production version of the 981 Cayman was released as a 2014 model in the spring of 2013. The new car was available in both the standard trim with a 2.7-litre engine, and in the S trim with a 3.4-litre engine. Both versions were available with either a 6-speed manual or a dual-clutch 7-speed PDK transmission. The 981 Cayman featured upgrades including a new body, a longer wheelbase, a wider front track, electrically powered steering, and a redesigned interior that matched the firm’s contemporaneous 911 models. The new model gained acclaim in the motoring press as one of the best handling sports cars at any price, due to its mid-engine layout and driving dynamics. The Cayman S benefited from the same engine and running gear as Porsche’s 3.4-litre version of the 911. A heavily revamped version of both models, known as the 982 generation was launched in 2016 to replace these cars.
RENAULT
The Renault Estafette was a light commercial front-wheel drive van, first introduced in 1959 and made until 1980. In the summer of 1944 the French Ministry of Industrial Production set out a prescriptive plan to make the most of scarce resources for the post war motor industry. It was headed by Paul-Marie Pons and so it was known as the Plan Pons. Under the Plan Pons, Peugeot, Renault and Chenard & Walcker were restricted to making vans for 1000–1400 kg while Citroën was to make small trucks for 2 and 3.5 tonnes. However, Pierre-Jules Boulanger at Citroen ignored the Plan Pons and went ahead with the design of the Citroën H Van, which launched in 1947. This unitary body with no separate frame design, with four-wheel independent suspension, and front-wheel drive, offered a powerful motor, capacity, and an exceptionally low loading floor. It was an immediate success, and continued in production to 1981. Renault obeyed the Plan Pons instructions and designed the 206 E1 following general pre-war design ideas. It had a fixed chassis onto which the van body was bolted and the body was made by fitting metal panels to a wooden frame. This old-fashioned method paid off in terms of the time it took to build and overall production costs, because at the time stamped body panels were relatively expensive and it also saved weight. In this period of material shortages Renault did the best they could and the 1000 kg as it became known was a success, but not on the scale of Citroen’s H Series that was selling to small businesses such as shop keepers and tradesmen. It was for this reason that Renault decided to fill the gap between the 300 kg Renault Juvaquatre and the 1000 kg 206 E1. It was clear that they needed a front-wheel-drive van, but the company had just signed up to a policy of rear-engined, rear-drive models with the 4cv and the Dauphine, then under development for 1957. The only example of a rear-engined van was the Volkswagen Type 2, and it did not offer load-space or a low floor to rival the Citroen. Reluctantly Fernand Picard, the designer of the 4cv, agreed to give the go-ahead to the team headed by Guy Grosset-Grange to try something new. As a question of production logic, they had to use existing Renault parts, and that meant the new engine being developed for the Dauphine, but adapting it for a front drive van was not simply a matter of moving it and turning it around, and therefore they had to match it to a new gearbox, which gave them the opportunity to choose gear ratios to suit the van’s needs. They also worried if the 845 cc engine would cope with a 600 kg payload, and they doubted it would have enough power or durability, until they heard of the German Gutbrod Atlas that was carrying 1000 kg using a tiny 622 cc engine. They brought one to France, and used it as a test bed for the 845 cc engine and were soon satisfied that it would work well. And so began over 2 million kilometres of testing. Launched in June 1959, the new van was to be called the Estafette from the Italian Staffetta, meaning Courier. At launch, the engine, although mounted near the front of the Estafette, was of the same size and output as that fitted to the recently introduced Renault Dauphine. The Estafette’s emphasis was always on economy and practicality rather than on power or heavy-duty performance. It was introduced in four body types; the normal van with the rear door in three sections, in a variation on the stable door style. The upper part with the window hinged upwards, while the lower part was divided into two halves, opening to the left and to the right. A sliding door on the pavement side of the load space was also normally fitted, as was a sliding driver’s door. There was a high roof version with translucent plastic roof that on its lower part was left unpainted and the top was normally white (though later models could be fully painted). The pickup version had a tubular frame to support the canopy which could easily be pushed forward and stored behind the cab which was closed off. The tailgate of this model could be used as a convenient loading ramp or be removed altogether. A minibus was also introduced seating eight passengers and the driver. Originally the Estafette was available only in four colours from the factory; grey, blue, yellow or orange. The Estafette gave all it had promised, with its low floor and wide rear opening; the high roofed version were especially popular with companies having to load bulky items because although the 0.8cu metre increase in capacity didn’t sound a lot, it did allow a man to stand inside to help load. And it was very popular as a mobile shop, which at markets became as typically French as the ice cream van is English. In 1961 came the Alouette version which was a simpler version of the minibus with removable seats that could convert it into a camper van and was indeed popular with French conversion companies. Finally a chassis-cab version was introduced onto which innumerable bodies could be fitted. In May 1962 the 800 kg (1,764 lb) rated Estafette was the first vehicle to receive Renault’s newly developed “Sierra” series water-cooled four-cylinder 1,108 cc five-bearing engine, which was destined to appear in a passenger car a month later with the launch, in June 1962, of the Renault 8. In 1968 a series of 70 vans were issued to the police at the winter Olympics held in Grenoble, and this led to a long term contract, but Renault’s biggest customer for the Estafette was PTT, the French telephone company. In 1968 it gained the 1,289 cc engine later seen in the Renault 12 to give a full 1000 kg capacity. In 1973 the grille was updated, with a plainer modern look. The Estafette continued in production until 1980 when it was replaced by the Trafic, having sold over 500,000 units.
In 1999 Renault presented the first officially branded RenaultSport Clio, this was the third Clio produced by the RenaultSport division succeeding the Clio 16V and Clio Williams. This new Clio, the 172 was based on the 3 door Clio II shell however had numerous features over the standard car including wider arches, restyled bumpers, side skirts and 15-inch OZ F1 alloy wheels. Power was delivered by the F4R730 engine, a 2.0-litre 16-valve Inline 4 engine with a Variable valve timing (VVT) system via a dephaser on the intake camshaft pulley. The engine was a modified version of the F4R used in models such as the Laguna and Espace and was modified by Mecachrome to deliver a power output of 172 PS. Power was delivered to the wheels via a JC5-089 five-speed manual gearbox. The 172 also featured interior changes over the standard car including Half Leather, Half Alcantara seats embossed with the RenaultSport logo and the car also came standard with manually controlled Air Conditioning. A limited edition of the Phase 1 172 was produced and known as the Clio 172 Exclusive. This was limited to 172 units, all 172 of this “Exclusive” edition were 296 Scarab Green, featured BBS alloy wheels and a full leather interior as opposed to the half-leather half Alcantara seats featured in the standard car. In 2001 the interior and exterior of the Clio II were face-lifted, the Clio RS followed suit shortly after. This facelift of the Clio 172 included redesigned front and rear bumpers, the front bumper falling in line with the style of the face-lifted Clio II. The rear bumper was now less rounded and featured a strip of ABS plastic effectively splitting the bumper into two. The lights, bonnet and boot lid were also matched to the face-lifted Clio II. The interior was also changed to closer match that of the face-lifted Clio II, the seats were slightly revised however still featured the same Half Leather, Half Alcantara fabrics and the embossed RenaultSport logo. One new feature that the Phase 2 172 featured was automatic climate control as opposed to the manual air-conditioning featured in the Phase 1. The dashboard featured Silver interior trims and the steering wheel included a plastic insert featuring the RenaultSport logo. The gear shifter was changed from the metal ball featured on the Phase 1 to a Leather wrapped shifter with a silver coloured insert on the top. The Phase 2 172 also featured increased equipment including automatic Xenon headlights and headlight washers, Rain Sensing wipers a six-disc CD changer, and it also included side-impact airbags integrated into the seats. The 15-inch OZ F1 alloy wheels were also replaced with a 16-inch Alloy Wheel of Renault’s own design. The facelift of the 172 also brought about a number of changes to the engine of the car. A revised version of the F4R used, the F4R 736, this featured a revised cylinder head with the exhaust ports being approximately 30% smaller than those featured on the Phase 1 172. The airbox was also redesigned to be much more square than the original airbox. A revised version of the JC5 gearbox, the JC5-129 was introduced in this version of the Clio 172, which revised JC5 featured a shorter final drive to counter the increased weight of the face-lifted 172. The catalytic converter, which on the PH1 172 had been dual barrel was reduced to a single barrel and featured 2 lambda sensors, one before and one after the catalytic converter. The biggest change to the PH2 172 over the PH1 was the introduction of an electric throttle. This meant the Idle Control Valve of the PH1 was no longer required leading to a minor redesign of the intake manifold. In 2002 Renault released the 172 Cup, which bore the chassis code CB1N and was known by Renault as the “sport lightweight version”. The vast majority of cars were produced in D43 Mondial Blue (metallic) with a limited run of around 90 cars being produced in 640 Iceberg Silver (metallic). The Cup, originally built for Gr.N homologation of the Clio 172 was differentiated from the “non cup” 172 by its lack of many of the luxuries included in the regular car. Instead of the leather / Alcantara seats instead the same style seat was upholstered in a durable but low-cost fabric, the automatic Xenon headlights were replaced by manually controlled halogen units and the washer jets replaced with blanks. The rain sensing wipers and solar reflective coated windscreen were also omitted from the 172 Cup. However the car had features not before seen on a production version of the 172, which included lightweight 16-inch Speedline Turini alloy wheels, matte blue door strips, ABS plastic “Cup” front splitter and a restyled “Cup” rear spoiler. The dash strips which were silver on the regular car were painted to match the outside of the car. One of the main features of the 172 Cup was its significant weight saving, having a kerb weight of 1021 kg, making it the lightest of 172 versions produced. This was achieved by the removal of a majority of sound deadening from the car alongside thinner glass to reduce weight even further. One large difference was also the lack of air conditioning which was a standard fit component on the regular 172, which typically led to the cup producing more power due to the engine having less ancillaries to drive. This however was reintroduced as an optional extra later in the production run of the Cup. The 0–60 time of the 172 Cup was officially marketed by Renault as being 6.5 seconds; however AutoCar Magazine reportedly timed the 0–60 at 6.2 seconds which if this were the case would make the 172 Cup the second fastest road going Clio produced at the time of this article, second to only the V6. Many enthusiasts regard the 172 Cup as the last “hardcore” hot hatch due to its lack of anti-lock brakes; the car also featured modified suspension which gave it a wider track thanks to modified wishbones, the car also sat lower than standard and featured stiffer shocks and springs, the suspension geometry was revised to suit these components and to mean that the steering response was increased, this also lead to an increase in oversteer thanks to the lack of weight and revised geometry. Due to the lack of ABS the brake bias of the car was fixed by way of disconnecting the rear axle compensator, within the UK this often lead to the cars failing the MOT test, VOSA eventually issued an advisory to prevent this from happening. 2004 marked yet another refresh of the Clio II. The inserts of the headlights were changed from Black to Grey, new wheels styles were introduced and new colour options were added with others being dropped. The basic design of the car stayed the same with only minor changes. The Six-Disc CD changer was dropped as standard equipment however was still available as a cost option. This refresh marked the introduction of cruise control and Electronic Stability Program (ESP) as standard equipment. The Clio RS featured a lot more changes than the regular Clio. The engine was again revised and became the F4R 738. The difference between the F4R 738 and F4R 736 was a revised oil breather setup meaning the intake manifold found on a 172 would not fit a 182. Thanks to a number of other changes this engine produced 182 PS. This increase in power was thanks to the addition of a 4-2-1 Manifold and high flow 200 cell sports catalytic converter. The spare wheel well was removed and replaced with a flat floor to make way for the new dual exit exhaust featured on the 182. Minor revisions were made to the interior, the perforated texture of the Alcantara on the seats now featured white dots. The car also featured a new 8 spoke wheel design which came in Silver on a regular car and Anthracite on a “Cup Packed” car. The rarest optional extra available was the Carminat Sat-Nav which was fitted to very few cars. However, the unit wasn’t a popular option due to its high cost and rumoured poor performance compared to aftermarket options. The “Cup” Front Splitter and “Cup” Spoiler originally fitted to the 172 Cup made a reappearance as a cost option known as the Cup Style Pack. This was one of two cup packs available, the other being the Cup Chassis. This Cup Chassis pack included a strengthened hub with 60mm spacing on the strut bolt holes as opposed 54mm on non cup packed cars. The Cup Chassis also featured lowered suspension with stiffer shocks and springs and an anthracite version of the standard alloy wheels. The Clio 182 could also be ordered in a more race focused than ‘base’ RS model called “Cup Specification”, this was available in just two colours, J45 Racing Blue and D38 Inferno Orange, however came as Standard with the Cup Chassis and Cup Style Pack. The 182 Cup lacked the automatic Xenon headlights and headlight washer jets, climate control (rear footwell heater vents were also removed), illuminated sun visors, Solar Reflective Windscreen and Automatic Wipers. The leather / Alcantara seats were replaced with cloth items and the rear bench was downgraded to match. The engine cover and sill plates were removed and the steering wheel was downgraded to no longer include the RenaultSport Logo or rubber thumb grips. Carpet and headlining were downgraded to basic specification and even the documentation wallet was changed from faux leather to cloth. Sound deadening was removed from the 182 Cup, the horn was downgraded from a twin to single unit and the interior light no longer included a map reading function. Despite all of these reductions in specification the 182 Cup was still considerably heavier than the previous 172 Cup, meaning this version of the Clio II RS was considered one of the least desirable versions. The final version of the Clio 182 was known as the 182 Trophy. This version was based on the 182 Cup and featured the same strengthened hubs with 60 mm bolt spacing. Originally only 500 cars were to be produced for the UK market however an additional 50 were produced to be sold in Switzerland. At the time, believing there was no market for this version of the Clio, the Marketing Department of Renault France failed to order a 182 Trophy. The 182 Trophy included 16 Inch Speedline Turini Alloy wheels as seen on the 172 Cup, the Spoiler from the Clio 255 V6, Recaro Trendline seats and exclusive 727 Capsicum Red Paint with Trophy Decals lacquered onto the Side skirts. Each car had an individually numbered plaque on the base of the driver’s seat. The biggest difference however between the 182 Cup and 182 Trophy was the inclusion of Sachs Remote-Reservoir dampers. The basic principle of a Remote-Reservoir damper is that because there is a separate reservoir for the gas or oil which fills the shock they can either be of a reduced length or can house a longer rod, this means that the sizing of the shock can be optimised for the application in which it is being used. These changes definitely made a big difference to the 182 Trophy and have led to its being heralded as one of the best hot hatches of all time and it won Evo Magazine’s “People’s Performance Car of The Year” 2005, whilst also beating off rivals such as the Lamborghini Gallardo and other exotica in an Evo Magazine Group Test. AutoCar Magazine’s front cover from 5 July 2005 simply stated “World’s Greatest Hot Hatch”.
It did not take Renault long to add an RS version to their 3rd generation Megane range. debuting the car at the 2009 Geneva Show. This new Megane Renault Sport 250 included a 2.0litre twin-scroll turbo 4-cylinder F4Rt engine rated at 250 PS (247 bhp) at 5500 rpm and 340 Nm (251 lb/ft) at 3000 rpm with a 6-speed manual gearbox, Brembo front brakes, front splitter, extended sills and wheel arches, rear diffuser with central exhaust pipe, and 18-inch alloy wheels wearing 225/40R18 tyres. Aluminum pedals, a Renault Sport steering wheel with thumb grips, analog rev counter and sport seats with extra lateral support dress up the cabin. Other features include front LED daytime running lights and bi-xenon headlights. The 250 Cup variant contains a number of sharpened performance features including a stiffer chassis, track focused suspension, a limited slip differential and a slightly lighter gross weight. The Cup is differentiated visually with painted red brake calipers, instead of the silver calipers for the normal Sport. 18×8.25″ “Ax-l” alloy wheels are fitted with wider 235/40R18 tyres, while 19×8.25″ “Steev” wheels were available as an option with 235/35R19 tyres. In June 2011 Renault Sport revealed a limited edition 265 PS (261 bhp) version of the Mégane III called the Mégane R.S. Trophy. The Megane R.S. Trophy uses the same 2.0 four-cylinder as the standard 250 PS R.S. but thanks to modifications such as a new air intake and higher turbo pressure it gains an extra 15 hp, increasing the power output to 265 PS. It reaches 0–62 mph in six seconds flat and goes on to a top speed of 254 km/h (157 mph). It is recognizable thanks to model-specific decoration such as Trophy stickers on the doors, a new spoiler and specific 19″ rims with R.S. centre caps. It comes in a model-specific metallic yellow (Jaune Sirius) but is also available in more low-key colours such as white (Blanc Glacier), black (Noir Étoilé) and gray (Gris Cassiopée). Production was limited to 500 examples. In 2012, the Megane R.S. adopted the updated engine from the Trophy version with 265 PS (261 HP) and offers the same “Cup” and “Sport” versions like the previous 250 PS (247 HP) model. Changes include Piano Black interior highlights and wider LED daytime running lights with 6 LEDs per side rather than the 3 LEDs found in the RS250. The 18″ wheels were changed to a new design called “Tibor”, while the 19″ wheels carried over from the 250. Extreme Blue and Sport Yellow were dropped as colour options. In Australia, the Cup and Cup Trophée models were replaced with the Cup, Cup+ and Trophy+ with slightly more flexible specification levels.
ROLLS ROYCE
Follow on to the Silver Shadow was the Rolls-Royce Silver Spirit, produced from 1980 to 1997. It was the first model in the SZ series. The Silver Spur is a long-wheelbase version of the Silver Spirit, produced from 1980 to 2000. It was the first car to feature a retractable Spirit of Ecstasy. The spring-loaded mascot sank into the radiator shell if dislodged from its position. The Silver Spirit was introduced by Rolls-Royce in 1980 as the first of a new generation of company models. It formed the basis for the Flying Spur, Silver Dawn, Touring Limousine, Park Ward, and Bentley Mulsanne/Eight series. The Spirit/Spur carried over the basic design of the Silver Shadow, its 6.75 L L410 V8 engine and GM-sourced THM400 3-speed automatic gearbox, and similarly styled unitary bodywork manufactured at Pressed Steel. The Spur/Spirit continued the Silver Shadow’s emphasis on ride quality by utilising its hydropneumatic self-levelling suspension, modified with Girling automatic hydraulic ride height control system and gas-charged shock absorbers. The Silver Spirit II and Silver Spur II were refinements of the original models, introduced at the 1989 Frankfurt Motor Show. Suspension design saw the most change, with “Automatic Ride Control” introduced, a fully automatic system that adjusted dampers at all four wheels in real time. Other updates included the adoption of ABS and fuel injection as standard for all models and markets. The last Mark I Silver Spirit/Spur was chassis no KCH27798, with Mark II cars starting with 29001. The fuel injection system was now Bosch’s MK-Motronic. Originally retaining the three-speed Turbo Hydramatic GM400 transmission from earlier Spirits/Spurs, a four-speed unit (the GM 4L80E) was introduced in the winter of 1991. The size of the petrol tank was also increased, up to 107 L (24 imp gal), meaning that the car’s range was now up to well over 500 km (311 mi). Exterior and interior changes were minimal, with a considerably smaller steering wheel and two additional ventilation outlets added to the fascia mildly modernising the look up front. The Silver Spirit III and Silver Spur III were introduced in 1993, featuring engine improvements and some cosmetic updates. A new design of intake manifold and cylinder heads increased power output. The parameters of the semi-active suspension system were modified so that shock absorbers would default into “soft” ride mode when they wore out (rather than “hard” in the previous Mark II, noticeably impacting ride quality). Dual airbags were introduced inside, along with independent adjustment of the rear seats. The 1994–1995 Flying Spur was a turbocharged, higher performance version of the Silver Spur III. 134 cars were produced. The Silver Dawn is a special edition of the Silver Spur III with several additional options, such as Electronic Traction Assistance System and rear seat heaters. The radiator height is reduced by 51 mm (2 in) and the size of the Spirit of Ecstasy was reduced by 20 percent. The new front was later inherited by the Mark IV series. Silver Dawn appeared one year earlier on the American market. Designed in the autumn of 1992, the New Silver Spirit/New Silver Spur was the final revision of the Silver Spirit and Silver Spur, introduced late in 1995 as a 1996-year model. A marketing decision had been made that the cars should not get a “series IV” designation because the number four is a homonym for death in some Far Eastern languages. Major changes included the introduction of a Garrett turbocharger on all models and the replacement of the previous Bosch engine management systems with one by Zytec. Also new were updated integrated front and rear bumpers and sixteen-inch wheels. As of 1997, the long wheelbase became standard, with limousine models offered in extra-long only. Inside, a wooden column running down the centre of the dashboard was added. Silver Spirit production closed with the model year 1997, although vehicles continued to be produced through 2000 to use up Silver Spirit bodies and parts remaining in stock.
SUBARU
Subaru introduced the “New Age” Impreza, the second generation car, to Japan in August 2000, and it arrived in Europe towards the end of that year. Larger in size compared to the previous iteration, the sedan increased its width by 40 millimetres (1.6 in), while the wagon notably increased by just 5 millimetres (0.2 in)—placing the two variants in different Japanese classification categories. The coupe body style from the first generation did not reappear for the new series, and the off-road appearance package that included contrasting-coloured bumpers did carry over forward. Marketed as a separate model line, this North America-only variant was, as before, badged the Outback Sport. Naturally aspirated flat-four (boxer) engines comprised the 1.5-litre EJ15, the 1.6-litre EJ16, the 2.0-litre EJ20, and the 2.5-litre EJ25. Turbocharged versions of the 2.0- and 2.5-litre engines were offered in the WRX and WRX STI models. STI models featured a more powerful 2.0-litre (2.5-litre outside of the Japanese market) turbocharged engine. WRX models featured a 2.0-litre turbocharged boxer engine until 2005, after which they switched to the 2.5-litre turbocharged engine. As with the first generation, the turbocharged STI variants were available in numerous specifications with a myriad of limited edition variants sold. The bug-eyed styling was not well received, and Subaru had two further attempts at the front end, neither of which was entirely successful, either, but enthusiasts were happy to overlook the gawky looks because the way the car drove. Subaru issued yearly updates to the STI, tweaking cosmetics and equipment levels, and also improving performance and handling. The car was replaced in 2007 by the third generation Impreza, widely regarded as inferior in many ways to this version.
TOYOTA
The third-generation MR2 was marketed as the Toyota MR-S in Japan, Toyota MR2 Spyder in the US, and the Toyota MR2 Roadster in Europe. Also known as the Midship Runabout-Sports, the newest MR2 took a different approach than its predecessor, most obviously becoming a convertible and receiving the ‘Spyder’ marketing nomenclature. The first prototype of MR-S appeared in 1997 at the Tokyo Motor Show. The MR2 Spyder chief engineer Harunori Shiratori said, “First, we wanted true driver enjoyment, blending good movement, low inertia and light weight. Then, a long wheelbase to achieve high stability and fresh new styling; a mid-engine design to create excellent handling and steering without the weight of the engine up front; a body structure as simple as possible to allow for easy customizing, and low cost to the consumer.” The only engine available for the ZZW30 was the all-aluminium alloy 1ZZ-FED, a 1.8 litre Inline-four engine. Like its predecessors, it used DOHC and 4 valves per cylinder. The intake camshaft timing was adjustable via the VVT-i system, which was introduced earlier on the 1998 MR2 in some markets. Unlike its predecessors, however, the engine was placed onto the car the other way round, with the exhaust manifold towards the rear of the car instead of towards the front. The maximum power of 138 bhp at 6,400 rpm and 126 lb/ft (171 Nm) of torque at 4,400 rpm was quite a drop from the previous generation, but thanks to the lightness of the car it could still move quite quickly, accelerating from 0 to 100 km/h (62 mph) in 6.8 to 8.7 seconds depending on the transmission option, the Sequential Manual being unable to launch and shift as quickly as the clutch operated manual. Curb weight is 996 kg (2,195 lb) for manual transmission models. In addition to the 5-speed manual transmission, a 6-speed manual or 5-speed Sequential Manual Transmission (SMT) was also available starting in 2002. The SMT was a standard feature in Australian market; however, air conditioning was optional. After 2003, a 6-speed SMT was an option. The SMT had no conventional H-pattern shift lever or clutch pedal. The driver could shift gears by tapping the shift lever forward or backward or by pressing steering-wheel mounted buttons. Clutch engagement is automatic, and the car will automatically shift to second and then first gear when stopping. Cruise control was never offered with the manual transmission, but was standard for SMT-equipped cars. The MR2 Spyder featured a heated glass rear window. A hard top was also available from Toyota in Japan and Europe. Production ended in 2007 and there was no direct successor.
TRIUMPH
The TR6 was the first Triumph for some time not to have been styled by Michelotti. By the mid 1960s, money was tight, so when it came to replacing the TR4 and TR5 models, Triumph were forced into trying to minimise the costs of the redesign, which meant that they kept the central section of the old car, but came up with new bodywork with the front and back ends were squared off, reportedly based on a consultancy contract involving Karmann. The resulting design, which did look modern when it was unveiled in January 1969 has what is referred to as a Kamm tail, which was very common during 1970s era of cars and a feature on most Triumphs of the era. All TR6 models featured inline six-cylinder engines. For the US market the engine was carburetted, as had been the case for the US-only TR250 engine. Like the TR5, the TR6 was fuel-injected for other world markets including the United Kingdom, hence the TR6PI (petrol-injection) designation. The Lucas mechanical fuel injection system helped the home-market TR6 produce 150 bhp at model introduction. Later, the non-US TR6 variant was detuned to 125 bhp for it to be easier to drive, while the US variant continued to be carburetted with a mere 104 hp. Sadly, the Lucas injection system proved somewhat troublesome, somewhat denting the appeal of the car. The TR6 featured a four-speed manual transmission. An optional overdrive unit was a desirable feature because it gave drivers close gearing for aggressive driving with an electrically switched overdrive which could operate on second, third, and fourth gears on early models and third and fourth on later models because of constant gearbox failures in second at high revs. Both provided “long legs” for open motorways. TR6 also featured semi-trailing arm independent rear suspension, rack and pinion steering, 15-inch wheels and tyres, pile carpet on floors and trunk/boot, bucket seats, and a full complement of instrumentation. Braking was accomplished by disc brakes at the front and drum brakes at the rear. A factory steel hardtop was optional, requiring two people to fit it. TR6 construction was fundamentally old-fashioned: the body was bolted onto a frame instead of the two being integrated into a unibody structure; the TR6 dashboard was wooden (plywood with veneer). Other factory options included a rear anti-roll bar and a limited-slip differential. Some say that the car is one of Leyland’s best achievements, but a number of issues were present and remain because of poor design. As well as the fuel injection problems, other issues include a low level radiator top-up bottle and a poor hand-brake. As is the case with other cars of the era, the TR6 can suffer from rust issues, although surviving examples tend to be well-cared for. The TR6 can be prone to overheating. Many owners fit an aftermarket electric radiator fan to supplement or replace the original engine-driven fan. Also the Leyland factory option of an oil cooler existed. Despite the reliability woes, the car proved popular, selling in greater quantity than any previous TR, with 94,619 of them produced before production ended in mid 1976. Of these, 86,249 were exported and only 8,370 were sold in the UK. A significant number have since been re-imported, as there are nearly 3000 of these much loved classics on the road and a further 1300 on SORN, helped by the fact that parts and services to support ownership of a TR6 are readily available and a number of classic car owners’ clubs cater for the model.
What turned out to be the final TR model was launched in January 1975, and this time it really was all new. A dramatic Harris Mann wedge shaped was shock enough for the purists, but the fact that at launch it only came as a Fixed Head Coupe was almost too much for some to bear. In the end, though. more TR7s were sold than any other TR model, so it really cannot have been all that bad even if the car had a somewhat bumpy existence, moving production plant from Speke, Liverpool where the early cars were made, to Canley, Coventry in 1978 and then finally to the Rover Solihull plant in 1980. An open topped model did join the range in 1980 and small numbers of factory built TR8s with the 135 bhp Rover V8 engine under the bonnet were made, but the proposed 2+2 Lynx model, and a version with the 16 valve Dolomite Sprint engine and the 2 litre O Series unit never made production. The car was launched in the United States in January 1975, with its UK home market debut in May 1976. The UK launch was delayed at least twice because of high demand for the vehicle in the US, with final sales of new TR7s continuing into 1982. The TR7 was characterised by its “wedge” shape, which was commonly advertised as: “The Shape of Things to Come”, and by a swage line sweeping down from the rear wing to just behind the front wheel. It had an overall length of 160 inches, width of 66 inches, wheelbase of 85 inches and height of 49.5 inches, and a kerbside weight of 2205 pounds, exactly 1000 kg. During development, the TR7 was referred to by the code name “Bullet”.The original full size model wore MG logos because it was styled at Longbridge, which was not a Triumph factory. Power was provided by a 105 bhp 1,998 cc eight-valve four-cylinder engine that shared the same basic design as the Triumph Dolomite Sprint engine, mounted in-line at the front of the car. Drive was to the rear wheels via a four-speed gearbox initially with optional five-speed manual gearbox, or three-speed automatic from 1976. The front independent suspension used coil spring and damper struts and lower single link at the front, and at the rear was a four-link system, again with coil springs. There were front and rear anti roll bars, with disc brakes at the front and drums at the rear. The interior trim was revised in March 1977, with the broadcord seat covers being replaced with red or green “tartan” check inserts with black leather effect vinyl edging, which looks so very period. now The tartan trim was also reflected in the door cards in padded matching red or green tartan cloth inserts in the black leather effect vinyl. A number of other detailed changes were made, partly to ensure commonality of parts in future models, such as the Convertible and the TR8, and also based on what else was available from the corporate parts bin. Badging changed a number of times, but there were no other significant alterations before the end of production in 1981. In total approximately 115,000 TR7 models were built which includes 28,864 soft top/convertibles, and approximately 2,800 TR8 models. Seen here were both Coupe and Convertible models, one of them with an uprated 4.6 litre V8 under the bonnet.
The Triumph Vitesse was introduced on 25 May 1962, reusing a name previously used by the pre-Second World War Triumph Motor Company from 1936–38, and was an in-line 6-cylinder performance version of the Triumph Herald small saloon. The Herald had been introduced on 22 April 1959 and was a 2-door car styled by the Italian designer Giovanni Michelotti. Within two years, Triumph began to give thought to a sports saloon based on the Herald and using their 6-cylinder engine. Michelotti was again approached for styling, and he came up with a car that used almost all body panels from the Herald, combined with a new front end with a slanted 4-headlamp design. Standard-Triumph fitted a 1596 cc version of their traditional straight-6 derived from the engine used in the Standard Vanguard Six, but with a smaller bore diameter of 66.75 mm, compared with the 74.7 mm bore on the Vanguard, equipped with twin Solex B32PIH semi-downdraught carburettors. These were soon replaced by B321H carburettors, as the accelerator pumps proved a problem. The curious observer will notice a “seam” on the cylinder block between the third & fourth cylinders revealing the design beginnings from the 803 cc Standard SC engine block, first used in the Standard Eight of 1953. The gearbox was strengthened and upgraded to closer (more sporting) gear ratios, and also offered with optional Laycock De Normanville ‘D-type’ overdrive with a 20% higher ratio for the top gear (the equivalent change from 3rd to 4th in a standard transmission), giving more relaxed and economical cruising at the expense of slight oil drag from the pump in the overdrive unit. Models fitted with overdrive had a chrome badge with “Overdrive” in italic text on the left side of the boot opposite the Vitesse 6 chrome script badge on the right. Synchromesh was present on 2nd, 3rd and 4th gears. The rear axle was changed to a slightly uprated differential, but retaining the same 4.11:1 ratio and flange sizes as the Herald. Front disc brakes were standard as were larger rear brake drums, and the Herald fuel tank was enlarged, retaining the reserve feature (essentially a curved pickup pipe that could be rotated to dip into the last few centimetres of fuel) of the smaller Herald tank. The front suspension featured uprated springs to cope with the extra weight of the new engine, but the rear suspension was almost the same as on the Herald—a swing-axle transverse-leaf system which quickly proved inadequate for the relatively powerful Vitesse. The chassis looked outwardly similar to the early Heralds but in fact was substantially re-designed and strengthened, especially around the differential mountings, improvements which were immediately passed through to Herald production. The dash and instrument panel of the earliest Vitesse was the same as the Herald, with a single speedo dial featuring fuel and temperature gauge insets. The Vitesse was available in convertible and saloon forms; a coupé never got beyond the prototype stage. The separate chassis construction of the car meant that no additional strengthening to chassis or body was considered necessary for the convertible model, the only concession being additional door catches to prevent the doors opening during hard cornering. The gearboxes of all the Vitesse and GT6 models were a weak point being derived from the earlier Heralds. The increased power caused accelerated wear on the bearing and forward end of the main shaft which would eventually wear through the hardened surface, leading to large amounts of play between the input and main shafts. This was characterised by growling gear noise on acceleration and deceleration in 1st, 2nd and 3rd getting high in each gear as the torque transmission from the lay shaft moved further from the rear of the box where the bearing support was intact. Repair involved either a new mainshaft or metal spraying/stellite repair. Some engineers suggested repairs were more long lived than a new shaft as the technology 10-20 and more years after manufacture meant that the repaired mainshaft had better specifications that new old stock. The remote lever construction suffered from the same regular bushing wear as the herald spitfire etc where sloppy gearchange and rattling can be cured (easy diy job) with a kit of new parts. A handful of Vitesse estates also were assembled to special order at Standard-Triumph’s Service Depot at Park Royal in West London. The interior was much improved over the Herald; wooden door cappings were added to match the wooden dashboard and the car featured slightly better seats and door trims. Optional extras included a vinyl/fabric, (Britax Weathershield), sunroof on saloon models. Exterior trim was also improved with an elongated stainless steel trim piece which extended further down the body than the Herald, including a Vitesse specific piece of trim rearward of the petrol filler cap and satin-silver anodised alloy bumper cappings replacing the white rubber Herald items. In September 1963 the Vitesse received its first facelift, when the dashboard was revised with a full range of Smith instruments instead of the large single dial from the Herald (large speedometer and cable driven tachometer flanked by smaller 2 inch fuel and temperature gauges). From September 1965, at commission number HB27986, the twin Solex carburettors were replaced by twin Stromberg CD 150 carburettors. Power output increased from the original 70 bhp at 5,000 rpm and torque of 92.5 lb/ft (125 Nm), enough to provide a useful performance boost and making the car a more flexible performer. There was a claimed, although somewhat optimistic increase of 13–14 bhp, and the motoring magazine tested top speed rose to 91 mph (146 km/h), with the 0–80 mph (0–129 km/h) time decreasing from 46.6 seconds to just 33.6 seconds. The Vitesse 6 sold extremely well for Triumph, and was by some way the most popular Vitesse sold during the model’s lifetime. The car was well liked for its performance and reasonable fuel economy, and the well-appointed interior. The exceptionally small turning circle was also liked by users. With its ability to perform as well as many sports cars, but with room for a family, the Vitesse had few rivals for the price. The convertible in particular was virtually unique in the marketplace; another genuine four-seater sporting convertible would not reappear from a British manufacturer until the Triumph Stag several years later. In September 1966 Triumph upgraded the engine to 1998 cc, in line with the new Triumph GT6 coupé, and relaunched the Vitesse as the Vitesse 2-Litre. Power was increased to 95 bhp, endowing the new car with a claimed 0–60 mph time of just under 12 seconds, and lifting top speed to 104 mph (167 km/h). (The 2-Litre was advertised by Triumph as “The Two Seater Beater”). The performance increase was welcome, but it highlighted the deficiencies of the rear suspension. Other detail modifications for the 2-litre, included a stronger clutch, all synchromesh gearbox, larger front brakes (still without a servo), and a stronger differential with a slightly higher 3.89:1 ratio. Wider & stronger 4.5-inch wheel rims were fitted, but radial-ply tyres were still optional, at extra cost. There was a satin silver anodised aluminium-alloy cowling above the new reversing light, and badges on the side of the bonnet and in the centre of the grille read 2 litre. The Vitesse boot badge was retained as italic script but lost the 6 of the earlier model – replacing that with the rectangular 2 litre badge and with a chrome strip underlining the Vitesse badge. Cars with overdrive had a separate badge on the cowling above the number plate/reversing light. Inside the car, the seats were greatly improved, with softer (more plush) covering and a better back-rest shape which slightly improved rear-seat knee-room. A new leather-covered three-spoke steering wheel was also added. The Vitesse Mk I was sold until 1968. The Vitesse Mark 2 was launched in October 1968 as the final update to the Vitesse range. Essentially intended to be Triumph’s answer to growing criticism of the rear suspension, the Mark 2 was fitted with a redesigned layout using new lower wishbones and Rotoflex half-shaft couplings. This system, also shared with the new GT6 MKII (GT6+ in the US market), and the first GT6 MkIIIs, tamed the wayward handling and endowed the Vitesse with more firm, progressive roadholding. The solid swing axles of the Herald and earlier Vitesses had camber changes of some 15 degrees from the limits of travel. By adding the lower wishbone and the divided drive shaft whilst retaining the transverse leaf spring as the top link, this camber change was reduced to about 5 degrees. While this was a considerable improvement, it was still a system that struggled to keep up with a really good link-located live axle (such as Triumph would introduce on the Toledo, 1500TC and later Dolomite saloons). There were other improvements: the engine was tweaked once more to provide 104 bhp, cutting the 0–60 mph time to just over 11 seconds and providing a top speed of over 100 mph (160 km/h). The main changes were to the valve timing, to give earlier opening and later closing of the inlet valves compared with the earlier 2-litre engine. (38/78 btdc/atdc for the Mk2 vs 30/60 for the 2 litre). Design changes to the cylinder head allowed for increased inlet valve diameters and better porting. Another major difference in the cylinder head removed the “step” in earlier 1600 and 2 litre incarnations. This meant that in the earlier cars the head studs on the right (manifold) side were short and ended under the manifolds, necessitating unbolting the (hot) manifolds and dropping them back to retorque the studs after a head gasket replacement. The MKII head was full width so all the studs were accessible. The inlet manifolds of the mkII were shorter than the 2 litre to keep inlet tract length the same. The Stromberg carburetors were also changed from 150 CD to 150 CDS, the S referring to the use of a spring between the dashpot cover and piston. The exterior featured a new grille with 3 sets of horizontal elements that were also used (in longer form) in the herald 13/60, Rostyle wheel trims and silver painted steel rear panel, (described by Triumph as “ceramic”), and the interior was upgraded once more in order to share parts with the new Herald 13/60, although there were significant differences between the two models; the inclusion of a tachometer being an obvious one, the provision of a larger ash tray in the Vitesse not quite so obvious. A new colour range was offered for the Mark 2 models. The aluminium cowling above the reversing light gained an oblong chromed VITESSE badge, and the separate chromed Mazak TRIUMPH letters on the bonnet and the boot lid were also deleted. The badges on the bonnet sides were changed to read Mk2 instead of 2 litre. Cars with overdrive had a small badge that fitted below the new rectangular Triumph boot badge. This was the ultimate Vitesse, a saloon or convertible with performance superior to the MGB and the Sunbeam Alpine sports car (in both acceleration and top speed) but with four seats and a large boot. Contemporary testing in the UK press listed the Vitesse’s 0-70 mph[clarification needed] time as 15.0 seconds against 17.9 for both the MGBGT and the Sunbeam Alpine Series IV, and standing-quarter-mile times were 18.1, 19.5, and 19.0 respectively. The Vitesse sold well until its withdrawal in July 1971, seven months before the new Triumph Dolomite saloon entered the performance luxury sector for Triumph. Although the Vitesse was an older model, it proved to be more reliable than its replacement, due to its simpler and more proven engine design
Launched at the same time as the Rover 2000 was Triumph’s large saloon car, also called 2000. A replacement for the long running Standard Vanguard, this was the more sporting of the duo, with a subtly different appeal from the Rover. Between them, the cars defined a new market sector in the UK, promising levels of comfort and luxury hitherto associated with larger Rover and Jaguar models, but with usefully lower running costs and purchase prices, all in a modern package. Both added more powerful models to their range, with Rover going down the twin carburettor route, whilst in 1967, Triumph installed a larger 2.5 litre engine and the then relatively new fuel injection system, creating the 2.5PI, which is what was to be seen here. This Lucas system was not renowned for its reliability in the early days, but it did make the car rapid and refined. A facelift in 1969 brought new styling front and rear, which turned out to be a taster for a new grand tourer model which would emerge a few months later, and in this Mark 2 guise, the car was sold until 1977, in both saloon and estate guises. A mid range model, with twin carburettors but the larger engine, the 2500TC was introduced in 1974 and the 2500S arrived in 1975 with more power but also carb fed, to replace the troublesome and thirsty PI. These are the most sought after models now.
TVR
TVR replaced their long-running shape with something really quite radical looking in early 1980. with the Tasmin, and there was a relatively early version of these “wedge” era TVRs here. During the 1970s, when Martin Lilley started to look where to take the Blackpool based company next, he noted that Lotus appeared to have reinvented itself with the Elite, Eclat and Esprit, losing much of the kit-car image in the process, and he thought he needed to do something similar. He needed a new design language, so he contacted Oliver Winterbottom who had done the Elite/Eclat for the Norfolk firm, hoping for something new. The wedge-shaped design that Winterbottom created was produced in 1977, and a prototype was created the following year, before the new car’s launch very early in 1980. Based on the Taimar, but with very different wedge styling, the car was not exactly received with massive enthusiasm. The styling looked a bit like yesterday’s car, as the wedge era was on the wane, and the car’s price pitched it against cars like the Porsche 924 Turbo. Development of the new car had drained TVR’s finances, which led to Lilley ceding control of the company in 1981 to Peter Wheeler. The convertible that followed helped matters a bit, whereas the 2 litre 200 and the 2+2 model did not, but in 1983, TVR announced a revised version with the potent Rover 3.5 litre V8 under the bonnet, in lieu of the 2.8 litre Ford Essex unit, and it transformed the car. It was just what was needed, and over the next few years, a series of ever more potent models, with ever wilder styling came into the range. By 1986, the 450SEAC boasted 340 bhp, making this something of a supercar.
VOLKSWAGEN
Oldest VW here was an example of the classic Beetle.
The Volkswagen Golf Mk1 is the first generation of a small family car manufactured and marketed by Volkswagen. It was noteworthy for signalling Volkswagen’s shift of its major car lines from rear-wheel drive and rear-mounted air-cooled engines to front-wheel drive with front-mounted, water-cooled engines that were often transversely-mounted. The Golf Mk1 received VW model designation Type 17. Production started in March 1974, and sales officially began in May 1974. By this time Giugiaro’s rectangular headlamps and wide tail-lamps had given way to round headlamps and much narrower rear lamps. On these earliest cars the lower horizontal bodyline running under the tail-lamps on the rear hatch dropped down in the location of the rear license plate. This feature has been dubbed “Swallowtail” by some Golf enthusiasts. The surface between the raised sides on the bonnet on early cars also blended smoothly into the leading edge. The Golf was not the first example of Giugiaro’s work for Volkswagen to reach production. His design for the first generation Passat was released in 1973, and the first generation Scirocco, a Giugiaro design prepared concurrently with the Golf, was released months ahead of the Golf. From October 2, 1974 to January 14, 1975 two Golf Mk1s were driven over 30,500 km (19,000 mi) from Fairbanks, Alaska to Tierra del Fuego as a test of their durability. The right-hand drive Golf went on sale in Britain in October 1974. For the 1975 sales year it was the 14th best selling car in Britain with more than 19,000 units sold. In 1981 the facelifted Golf GTI was voted Car of the Year by What Car? magazine, ahead of all-new models like the Austin Metro and MK3 Ford Escort. In its final sales year of 1983 it sold more than 25,000 units and was Britain’s 14th best selling car despite being almost 10 years old. Air conditioning became available as an option on the domestic market in August 1975. The ability to retrofit the system, together with installing a larger battery, was offered to owners of existing cars. In December 1975 a minor styling revision deleted the Swallowtail line on the rear hatch, replacing it with a simple straight horizontal body-line. The bonnet also received a transverse line connecting the two raised sides across the front edge of the panel. The Golf was introduced to Japan in 1975, where it was imported by the Yanase dealership chain. Its exterior dimensions and engine displacement were in compliance with Japanese Government dimension regulations. The Golf Mk1 was runner-up for European Car of the Year in 1975, losing to the Citroën CX. A minor exterior revision in December 1978 replaced the narrow front and rear bumpers with moulded units that wrapped around the sides of the car. Another minor facelift in 1980 saw the adoption of wider rear lamp clusters and a new dashboard with a more modern-looking instrument display featuring LED warning lights. US versions also received rectangular headlights. This was the last major update before the MK1 was replaced by the MK2 Golf in most markets in September 1983 and in the British market in March 1984. The Golf was West Germany’s best selling new car for much of its production life, and was among the most successful cars in the whole of Europe during its nine-year production run.
Conceived as a replacement for the popular Beetle Cabrio, and at the time unique in the market place, a convertible version of the Golf was presented to Volkswagen’s management by coachbuilder Wilhelm Karmann GmbH as early as 1976. This early prototype lacked the roll-over bar of the later version, and had a flat body line in the rear, where the soft top folded down below the sill level. The production version of the convertible Golf was designated Type 155. In Europe and Canada it was called the Golf Cabriolet, while in the United States it was sold as the Rabbit Convertible until 1985, when it was also renamed “Cabriolet”. The Cabriolet was sold from 1980 to 1993. It had a reinforced body, a transverse roll-over bar, and a high level of trim. From stamping to final assembly the Mk1 Cabriolet was built entirely at the Karmann factory. Volkswagen supplied engines, suspension, and interior trim for Karmann to install. The tops, of vinyl or cloth, were heavily insulated, with a heated glass rear window. The top was raised and lowered manually until 1991, when it became electrically operated. The body of the Cabriolet did not change through the entire production run except for a larger fuel tank. It kept the pre-1980 style of rear lamp clusters. A space saver spare wheel was fitted from the outset, including 1978 pre-production models, unlike the saloon which did not adopt this until 1984. All Cabriolets from 1988 on left the factory fitted with a “Clipper” bodykit that featured smooth body-coloured bumpers, wheel-arch extensions, and side skirts. Prior to the 1984 model year the highest standard specification Cabriolet was the GLI, which was essentially a GTI in all but name. It was only in late 1983 with the introduction of the 1984 model that an officially badged GTI version of the cabriolet finally became available.
WOLSELEY
Something quite different and indeed unique is this car. Recently finished, this is very definitely a “Special”. It is based on he chassis of a 1930s Wolseley 14/60.
Released in 1961 as more luxurious versions of the Mini, both the Wolseley Hornet and the Riley Elf had longer, slightly finned rear wings and larger boots that gave the cars a more conventional three-box design. The wheelbase of the Elf and Hornet remained at 2,036 mm (80.2 in), whereas the overall length was increased to 3.27 m (10.7 ft). This resulted in a dry weight of 638 kg (1,407 lb)/642.3 kg (1,416 lb) (rubber/hydrolastic suspension) for the Elf and 618 kg (1,362 lb)/636.4 kg (1,403 lb) for the Hornet. Front-end treatment, which incorporated each marque’s traditional upright grille design (the Hornet’s grille with a lit “Wolseley” badge), also contributed to a less utilitarian appearance. The cars had larger-diameter chrome hubcaps than the Austin and Morris Minis, and additional chrome accents, bumper overriders and wood-veneer dashboards. The Riley was the more expensive of the two cars. The name “Wolseley Hornet” was first used on 1930s saloon, coupé, sports and racing cars, while the name “Elf” recalled the Riley Sprite and Imp sports cars, also of the 1930s (Riley’s first choice of name “Imp” could not be used as Hillman had registered it). The full-width dashboard was a differentiator between the Elf and Hornet. This dashboard was the idea of Christopher Milner the Sales Manager for Riley. Both the Riley Elf’s and Wolseley Hornet’s bodies were built at Fisher & Ludlow under their “Fisholow” brandname. Plates in the engine compartment on the right side fitch plate bear evidence of this speciality. Very early Mark I versions of both cars (e.g. press photo of 445MWL) had no overriders on the bumpers and a single piece front wing (A-panel and wing in one piece, no outside seam below scuttle panel) that was soon given up again, allegedly due to cost. The Elf’s and Hornet’s special bumper overriders first appeared in 1962. Early production Mark I’s also had a combination of leather and cloth seats (Elf R-A2S1-101 to FR2333, Hornet W-A2S1-101 to FW2105) whereas all later models had full leather seats. Mark I models were equipped with single leading shoe brakes on the front. In 1966 the Heinz food company commissioned, from Crayford Convertibles (Crayford Engineering), 57 convertible Hornets to be given as prizes in a UK competition. Many are still on the road as of 2020. Both the Elf and the Hornet went through three engine versions. Initially, they used the 848 cc 34 bhp engine (engine type 8WR) with a single HS2 carburettor, changing to a single HS2 carburettor 38 bhp version of the Cooper’s 998 cc power unit (engine type 9WR) in the Mark II in 1963. This increased the car’s top speed from 71 to 77 mph (114 to 124 km/h). Therefore, Mark II cars also came with increased braking power in the form of front drum brakes with twin leading shoes to cope with the increased power output. Both Mark I and Mark II featured four-speed gearboxes (three synchromesh gears) with the original, long gear lever, a.k.a. “magic wand” type. Automatic gearboxes became available on the Mark II in 1965 as an option. The Mark III facelift of 1966 brought wind-up windows and fresh-air fascia vents. Concealed door hinges were introduced two years before these were seen on the mainstream Mini. The gear selecting mechanism was updated to the “Cooper” type, (which also gave a welcome increase in engine location due to the remote housing extension being directly bolted onto the back of the differential housing) as seen on Mini 1000 cars of the time. The 850s retained the “magic wand”. Automatic gearboxes were available to the Mark III in 1967 again. Full-four synchromesh gearing was eventually introduced during 1968. 30,912 Riley Elfs and 28,455 Wolseley Hornets were built. Production of both models ceased in late 1969.
Such are the number of mid-week evening meets on offer now that it would probably be possible go to one almost every night of the week in the summer months without even having to travel that far from him. That’s not going to work even for an inveterate attendee and enthusiast like me, so an element of careful selection is required. I can certainly say, though, that this one that I will be looking to attend again assuming that they go ahead in 2024.