One of the difficulties faced by a lot of venues hosting car events is that as they become more popular, so they run out of space. Some are luckier than others, of course, and one of the places that certainly has space on its side is the Atwell Motor Museum, which is to be found down a narrow lane on the outskirts of the Wiltshire town of Calne. Here there is not just quite an expansive car park, but also plenty of field area which cane be used if needed. It’s actually not used that often, as there are only a handful of special events held here during a season. I was well aware that in the summer months there are some evening gatherings, and had always I would try to get along to one. As the date for this neared, though, the weather showed no sign of drying out, and the forecast for the day itself was also pretty terrible. Along with two friends, we decided to make a last minute decision whether to go or not, figuring that even if we decided to brave the elements, few others might choose to do the same. Almost within minutes of the time when we would need to set off, we decided to go, as by this point the heavy rain had stopped. Our thought process was that even if there were only a few visiting cars, there is a whole museum to see, so we could certainly do something car-related with the evening ahead. There were a few cars already parked up when we arrived, and with everything needing to go on the grass, it was starting to churn up a bit, but I’ve certainly seen worse, and during the evening, the marshalls managed to get everyone in and out without undue problems. For sure, numbers were probably quite a lot down on what they would have been had the weather been nicer, but even so there was a good turn out and quite an array of cars of all ages. Presented here are the visiting cars for the event. Those in the museum will feature in a separate report.

AUDI

In September 1986, Audi released a new Typ 89 Audi 80 for the 1987 model year on the European market and introduced it elsewhere within a year. It was based on a new platform which broke the relationship between the 80 and the Volkswagen Passat, the corresponding third generation of which used the transverse-engined Volkswagen B3 platform, whilst Audi stuck with the longitudinal front wheel drive layout for the B3-series 80. Production codes were Typ 89 from 1987 to 1989, and Typ 8A from 1990 onwards (in line with a restructuring of many VW platform designations). It introduced a new aerodynamic look and a fully zinc coated galvanised bodyshell. Unlike its predecessor, the B3 was marketed worldwide only as the Audi 80 or Audi 90. Initially, Audi transferred existing powertrain concepts to the new model although fuel injection was now available for some engines. A range of new petrol and diesel inline four-cylinder engines became available to European customers along with the procon-ten safety system which became standard fitment from 1991. Procon-ten was a notable safety feature comprising a series of hidden steel cables routed behind the gearbox, attached to the steering wheel and front seatbelt inertia reels. In the event of a front impact, the engine and gearbox are forced rearwards, pulling on these cables. This action simultaneously pulls the steering wheel into the dashboard to prevent the driver colliding with it while tightening the front seatbelts. This innovation was a precursor to the airbag, which became popular on mass produced cars during the 1990s after being patented by Mercedes-Benz in 1982. In 1987, the Audi 90 was reintroduced as an upmarket, more luxurious variant of the 80. To begin with it would again feature a choice of 10-valve inline five-cylinder petrol engines, and could be specified with or without quattro. The 90 differs visually to the 80 by a full width tail-light panel; headlights which featured additional high-beam lights and a slightly different front grille. Indicator lamps were moved from beside the headlights to the bumpers next to the fog lights, which were standard fitment on the 90. Brightwork surrounds for the windows, tops of the bumpers and side rubbing strips were also standard. Interiors were upgraded over the 80 featuring velour seat coverings and a slightly more generous level of equipment. The then range-topping 2.2E offered a boot spoiler, alloy wheels, leather steering wheel and sports front seats. Switchable ABS was standard on quattro versions. From 1989 to 1991 the Audi 90 offered the first 20-valve engine from Audi since the turbocharged engine used in the Audi Sport Quattro. This new 2.3L engine produced 170 PS and featured in the front wheel drive 20V, 20V Sport and four-wheel drive 20V quattro derivatives. The non-quattro 20V models were 120 kg lighter. Externally, Sport versions of the 90 were visually distinguished by the deletion of brightwork in favour of satin black window surrounds, bumper cappings and thinner side mouldings. A raised aluminium boot spoiler, lowered suspension and uprated brakes were fitted as standard, Speedline wheels were also standard fitment in the UK. In October 1988 a Coupé version based on the 80/90 appeared, called simply the Audi Coupé (typ 8B). This had completely different three-door liftback bodywork and replaced the earlier, B2-based Coupé which had been manufactured into early 1988. This version remained in production until 1996, in parallel with the succeeding B4 generation Audi 80. A convertible was planned from the beginning but did not appear until May 1991 as the Audi Cabriolet. This model remained in production until 2000 and was optically aligned with the B4 Audi 80 from its introduction.

AUSTIN

There were a couple of examples of the popular Seven here, and they were both very different. Herbert Austin’s masterpiece which did much to put Britain on wheels in the 1920s was first seen  in 1922, as a four seat open tourer. Nicknamed Chummy, the first 100 featured a 696cc four cylinder engine, which was quickly upgraded to the 747cc unit that remained until the end of production some 17 years later. The first cars had an upright edge to the doors and a sloping windscreen, but from 1924, the screen became upright and there was a sloping edge to the doors, as well as a slightly longer body. Stronger brakes came along in 1926, along with a slightly taller nickel-plated radiator grille, conventional coil ignition, a more spacious body and wider doors. An even longer and wider body arrived in 1930, as well as a stronger crankshaft and improvements to the brakes which coupled front and rear systems together so they both worked by the footbrake. In 1931 the body was restyled , with a thin ribbon-style radiator and by 1932 there was a four speed gearbox to replace the earlier three-speeder. 1933 saw the introduction of the Ruby, a car that looked more modern with its cowled radiator. There were also Pearl and Opal versions. Development continued, so in 1937 there was a move to crankshaft shell bearings in place of the white metal previously used, and the Big Seven appeared. The last Seven was made in 1939, by which time 290,000 had been produced

The Morris Minor was already well established when rival Austin launched their competitor, the A30 Saloon of 1952. That was also the year that Austin and Morris merged to become the British Motor Corporation, so suddenly the two cars that had been conceived to compete against each other were stablemates. Except BMC did not work like that. Separate dealer chains remained in place, as they would do for a further 30 years, and whilst this may sound inefficient now, it has to be noted that brand loyalty was such that there were plenty of people would only consider an Austin say, and not a Morris, or vice versa. The A30 was smaller than the Minor and at £507, at launch, it was also £60 cheaper. The body structure was designed by T.K. Garrett, who had been an aeronautical engineer before joining Austin. It was of fully stressed monocoque chassis-less construction, which made it lighter and stiffer than most contemporary vehicles, the first Austin to be made in this way. Inside there were individual seats at the front and a bench at the rear covered in PVC with an option of leather facings on the seats. Evidence of economy was seen in only having a single windscreen wiper, central combined stop/tail/numberplate lamp and a sun visor in front of the driver only. A passenger-side wiper and sun visor, and a heater were available as optional extras. Even so, it sold well, and 223,264 examples were built. The A30 was replaced by the Austin A35 in 1956 with the new name reflecting the larger and more powerful 34 hp A-Series engine, which gave the car a slightly higher top speed and better acceleration, though much of this came as a result of different gearbox ratios. The A30 had the first three ratios close together then a big gap to top, whereas in the A35, the ratios were better spaced and gave a higher speed in third gear. That top speed was 72 mph and 0 – 60 acceleration times are just over 30 seconds, so this remains a very slow car by modern standards. The A35 was very similar in appearance to the A30, and is best recognised by its larger rear window aperture and a painted front grille, with chrome horse-shoe surround, instead of the chrome grille featured on the A30. The semaphore trafficators were replaced with present-day front- and rear-mounted flashing light indicators. A slightly easier to operate remote-control gear-change was provided. Like the A30, the A35 was offered as a two- or four-door saloon or two-door “Countryman” estate and also as a van. The latter model continued in production through to 1968. A rare coupe utility (pickup) version was also produced in 1956, with just 477 sold. Drawings were made for a sports tourer, but no prototype was actually built. The A35 passenger cars were replaced by the new body shape A40 Farina models in 1959 but the estate car version continued until 1962 and van until 1968. These days they are popular as an affordable classic. Their simple mechanicals, good availability of some parts (not bodywork, though) and pert looks give them widespread appeal.

“A British car to beat the world”. So read the billboards when the Austin Metro was revealed in October 1980. We had waited a long time for this car. There were many false starts, with thoughts first turning to how to replace the Mini going back to the late 1960s, but for various reasons, every effort had been cancelled. Fortunately, that extended to the ADO88 prototype which got to quite an advanced state of development in 1978, but which received less than favourable feedback at customer clinics. A hasty redesign was conducted. Despite carrying over the A Series engines, albeit in modified A+ guise, as BL had nothing else suitable an no money to develop an alternative, and that meant the 4 speed in-sump gearbox came with it, the little Metro has an immediate hit. It looked good, with pert, modern looks, and with a large hatchback, and some innovative ideas on how to maximise the use of space, this was a roomy car that Britain could indeed be proud of. That a young lady who came to prominence in the months following launch, the future Princess Diana, could be seen driving around in one probably helped still further. Five models were available at launch: 1.0, 1.0L, the economy-oriented 1.0 HLE, 1.3S and 1.3 HLS, and the cars were available in a wide range of bright and attractive colours, including a greater percentage of metallic paints than were typically offered to buyers of cars in this class. My parents bought a 1.0L in the summer of 1983, as a replacement for our Mini, and the car was a massive improvement in just about every respect. Unlike previous BL cars, this model was not dogged with build quality and reliability issues, though, sadly it did have the same propensity to rust as they did, but it took several years before that would become obvious. Before that happened, the range was expanded with the introduction of cheaper City and City X models, a top spec Vanden Plas and then the sporting MG version. There was a lot of angst about this last one, as the purists all bemoaned the fact that it was not a “real” MG, as it was a family hatchback not a sports car (conveniently ignoring the MG 1100/1300 saloons of the 1960s), but ti soon became apparent that this little car was a blast to drive, and something quite special with its red trim, including red seat belts and a liberal splashing of octagon logos around the car. A wilder Turbo model followed at the end of 1982, reflecting the craze for every manufacturer to bolt one on to every car that they could find to create a series of often rather unruly and lag-prone but fast machines. Although a lot of work was done in the mid 80s on developing what should have been another world class replacement (the AR6, the prototype for which is also hidden away at Gaydon), a lack of funds meant that for the next 7 years, all that happened was a lot of tweaking of the trim, and specification and the incorporation of a pair of rear doors to create a 5 door model. This was at a time when the competition stood far from still, with the Fiat Uno and Peugeot 205 upping the ante in early 1983, Vauxhall joining the fray with the Nova mid year, a facelifted Fiesta with a five speed gearbox arriving later that year, a new Renault R5 the following year, along with several Japanese rivals coming out every 4 years. It all made the Metro look increasingly elderly, and also small, compared to all its rivals.

BMW

The BMW E38 is the third generation of the BMW 7 Series luxury cars and was produced from 1994 until 2001. The E38 replaced the E32 7 Series and was produced with petrol and turbo-diesel straight-six and V8 engines, along with a petrol V12 flagship model. Three wheelbase lengths were available — short (i), long (iL) and Limousine (L7). The E38 was the first car available with curtain airbags. It was also the first European car to offer satellite navigation and the first BMW to offer an in-built television. The E38 was the first 7 Series to be available with a diesel engine and the last to be available with a manual transmission. In early 1988, development began on the third generation of the 7 Series. From 1988 to 1990 styling work was done initially under design director Claus Luthe (through April 1990, taken over by Dr. Wolfgang Reitzle), when Boyke Boyer’s concept design was chosen and further refined into production form. In February 1991, the final production design for the new 7 Series was approved by the board 36 months ahead of the scheduled start of production for 17 February 1994. On 27 April 1993, German design patents were filed featuring a pre-production prototype as a design representation. Patents were later filed on 27 October 1993 in the United States. Production started on 23 July 1993 on pilot production models and US specification variants on 13 January 1994, with series production commencing in April 1994 for June 1994 domestic German launch with the 730i and 740i. US-specification cars entered production in September 1994, for November 1994 launch. On 18 February 1994, the E38 BMW 7 Series was unveiled for the 1995 model year via a BMW press release. The 750i production began in November 1994, in advance of its January 1995 launch. The production totals by model are: 728i- 38,000; 728iL- 7,000; 730i- 21,000; 730iL- 2,000; 735i- 21,000; 735iL- 5,000; 740i- 88,000; 740iL- 81,000; 750i- 8,000; 750iL- 15,000; 725tds- 9,000; 730d- 12,000, 740d- 3,000 and less than 500 each for the 740iL P, 750iL P, 750iL S and L7 models. A total of 340,242 cars were produced. The last E38 rolled off BMW’s assembly line on 27 July 2001 to make way for the replacement E65 7 Series.

CITROEN

The Visa is rare now, even in France, as despite the fact that Citroën built 1,254,390 examples of the model between 1978 and 1988, the model is all but extinct everywhere. There was a very long gestation to this car, which goes all the way back to 1965, when Robert Opron worked on the Citroën G-mini prototype and projet EN101, a replacement for the 2CV, using the flat twin engine from the 2CV. It was supposed to launch in 1970. The advanced space efficient designs with very compact exterior dimensions and an aerodynamic drag co-efficient Cd of 0.32, were axed because of adverse feedback from potential clients. With Citroën’s small car range all getting somewhat elderly, the decision was taken to try again, with the Citroën Prototype Y  which was planned to replace the 2CV based Citroën Ami that dated back to 1960 in the early seventies. This  was originally developed in co-operation with Fiat, built on the lessons from the Citroën G-mini and EN101 projects. It used the then new and advanced Fiat 127 platform, that used a transverse front wheel drive engine, with an end on gearbox layout that Fiat had pioneered in the 1960s. When co-operation with Fiat ended, a new Citroën designed platform was planned. After the takeover of Citroën by Peugeot in the wake of the 1974 oil crisis, the renamed “Projet VD (Voiture Diminuée)” became the Citroën Visa, incorporating the floor pan and advanced 104 engine, with its transmission (under the engine) and chassis. It was the first new model under the platform-sharing policy of PSA Peugeot Citroën that continues today. The earlier Citroën LN had just been a facelift of the Peugeot 104Z “Shortcut” with a re-engine and transmission from the Citroën Dyane. Eventually, in 1984, the original Citroën platform design from “Project Y” emerged as the Oltcit Club in Romania, using a Citroën Visa flat-twin engine and Citroën GS based gearbox, and Citroën GS flat-four engine and gearbox, and was also sold in Western Europe as the flat-four only Citroën Axel to recoup money that Citroën had invested in Romania, which the communist government could not repay. This project was problematic for Citroën due to build quality issues, only 60,184 cars were made, even though the base models were priced below the 2CV in Western Europe. The Axel was never sold in the UK. The five-door Citroën Visa and the three-door Axel look very similar, but there is no part interchangeable between these two Citroën models. The Visa entered a crowded market, with supermini competitors including the Chrysler Sunbeam, Mk1 Renault 5, Mk1 Ford Fiesta, Vauxhall Chevette, Mk1 VW Polo and Fiat 127. Though it was launched as a supermini, it was about the same length (3725mm) and height (1430mm), but slightly narrower at 1526mm than a Volkswagen Golf Mk1, which was in the next class up. It was part of a ‘between sizes’ policy that Citroën also followed with the BX. From its launch in September 1978, the front-wheel drive Visa was available in “Spécial” and “Club” models with a mapped electronic ignition 652 cc, 2-cylinder and a “Super” (later “Super E”)  model (called the 11RE after 1984), with the advanced Peugeot 1,124  cc Douvrin engine / PSA X engine, a four-cylinder “Suitcase engine” — all aluminium alloy, chain driven overhead cam, with gearbox in the sump, sharing engine oil, mounted almost on its side. The 1124 cc was as economical as the Citroën 2CV-derived twin, but with much better performance. Later on it had 1,219 cc (Super X) and then 954 cc (10E after 1984) and 1,360 cc (1983 Visa GT and 14TRS after 1985) versions of the same engine. The ergonomic design of the Visa controls used a Citroën “PRN Satellite” (P=Pluie – Rain, R=Route – Road, N=Nuit – Night) which gave access on one cylindrical unit to wipers, washers, horn, indicators, headlamps and flashers, all mounted a finger’s reach away from the steering wheel. The heat and ventilation control sliders that moved in arcs, were on the other side of the steering wheel, also within closer reach than usual.  In 1982 the Visa underwent a major external restyling, designed by Heuliez, to look more mainstream. It kept the original interior and “PRN Satellite” controls until 1985 when, along with the Citroën BX, it was updated with a new bulkier dashboard, instruments and switchgear that made the car feel smaller inside. Stalk switchgear like contemporary Peugeots added self-cancelling indicators, but it kept the original monospoke steering wheel. It had very soft, but well damped, long travel, fully independent suspension with coil-sprung MacPherson struts at the front and coil sprung trailing arms at the rear, that caused it to have a soft ride like the Citroën 2CV, but without such extreme roll angles. CAR magazine made the Visa diesel one of its top ten models on the market for two years running in the mid-1980s (January 1986 and 1987), for its versatility (higher models in the range had split rear seats which could be lifted-out to give an almost van-like luggage capacity); ride comfort (“like a limousine”); its ability to maintain high average speeds due to high levels of grip; and value for money. It was also particularly aerodynamically stable at high speeds for a relatively light, narrow and tall car. It would remain unperturbed by cross-winds and truck bow waves at motorway speeds. It also had at the middle ‘R’ trim level and above, (currently unfashionable), but practical, grey plastic side rubbing strips, to protect against car park damage. The very curved sides of the windscreen, enabled the use of a very large single wiper on the long narrow windscreen, without fouling the windscreen seal. The front of the revised car, was designed to aerodynamically reduce the deposition of dirt on the headlights, and to reduce the risk of stone chips to the headlights, bonnet and windscreen. The heating and ventilation system, (even though it used only a water control valve for temperature control and not air mixing), could provide cold air from fascia side vents, to the face while warming the car. The central directable fascia vents could be heated and angled, so that they could be pointed directly at the windscreen in front of the driver, to keep it clear in extreme misting conditions. There was also an additional mid level vent, to blow air between the front seats to the back of the car. The rear parcel shelf was in two hinged sections, one in the car, the other on the tailgate, to allow objects that were slightly too tall to still fit without removing the shelf. When carrying larger loads, the part of the shelf attached to the tailgate could be folded up, and fixed with the elasticated support strings, to protect the rear window and heated rear screen elements. Long time CAR magazine columnist George Bishop, actually bought one with his own money. Before the advent of the diesel model, the electronic ignition (mechanical and vacuum controlled), 1124cc high compression engined Super E, (later renamed 11RE) with high gearing, was the best seller in the range. It was better equipped than the base 1.0 litre Austin Metro and Ford Fiesta it was priced against, having height adjustable halogen headlights, intermittent rear wash-wipe and multi-speed / intermittent front wipers, heated rear window, removable split folding rear seats, as well as five doors when its main competitors in the UK only had three, (the five-door Metro was launched in 1985, the five-door mark three Fiesta launched in 1989). A five speed gearbox was optional, when the base model competitors could only be had with a four speed. Most 1980s base model hatchback economy cars did without halogen headlights and rear wash-wipes, even heated rear windows could be optional. The 1984 launched 954cc 10E model was a direct competitor on specification to the Metro and Fiesta, but significantly undercut them on price. A four-door convertible version, with the doors and window frames remaining intact, of the 11RE was also produced in the Heuliez factory from 1984. This was heavier and slower than the hatchback that it was based on. In spring 1984 the very successful diesel version was added. The Visa 17D and 17RD used the famously rugged and refined, class-leading 1,769 cc XUD diesel and transmission from the Peugeot 205. It also capably powered the Peugeot 405, which was two classes larger, and made light work of powering the lightweight Visa. It had too wide a track for the original engine compartment and wings, so the front wings were extended with large black plastic wheel arch panels. The spare wheel that in smaller petrol engine versions, was mounted on top of the flat or near horizontal engine, was bolted to the otherwise flat boot floor — compromising luggage space. In continental Europe, a basic diesel van the ‘Visa Enterprise’ was sold that used the normal Visa bodyshell with the rear doors welded shut. It mounted a spacesaver spare wheel under the bonnet, over the diesel engine. Some diesel hatchbacks there, also used this arrangement. At the Paris Salon 1984, for model year 1985, the 1.4 litre TRS was presented. This version was produced for two years (1985–1987), shared its engine with the Citroën BX14. Even though it received a favourable review by CAR magazine who felt it was a better performance/economy compromise than the 11RE, it wasn’t very successful, due to being squeezed by the Visa Diesel and the extremely competitively priced BX 14. Between 1985 and 1987 the 1.1 litre petrol and 1.7 litre diesel “Leader” special editions editions were marketed. In the latter half of the eighties a 55 PS catalysed version of the 1,360 cc engine was added for markets with stricter emissions standards. No automatic gearbox version was produced.

The C15 was based on the Citroën Visa (discontinued 1988), and mainly used a 1769 cc XUD or 1868 cc (DW8 on late models), naturally aspirated (non turbo) diesel engine. Until the early 1990s, it was also available with a petrol PSA TU engine. At the time of introduction, the engines were the 60 PS XUD (C15D) or the 47 PS 1124 cc petrol TU1 (C15E). The diesel engines also powered vehicles several classes larger. Both Bosch and Lucas/CAV/Roto diesel injection systems were used. The TU petrol-engined versions were sold until the beginning of the 1990s. The engines and drivetrains were taken from the Citroën Visa lineup. While the car was mostly the same as a regular Citroën Visa ahead of the B-pillar, the cargo area was unique. The C15 had a lengthened wheelbase, and a sturdier rear axle shared with the Peugeot 305 Break and Citroën BX since it had to carry heavier loads than the Visa. The very curved sides of the windscreen, enabled the use of a very large single wiper on the long narrow windscreen, without it catching the windscreen seal. The shape of the bumper and plastic trim on the front of the van, like those of the Visa car, were designed to aerodynamically reduce the deposition of dirt on the headlights, and to reduce the risk of stone chips to the headlights, bonnet and windscreen. The heating and ventilation system, (even though it used only a water control valve for temperature control and not air mixing), could provide cold air from fascia side vents, to the face while warming the car. The central directable fascia vents could be pointed directly at the windscreen in front of the driver, to blow hot air to keep it clear in extreme misting conditions. There was also an additional mid-level vent. The C15 also had height adjustable halogen headlights, and multi speed/intermittent front wipers, which was better than most commercial vehicles of the time. As well as standard van configuration, the vehicle later became available with rear side windows and a rear seat, (a layout which had been pioneered in the 2CV), which can be seen as a forerunner to today’s compact utility vehicles such as the Ford Transit Connect, Opel/Vauxhall Combo, Peugeot Partner/Citroën Berlingo and Renault Kangoo. The C15 was also available without the rear bodywork, as a chassis only model. This encouraged various conversions such as the campervan called the RomaHome built by British company Island Plastics. This small camper was suitable for two people. Rare pickup truck versions were also made. By December 2005, when it was discontinued in most countries, production had reached 1,181,471

DODGE

This is a rather spectacular Dodge Dart Pioneer, dating from 1960. The first Dodge Darts were introduced for the 1960 model year. They were downsized large cars developed to replace Plymouths in the standard, low-priced car segment for the Dodge dealer network. Dodge dealers had been selling Plymouths since 1930, but divisional restructuring took the Plymouth brand away from the Dodge dealer network. Project planners proposed the name Dart, only to have Chrysler executives demand an expensive research program that produced the name Zipp. This was promptly rejected in favour of Dart. With the cancellation of Chrysler’s upper level DeSoto brand, upper-level Dodge products were pushed upmarket, while using Plymouth products with more features for lower-level Dodge products. The Dart sedans and coupes were based on the unibody Plymouth platform with a 118 in (2,997 mm) wheelbase, shorter than the standard-size Dodge line. However, the Dart station wagons used the same 122 in (3,099 mm) wheelbase as the upmarket Polara wagons. The Dart line was offered in three trim levels: the basic Seneca, mid-range Pioneer, and premium Phoenix. The new Dart came standard with a new engine, the 225 cu in (3.7 L) slant-six. The 318 cu in (5.2 L) (standard equipment on certain Phoenix and Pioneer body styles) and 361 cu in (5.9 L) V8s were optional with two-barrel or four-barrel carburetors, and with single or dual exhaust. The Dodge 383 cu in (6.3 L) V8 was added in 1961. Brakes were 11-inch drums. Sales of the new Dart were greater than those of the full-size Dodge Matador and Dodge Polara, which also created an in-house competitor for Plymouth. Advertising from 1960 and 1961 compared the Dart to the “C” car (Chevrolet), the “F” car (Ford) and the “P” car (Plymouth). After the economic downturn of 1958–59, Dodge production for 1960 rebounded to 367,804 cars, the division’s highest total to date, and good for sixth place behind Chevrolet, Ford, Plymouth, Rambler, and Pontiac. Chrysler officials were somewhat less comforted at how 87% of Dodge’s volume consisted of the low-profit Dart line, compared to the upmarket Matador and Polara, of which only 41,000 were sold for the 1960 model year. As the Dart’s sales climbed, Plymouth’s sales dropped. Chrysler executives did little to stop the infighting between the divisions. Dart sales were so strong in 1960 that production of the medium-priced model lines were reduced. The full-size, mid-priced Matador was discontinued after the 1960 model year as buyers selected the slightly smaller but better-appointed and less expensive Dart Phoenix. The premium Polara remained in the medium-price segment in 1961.

FORD

The Ford Model T was produced by the Ford Motor Company from October 1, 1908, to May 26, 1927. It is generally regarded as the first affordable automobile, which made car travel available to middle-class Americans. The relatively low price was partly the result of Ford’s efficient fabrication, including assembly line production instead of individual handcrafting. It was mainly designed by an American (Childe Harold Wills) and two Hungarian engineers (Joseph A. Galamb, Eugene Farkas). The Model T was colloquially known as the “Tin Lizzie”, “Leaping Lena” or “flivver”. The Ford Model T was named the most influential car of the 20th century in the 1999 Car of the Century competition, ahead of the BMC Mini, Citroën DS, and Volkswagen Beetle. Ford’s Model T was successful not only because it provided inexpensive transportation on a massive scale, but also because the car signified innovation for the rising middle class and became a powerful symbol of the United States’ age of modernization. With 15 million sold, it was the most sold car in history before being surpassed by the Volkswagen Beetle in 1972, and still stood eighth on the top-ten list, as of 2012.

A sporting version of Ford’s front wheel drive Escort was announced at the same time as the “cooking” 1.1, 1.,3 and 1,6 litre cars in October 1980. This was the XR3, and it came initially with a carb fed 1.6 litre engine generating 105 bhp and had a four speed gearbox. Fuel injection finally arrived in October 1982 (creating the XR3i), eight months behind the limited edition (8,659 examples), racetrack-influenced RS 1600i. The Cologne-developed RS received a more powerful engine with 115 PS, thanks to computerised ignition and a modified head as well as the fuel injection. For 1983, the XR3i was upgraded to 115bhp thanks to the use of fuel injection and a five speed transmission had been standardised. Both variants proved very popular, getting a significant percentage of Escort sales and also as a slightly more affordable alternative to a Golf GTi. For those for whom the performance was not quite enough, Ford had an answer, withe the RS Turbo. This 132 PS  car was shown in October 1984, as a top of the range car, offering more power than the big-selling XR3i and the limited production RS1600i. Going on sale in the spring of 1985, it proved to be somewhat of a disappointment, with the chassis coming in for severe criticism.  The RS Turbo Series 1 was only marketed in a few European nations as production was limited to 5,000 examples, all in white. They were well equipped, with the alloy wheels from the limited production RS 1600i, Recaro seats, and a limited slip differential.

In April 1985, the third-generation Granada arrived, which was essentially a rebadged Ford Scorpio, the Granada name being used in both Ireland and the United Kingdom only, with the Scorpio badge (which covered the whole range in Continental Europe) being used instead as a trim designation for the top of the range models. The Mark III Granada was the first European volume production model to have antilock brakes fitted as standard across the range. It was voted European Car of the Year in 1986. Engine options included the familiar SOHC Pinto engine, in either tax-barrier undercutting 1.8 L form, or a more powerful 2-litre version with fuel injection available. The Cologne V6 engines were carried over from the previous range in short-lived (and not much more powerful than the 2 L Pinto) 2.4 L, and 2.8 L (later 2.9 L) capacities. In 1991, a new range-topping vehicle was introduced, the Scorpio 24-valve. It featured a 2.9 L Cologne engine that had been extensively reworked by Cosworth Engineering and featured quad camshafts and 24 valves, enough for 200 bhp. According to Ford, this gave a 0-60 mph time of 8.1 seconds and top speed of 140 mph (230 km/h). This version of the Granada continued the “Ford family” styling concept from the previous versions; this time, the car superficially resembled a larger version of the Cortina’s successor, the Ford Sierra. It had followed the precedent set by both the Sierra and the Escort Mk III in changing from the angular saloon styling of their predecessors to an advanced aerodynamic hatchback body style. The Ford Granada Mk III was the last car to bear the Granada badge in the UK and Ireland, being replaced in 1994 with the pan-European Scorpio. The Scorpio shared its platform doors and roof with the Mk III Granada. The styling of the nose and tail sections were updated to match the ovoid designs being used across the Ford range in the 1990s. On the Scorpio, this resulted in a controversial design. After a 1998 redesign, it was taken out of production the same year with total European sales being 95,587 units.

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.

Successor to the E Type was the XJ-S, launched in September 1975, and to a not universally approving public. This was a very different sort of sporting Jaguar, more boulevard cruiser than sports car, even though the car had plenty of appeal with its smooth V12 engine which gave it genuine 150 mph performance. Press reports were favourable, but a thirsty V12 and a car with inconsistent build quality and styling that not everyone warmed to meant that sales were slow, and they got slower as the decade passed, leading questions to be asked as to whether the car should continue. As well as sorting the saloon models, Jaguar’s Chairman, John Egan, put in place a program to improve the XJ-S as well, which also benefitted from the HE engine in early 1981. A Cabrio model and the option of the new 3.6 litre 6 cylinder engine from 1984 widened the sales appeal, and the volumes of cars being bought started to go up. A fully open Convertible, launched in 1988 was the model many had been waiting for, and by this time, although the design was over 10 years old, it was now brimming with appeal to many. 1991 saw an extensive facelift which changed the styling details as well as incorporating the latest mechanical changes from the Jaguar parts bin, making the XJS (the hyphen had been dropped from the name in 1990) a truly desirable car. Seen here were both pre- and post-facelift models as well as one of the rare TWR-converted XJR-S cars. These were made between 1988 and 1993 by the newly formed JaguarSport, a separate company owned in a ratio of 50:50 by Jaguar and TWR Group Limited specialising in developing high performance Jaguar sports cars. The car had a distinctive body kit, special alloy wheels, a unique suspension system utilising modified coil springs and Bilstein shocks, a luxurious interior with Connolly Autolux leather along with walnut wood trim, and handling improvements. The first 100 of these cars were named “Celebration Le Mans” to commemorate Jaguar’s 1988 win at the 24 Hours of Le Mans and were only sold in the UK. Between 1988 and 1989, a total of 326 XJR-S cars were produced with the 5.3 litres engine with a power output of 318 bhp. After September 1989, the displacement of the engine was increased to 5,993 cc and it was now equipped with Zytek fuel injection and engine management system. This was different from the standard 6.0-litre engine used in the late XJS models and was unique to this model. The power output was raised to 334 bhp at 5,250 rpm and 495 Nm (365 lb/ft) of torque at 3,650 rpm due to a higher compression ratio of 11.0:1, a new forgedsteel crankshaft, increased bore and forged alloy pistons. A modified air intake system and a low loss dual exhaust system was also standard on the model. The engine was mated to the 3-speed GM400 automatic transmission utilising a recalibrated valve body and had faster shift times. The car was equipped with Dunlop D40 M2 tyres for better grip. These modifications resulted in a top speed of 260 km/h (160 mph). A total of 787 coupés and 50 convertible XJR-S were built for the world market.

The “X300” model was the first XJ produced entirely under Ford ownership, and can be considered an evolution of the outgoing XJ40 generation. Like all previous XJ generations, it featured the Jaguar independent rear suspension arrangement. The design of the X300 placed emphasis on improved build quality, improved reliability, and a return to traditional Jaguar styling elements. At the car’s launch in October 1994 at the Paris Motor Show, Jaguar marketing material made use of the phrase “New Series XJ” to describe the X300 models. The X300 series represented the result of a £200 million facilities renewal program by Ford. which included the introduction of state-of-the-art automated body welding robots manufactured by Nissan. Aesthetically, the X300 received several updates in the design refresh led by Geoff Lawson in 1991. The mostly flat bonnet of the XJ40 was replaced with a fluted, curvaceous design that accentuated the four separate round headlamps. Rear wings were reshaped to accommodate the new wrap-around rear light clusters. Also, the separate black-rubber bumper bar of the XJ40 were  replaced with a fully integrated body-coloured bumper. The interior of the X300 was similar to that found in the XJ40, with some revisions. The seats were updated to have a more rounded profile, wood trim was updated with bevelled edges, and the steering wheel was redesigned. Jaguar’s V12 engine and AJ6 inline-six (AJ16) engine were both available in various X300 models, although they received significant updates. Both engines were fitted with distributorless electronic engine management systems. The Jaguar X308 first appeared in 1997 and was produced until 2003. It was an evolution of the outgoing X300 platform, and the exterior styling is nearly identical between the two generations, though there are quite a few detailed differences if you know what to look for. The major change was the under the bonnet. Having discontinued production of both the AJ16 inline-six and V12 engines, Jaguar offered only its newly designed V8 engine (named the AJ-V8.) It was available in either 3.2 or 4.0 litre forms, although certain markets, such as the United States, only received cars powered by the 4.0 litre version. The 4.0 litre version was also supercharged in certain models. Equipment levels were notably more generous than had previously been the case.

Few would have guessed that the XJS would run for over 20 years, but eventually it came time for its replacement, and the car charged with so doing was the XK8.  Development began in 1992, with design work having starting earlier, in late 1991. By October 1992 a design was chosen and later frozen for production in 1993. Prototypes were built from December 1993 after the X100 was given formal approval and design patents were filed in June 1994. Development concluded in 1996, at which point the car was launched. The first-generation XK series shares its platform with the Aston Martin DB7, and both cars are derived from the Jaguar XJS, though the platform has been extensively changed. One of the revisions is the use of the second generation of Jaguar’s independent rear suspension unit, taken from the XJ40. The XK8 was available in coupé or convertible body styles and with the then new 4.0-litre Jaguar AJ-V8 engine. In 1998 the XKR was introduced with a supercharged version of the engine. 2003 the engines were replaced by the 4.2-litre AJ34 engines in both the normally aspirated and supercharged versions. Equipment levels were generous and there was a high standard of fit and finish. Both models came with all-leather interior, burl walnut trim, and side airbags. Jeremy Clarkson, during a Top Gear test-drive, likened the interior of the original XK8 to sitting inside Blenheim Palace. The model ran for 10 years before being replaced by the X150 model XK.

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.

Occasionally called “The Olympics of 4×4”, Camel Trophy was an off-road vehicle oriented competition that was held annually between 1980 and 2000, and it was best known for its use of Land Rover vehicles over challenging terrain. The event took its name from its main sponsor, the Camel cigarette brand. Camel Trophy originated in 1980 with three Jeep-equipped German teams exploring the Amazon Basin. After that first event, the organisers turned to Land Rover for support and over the course of the next twenty years, all of the Land Rover vehicle range were used. Range Rover, Land Rover Series III, Land Rover 90, Land Rover 110, Land Rover Defender, Land Rover Discovery, and Freelander vehicles all appeared in the distinctive “sandglow” colour scheme. The cars were heavily modified by Land Rover Special Vehicles with a range of expedition, recovery, and safety equipment. Generally speaking, except for support and specialist vehicles, the Land Rovers were only used for one event. Some competitors purchased their vehicles and many remained in the host country. Consequently, those vehicles that returned to the United Kingdom were highly sought after as they were low mileage – but they were “Camel Trophy miles”. They were stripped of most of their equipment by Land Rover before they were released and restoring the vehicles to their original condition is expensive and time-consuming.

The first-generation Range Rover was produced between 1969 and 1996. It was available only in a 2-door body until 1981. (Before then, 4-door models had been produced by specialist firms). Unlike other 4x4s such as the Jeep Wagoneer, the original Range Rover was not designed as a luxury vehicle. It was up-market compared to preceding Land Rover models, but the early Range Rovers had fairly basic, utilitarian, interiors with vinyl seats and plastic dashboards that were designed to be washed down with a hose. Convenience features such as power steering, carpeted floors, air conditioning, cloth/leather seats, and wooden interior trim were fitted later. The Range Rover was a body-on-frame design with a box section ladder type chassis, like the contemporary Series Land Rovers. The Range Rover used coil springs as opposed to leaf springs, permanent four-wheel drive, and four-wheel disc brakes. The Range Rover was originally powered by various Rover V8 engines and diesel engines. Originally, the Range Rover was fitted with a detuned 130 hp version of the Buick-derived Rover V8 engine. In 1984, the engine was fitted with Lucas fuel injection, boosting power to 155 bhp. The 3.5-litre (3,528 cc) engine was bored out to a displacement of 3.9 litres for the 1990 model year, and 4.2-litre in 1992  for the 108-inch Long Wheelbase Vogue LSE (County LWB [long wheelbase] in North America). One of the first significant changes came in 1981, with the introduction of a four-door body. Shortly after twin thermo fan technology was introduced to reduce significant overheating problems 1970s models experienced in Australia. In 1988, LR introduced a 2.4-litre turbodiesel (badged Vogue Turbo D) with 112 bhp, manufactured by Italian VM Motori. The same engine was available in the Rover SD1 passenger car. The diesel project was codenamed project Beaver. During the project, 12 world records were broken, including the fastest diesel off-roader to reach 100 mph (160 km/h), and the furthest a diesel off-roader has travelled in 24 hours. In 1990 project Otter was unveiled. This was a mildly tuned 2.5-litre, 119 bhp version of the ‘Beaver’ 2.4. In 1992, Land Rover finally introduced their own diesel engines in the Range Rover, beginning with the 111 bhp 200TDi, first released in the Land Rover Discovery and following in 1994, the 300 TDi, again with 111 bhp. The first generation was known as the Range Rover until almost the end of its production when Land Rover introduced the name Range Rover Classic to distinguish it from its successors. The original model served as the basis for the 1989 introduced 1st generation Discovery (directly based on the standard (short) wheelbase Range Rover), and for the 2nd generation Range Rover, based on the LWB chassis of the Classic.

LOTUS

The Type 75 Elite, announced in 1974, was the first of a new generation of Lotus cars which represented a concerted push up-market. The imposition of VAT had effectively killed off the market for the range of models that Lotus had hitherto produced as kit cars, and the only way to stay profitable was to produce something which could sold at higher prices. So whilst Lotus would tell you that the Elite was a replacement for the Lotus Elan Plus 2, it was more accurate to say that it was a rival for cars like the Reliant Scimitar GTE and Lancia Beta HPE. The styling was quite unlike anything that Lotus had produced before, with distinctive wedge lines penned by Oliver Winterbottom which hid the fact that the bodies were produced out of two separate glassfibre moulds and they had to join up in the middle around the waistline. The shooting brake style, with a hatchback as well as the fact that the Elite had 4 seats made it reasonably practical. luggage compartment. Mechanically there were fewer surprise. It was front engined with rear wheel drive, and had 4-wheel independent suspension using coil springs. The Elite was Lotus’ first car to use the 907 aluminium-block 4-valve, DOHC, four-cylinder, 1973cc, developing 155 bhp. which had previously been used in the Jensen-Healeys, where all the reliability issues had been found) The 907 engine ultimately became the foundation for the 2.0 litre and 2.2 litre Lotus Esprit powerplants, the naturally aspirated 912 and the turbocharged 910. The Elite was fitted with a 4 or 5 speed gearbox and from January 1976 automatic transmission was optional. The Elite had a claimed drag co-efficient of 0.30 and at the time of launch it was the world’s most expensive four cylinder car. Elites were available in 4 main specification variations, 501, 502, 503, and later on 504. The 501 was the ‘base’ version. The 502 added air conditioning, the 503 had power steering and the 504 added automatic transmission. The Elite was the basis for a coupe model, the Eclat which was launched in October 1975. Facelifted versions of both came in 1980, with a larger 2.2 litre engine and refinements to the trim. The Elite would live a couple of years in this form, but market interest shifted to the Coupe and when this was given a more significant revision a couple of years later, and a new name of Excel, the Elite was dropped from the range. Although 2535 of them were made, they are rare these days, so it was nice to see this 503 model.

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.

A third Series Elise was debuted in 2010 and the car has undergone almost constant enhancements ever since, with power outputs boosted considerably on the way. Revealed in November 2015, the Lotus Elise Sport and Sport 220 joined the two-seater sports car’s line-up, with the two models replacing the outgoing Elise and Elise S. The models mark a return for the ‘Sport’ name to a Lotus, with the badge last appearing on the Lotus Esprit. The two cars get a weight reduction of 10kg, with the Elise Sport now down to 866kg and the Sport 220 now 914kg. The reduced weight doesn’t improve performance but it does bring a marginal boost in claimed economy, with the Sport now managing 45.0mpg the Sport 220 improving to 37.5mpg. The changes are marginal enough that the CO2 emissions remain unchanged. Both cars also come with lightweight sports seats, which are available with optional tartan trim that harks back to the 1970s Esprit S1. Other visual upgrades and options include lightweight silver or black cast wheels, which are 16 inch at the front and 17 inch at the rear. Optional lightweight wheels can shave another 5kg off the car’s weight. A black rear diffuser is standard, along with a choice of 10 different colours. Other options include a hard roof, air conditioning, cruise control and an upgraded Clarion stereo system. The engines remained unchanged. The Sport comes with a 1.6-litre petrol engine with 134 bhp and 160 Nm (118 lb/ft) of torque. It can go 0-62mph in 6.5 seconds, and has a top speed of 127mph. The Sport 220’s 1.8-litre engine can develop 217 bhp (220 PS) and 250 Nm (184 lb/ft) of torque. It can go 0-62mph in 4.6 seconds and has a 145mph of top speed. Both come with a six-speed manual transmission. The pricing has also been trimmed, with the Elise Sport model starting at £29,900 and the Elise Sport 220 priced at £36,500. Both cars will go on sale from December 2015 in Europe and the rest of the world from January 2016. At the 2016 Geneva Motor Show, Lotus revealed the high performance version of the Elise called the Cup 250. The Cup 250 is a more track focused and hardcore version of the standard Elise. It has a 1.8 litre supercharged Toyota 2ZR-FE Inline-4 engine with a 6-speed Toyota EC60 manual gearbox with sport ratios, developing 243 bhp at 7200 rpm, giving a 0-60 mph time of 3.9 seconds and a Top speed of 154 mph. In October 2017, Lotus unveiled a hardcore version of the Elise called the Elise Cup 260. It is inspired by the two hardcore variants of the Evora and Exige line up, the Sport 380 and the GT430 respectively. It features the double taillight units and rear wing from the Exige Sport 380 and the Lotus 3-Eleven respectively. Power has also been uprated and is now 250 hp thanks to a revised supercharger. Other changes include increased top speed, acceleration, low weight and high downforce due to added aero elements. Performance was marginally improved over the 220 version. In March 2017, Lotus announced the special edition ‘Sprint’ models of the Elise. For the Elise Sprint, Lotus used several weight-saving techniques to cut the car’s weight down to 798 kg (1,759 lb). To achieve the 40 kg (88 lb) weight saving, some body parts are made in carbon, as well as the seats. The backlight glass is made of polycarbonate, and the lightweight battery is a Lithium-ion model. Wheels are the usual size, but forged instead of cast alloy. The Sprint can be had with either a 1.6-litre naturally aspirated engine, or a 1.8-litre supercharged engine, available for the Sprint 220 version. The former has a 0–60 mph of 5.9 seconds, while the Sprint 220 can accelerate from 0–60 mph in 4.1 seconds. Dampers are uprated, as on the Elise Cup models. On 9 February 2021, Lotus unveiled two final editions line-up models of Elise on online platforms. Opening the range is the Elise Sport 240 Final Edition, which sees the existing Sport 220’s 1.8-litre supercharged four-cylinder engine uprated to develop 240 bhp and 244 Nm (180 lb/ft), permitting a zero to 100km/h time of 4.5 seconds. When fully specified with weight-saving options – namely carbon-fibre sill and engine covers, a lithium-ion starter battery and a polycarbonate rear window – the Sport 240 is the lightest car on offer, tipping the scales in at just 898kg. A set of 10-spoke forged alloy wheels fill the arches, measuring 16 inches in diameter up front and 17 inches at the rear, wrapped in Yokohama Y105 tyres. Lotus claims the new wheels are 0.5kg lighter than the examples fitted to the outgoing Sport 220. The Elise Cup 250 Final Edition features a variant of the Sport 240’s 1.8-litre four-cylinder, now tuned to produce 245 bhp and 244 Nm (180 lb/ft). Lotus claims a 4.3-second 0-100km/h sprint time. This model gets an optimised aerodynamic package allowing for 155kg of downforce at its top speed of 248km/h, along with 10-spoke M Sport forged alloy wheels, Yokohama A052 tyres, Bilstein dampers and adjustable anti-roll bars. A lightweight lithium-ion battery and polycarbonate rear window are also fitted as standard for increased weight saving, and, in top spec layout, the car weighs 931kg. The Elise story came to an end in late 2021 when production  of the model ceased after 25 years.

MERCEDES-BENZ

The W126-generation S Class premiered in September 1979 at the Frankfurt IAA Show, with sales starting in Europe in March 1980 and October 1980 for the UK. Following the debut of the 1970s generation W116 (which also included the limited-production Mercedes-Benz 450 SEL 6.9), Mercedes-Benz began plans for the next-generation S-Class model in October 1973. Codenamed “project W126,” the project aimed to provide an improved ride, better handling, and improved fuel efficiency, to help retain the model’s marketing position. Mercedes-Benz made fuel efficiency a goal (named “Energy Program”), in the large V8 engined versions of the S-Class. The W126 design team, led by Mercedes-Benz’s Bruno Sacco, sought to produce a car that was more aerodynamic than the previous model. The application of lighter materials and alloys combined with thorough wind tunnel testing to reduce overall drag meant the car consumed about 10% less fuel than its predecessor. The W126 featured the first seatbelt pretensioners. After six years of development, the W126 was introduced at the Internationale Automobil-Ausstellung (International Motor Show, or IAA) in Frankfurt on September 1979. The initial rsnge featured seven models in standard (S S-KLasse-Vergaser, SE S-Klasse-Einspritzmotor, SD S-Klasse-Diesel) and long (SEL, SDL) wheelbase sedan body styles: the 280 S/SE/SEL, 380 SE/SEL, 500 SE/SEL and 300 SD. The long-wheelbase (SEL) variants were internally codenamed V126. In 1981, the coupé version C126 (SEC, acronym for S-Klasse-Einspritzmotor-Coupé) of the W126 S-Class premiered at the IAA with the 500 SEC model. In 1981, Wheels Magazine selected the W126 model 380 SE as its Car of the Year. Although the top of range Mercedes-Benz 450 SEL 6.9 of the previous generation was not directly replaced, the W126 carried forward the hydropneumatic suspension of the 6.9 as an option on the 500 SEL and later on 420 SEL and 560 SEL models. Four years after the introduction of the fuel-efficiency “Energieskonzept” (Energy Concept) in 1981, the model range was extensively revised. In September 1985, again at the IAA in Frankfurt, the revised model range was introduced. Apart from visual changes to the bumpers, side covers and larger 15-inch wheels with a new design on the hubcaps and alloys (optional), there where technical upgrades as well as revised engines available. A new generation of inline-six petrol and diesel engines and new 4.2- and 5.5-litre V8s were added, and other engines were revised. The W126 generation was replaced by the W140 in 1991. Over the twelve years,1979-1991, W126 S-Class production reached 892,123 — including 818,063 sedans and 74,060 coupés.

The second generation of the CL is the W215-chassis coupé of 1999–2006. It is based on the Mercedes-Benz S-Class (W220) (which was launched in late 1998 in Europe), though it rides on an 8-inch (203 mm) shorter wheelbase. The CL’s front fascia of four oval headlights is similar to that of the W210 and W211 E-Class. The CL is offered as four models: the V8-powered CL 500, the NA V8-Powered CL55 AMG, the supercharged V8-powered CL55 AMG, the NA V12-powered CL 600 (2000-2002), the limited production (about 200 per year worldwide), 5.5 litre V12 Bi-Turbo CL600 (2003-2006), the very rare limited-edition NA CL63 AMG (26 examples only), the 2000 NA CL55 AMG F1 Edition (55 examples only), and the limited production (196 total) 6.0 litre V12 Bi-Turbo CL65 AMG (2004-2006). All models seat four. Development took place from 1993 to 1999, with final design being approved in 1996. The CL coupés come equipped with the very latest in Mercedes-Benz technology, and along with the S-Class saloons the CL coupés receive new technological features (it introduced the refined Active Body Control fully active suspension system and Bi-Xenon HID lights). Active Body Control uses four hydraulic suspension rams that use three pressure regulators connected to a combination power steering and suspension pump, pushing fluid at a pressure of 2,960 psi (20,400 kPa) through the system that, along with several intermediate computers and master CPU, keeps this car absolutely flat through the corners. The CL class has a lengthy list of custom available features. The following features are standard: climate control, ABC (hydraulic) suspension, all-leather interior, designer wood trim, trip computer, CD, navigation system, front heated seats, power moonroof, as well as power door and trunk closing assist. Optional features include a heated steering wheel and voice-activated telephone, as well as, front fan-cooled and heated seats. The CL63 AMG is the rarest W215 CL of all. It was produced only in November 2001 and just 26 examples were sold. The engine produces 438 bhp and 390 lb-ft torque between 2,500 – 5,800 rpm, with a peak of 457 at 4,400 rpm. with some UK being and one for France registered in March 2002. The V12-powered CL63 AMG was only sold in Europe and Asia. Mercedes-Benz never offered the W215 CL63 for sale; all were sold exclusively through AMG. The 2000 CL55 AMG F1 is also extremely rare with a total production of only 55 units. This was a tribute to the modified Safety Car version used in Formula One during the 1999 and 2000 seasons. The engine was a naturally-aspirated 5.4-litre V8 delivering 354 bhp at 5,500 rpm, and 391 ft lbs torque at 4,100 rpm. This was the first road car to feature full Ceramic Brembo Vented and Cross Drilled Disc Brakes. From 2000 through 2002, the V12-equipped cars featured a cylinder deactivation system called Active Cylinder Control. The feature was dropped when the 500 PS (368 kW; 493 hp) Bi-Turbo V12 was introduced. This deactivation feature allowed the CL 600 to get better fuel economy than the comparable CL 500, especially on the highway where the six-cylinder operation could be effectively used. Basically this engine is two Mercedes six-cylinder series engines mated to a common crank with appropriate engine monitoring systems. Exclusive “Designo” packages are also available. These packages add custom color metallic paint, custom color Nappa leather interior and exotic wood trims. They are available in three variants: Designo Cashmere, Designo Espresso and Designo Silver. Additional variants can be found on rarer models. There was even an optional granite trim that took the place of wood. In 2003 the engine options changed. The CL 55 AMG became supercharged allowing the car to accelerate from 0-60 mph in 4.27 sec according to Motor Trend and the V12 CL 600 had 2 turbochargers added and a slight engine reduction, from 5980 cc to 5513 cc. Both cars produced 500 PS the distinction, again, was the ghost like quietness of the CL 600 as compared to rather noisy CL 55 AMG. The CL 600 was conservatively rated by Mercedes-Benz as not to take sales away from the AMG CL 55. A dyno tested stock CL 600 was closer to 540 hp. Car & Driver’s acceleration test delivered a 0-60 time of 4.3 seconds. The more powerful CL 65 (2004-2006) produced 612 PS. The top speed of the CL 65 was limited to 250 km/h (155 mph). These numbers are the stock performance ratings for the AMG CL 65.

MG

The MGA replaced the long running T Series sports cars and presented a complete styling break from MG’s earlier sports cars. Announced on 26 September 1955, the car was officially launched at the Frankfurt Motor Show. A total of 101,081 units were sold through the end of production in July 1962, the vast majority of the 58.750 cars made were exported. Only 5869 cars were sold on the home market, the lowest percentage of any British car. It was replaced by the MGB. The MGA design dates back to 1951, when MG designer Syd Enever created a streamlined body for George Philips’ TD Le Mans car. The problem with this car was the high seating position of the driver because of the limitations of using the TD chassis. A new chassis was designed with the side members further apart and the floor attached to the bottom rather than the top of the frame sections. A prototype was built and shown to the BMC chairman Leonard Lord. He turned down the idea of producing the new car as he had just signed a deal with Donald Healey to produce Austin-Healey cars two weeks before. Falling sales of the traditional MG models caused a change of heart, and the car, initially to be called the UA-series, was brought back. As it was so different from the older MG models it was called the MGA, the “first of a new line” to quote the contemporary advertising. There was also a new engine available, therefore the car did not have the originally intended XPAG unit but was fitted with the BMC corporate B-Series type allowing a lower bonnet line. The MGA convertible had no exterior door handles, however the coupe did. It was a body-on-frame design and used the straight-4 1489cc “B series” engine from the MG Magnette saloon driving the rear wheels through a 4-speed gearbox. Suspension was independent with coil springs and wishbones at the front and a rigid axle with semi-elliptic springs at the rear. Steering was by rack and pinion. The car was available with either wire-spoked or steel-disc road wheels. The 1489 cc engine fitted with twin H4 type SU Carburettors produced 68 hp at first, but was soon uprated to 72 hp. Lockheed hydraulic drum brakes were used on all wheels. A high-performance Twin-Cam model was added for 1958. It used a high-compression (9.9:1 later 8.3:1) DOHC aluminium cylinder head version of the B-Series engine producing 108 hp. Due to detonation problems, a 100 bhp low-compression version was introduced later. Four-wheel disc brakes by Dunlop were fitted, along with Dunlop peg drive knock-off steel wheels similar to wheels used on racing Jaguars, unique to the Twin-Cam and “DeLuxe” MGA 1600 and 1600 MkII roadsters. These wheels and chassis upgrades were used on a small number of the “DeLuxe” models built after Twin-Cam production came to a halt. Aside from the wheels, the only outside identifier was a “Twin-Cam” logo near the vent aside the bonnet. A careful look at the rear wheel vents would also reveal another feature unique to Twin-Cam and DeLuxe: those 4 wheel Dunlop disc brakes . The temperamental engine was notorious for warranty problems during the course of production, and sales dropped quickly. The engine suffered from detonation and burnt oil.  Most of the problems with the Twin-Cam engine were rectified with the low-compression version, but by then the damage had been done. Many restored Twin-Cams are running more reliably today than they ever did during production. The Twin-Cam was dropped in 1960 after 2,111 had been produced. Production ended in April 1960, but had slowed to a trickle long before. In May 1959 the standard cars also received an updated engine, now at 1588 cc producing 79.5 bhp . At the front disc brakes were fitted, but drums remained in the rear. Externally the car was very similar to the 1500 with differences including: amber or white (depending on market) front turn indicators shared with white parking lamps, separate stop/tail and turn lamps in the rear, and 1600 badging on the boot and the cowl. 31,501 of these were produced in less than three years. A number of 1600 De Luxe versions were produced with leftover special wheels and four-wheel disc brakes of the departed Twin-Cam, or using complete modified Twincam chassis left redundant by the discontinuance of that model. Seventy roadsters and 12 coupés were built. The engine size was increased again to 1622 cc by increasing the bore from 75.4 mm to 76.2 mm for the 1961 Mark II MGA. The cylinder head was also revised with larger valves and re-engineered combustion chambers. Horsepower increased to 90 bhp. It also had a higher ratio 4:1 rear axle, which made for more relaxed high-speed driving. An inset grille and Morris Mini tail lamps appearing horizontally below the deck lid were the most obvious visual changes. 8,198 Mark II roadsters and 521 coupés were built. As with the 1600 De Luxe, there were also some Mark II De Luxe versions; 290 roadsters and 23 coupés were produced.

As one of Britain’s most popular classic cars, it was no surprise to find several examples of the MGB here, with cars from throughout the model’s long life, both in Roadster and MGB GT guise, as well as one of the short-lived V8 engined cars. 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

The MG ZT and ZT-T were introduced three years after the Rover 75 and less than a year after the de-merger of MG Rover from BMW, along with the cheaper 25-based ZR and 45-based ZS models. The basic shape and styling of the MG ZT remained the same as for the Rover 75 but with changes to the front bumper, now with an integrated grille, and detail alterations including colour coding of the chromed waistline, a new bootlid plinth and different alloy wheels and tyres sizes. The interior featured revised seats and dashboard treatment with new instrument faces. Engineering changes ranged from uprated suspension and brakes to revised engine tuning for the petrol and diesel models. Development of the MG ZT was headed by Rob Oldaker, Product Development Director, with styling changes undertaken by Peter Stevens, who was previously responsible for the styling of the McLaren F1 and X180 version of the Lotus Esprit. At launch, the most potent ZT was the 190bhp petrol powered model, but in  2003, the 260 version of the car was launched, which utilised a 4.6 litre V8 from the Ford Mustang range. The model was converted from front-wheel drive to rear-wheel drive and was largely engineered by motorsport and engineering company Prodrive before being completed by MG. Apart from the badges, the only visual difference externally between the 260 and other ZTs are the quad exhausts. The 4.6 version is regarded as a true Q-car. and it has its own every enthusiastic and active Owners Club.

MINI

In 1969, now under the ownership of British Leyland, the Mini was given a facelift by stylist Roy Haynes, who had previously worked for Ford. The restyled version was called the Mini Clubman, and had a squarer frontal look, using the same indicator/sidelight assembly as the Austin Maxi. The Mini Clubman was intended to replace the upmarket Riley and Wolseley versions, and a new model, dubbed the 1275 GT, was slated as the replacement for the 998 cc Mini Cooper, the 1,275 cc Mini Cooper S continuing alongside the 1275 GT until 1971. The Clubman Estate replaced the Countryman and Traveller. The original “round-front” design remained in production alongside the Clubman and 1275 GT. Production of the Clubman and 1275 GT got off to a slow start because the cars incorporated “lots of production changes” including the relocation of tooling from Cowley to the Longbridge plant: so very few cars were handed over to customers before the early months of 1970. Early domestic market Clubmans were still delivered on cross-ply tyres despite the fact that by 1970 radials had become the norm for the car’s mainstream competitors. By 1973 new Minis were, by default, being shipped with radial tyres, though cross-plies could be specified by special order, giving British buyers a price saving of £8. The most significant update after this came in 1976, when the engine was upgraded to the 110cc A Series unit, cloth seat trim was made standard and the wiper functions were moved to a column stalk. The stick on “wood” trim was replaced by painted coachlines at this time. The Clubman models were deleted in 1980, effectively replaced by the Metro, and they are relatively rare these days. The 1275 GT is often incorrectly described as the “Mini Clubman 1275 GT”. The official name was always just the “Mini 1275 GT”, and it was a separate, distinct model from the Clubman (although it shared the same frontal treatment as the Mini Clubman, and was launched at the same time). It had the 1275cc A Series unit and a 4 speed gearbox, as well as larger wheels. It was also deleted in the autumn of 1980. Although moderately popular when new, it is now seen as something of a poor substitute for the Cooper models, and the survival rate is pretty low, so you don’t see them that often.

Although not wearing the correct grille, this being a much earlier style, this remains an elegant looking Mini. These were built in 1989 to mark the 30th anniversary of the model. Based on the Mini Mayfair, it had the standard 998 cc and was mechanically identical to the normal production cars. It could be distinguished by its chrome bumpers and grille, coachlines and 1959-1989 crests, whilst inside there was half leather/lightning cloth upholstery with red piping. Additional equipment included  Minilite-style wheels, a security coded stereo and a leather-bound copy of Rob Golding’s book (“Mini”). Of the 3,000 produced for the UK, 2,000 were in Cherry Red and 1,000 were Black; 2,800 were manual and 200 had an automatic gearbox. 600 were made with an optional sun roof.

Third of the classic Mini models here was a very late example of the standard car. These are rare as most sales in the last few years were of the Cooper version.

MORGAN

PEUGEOT

Believed to be the only example in the country, this is the Peugeot Hoggar, described as a “coupé utility”, and a variant of Peugeot’s front-engined, front wheel drive Peugeot 206+ that was made for the Brazilian and South American market. It was produced by Usine PSA of Porto Real, Brazil from 2010 to 2014. There were two engine options, both of which would run on petrol of ethanol and 82 bhp 8V 1.4 and a 113 bhp 16V 1.6. Approxmately 13,000 were made.

PORSCHE

The 911 continued to evolve throughout the 1960s and early 1970s, though changes initially were quite small. The SC appeared in the autumn of 1977, proving that any earlier plans there had been to replace the car with the front engined 924 and 928 had been shelved. The SC followed on from the Carrera 3.0 of 1967 and 1977. It had the same 3 litre engine, with a lower compression ratio and detuned to provide 180 PS . The “SC” designation was reintroduced by Porsche for the first time since the 356 SC. No Carrera versions were produced though the 930 Turbo remained at the top of the range. Porsche’s engineers felt that the weight of the extra luxury, safety and emissions equipment on these cars was blunting performance compared to the earlier, lighter cars with the same power output, so in non-US cars, power was increased to 188 PS for 1980, then finally to 204 PS. However, cars sold in the US market retained their lower-compression 180 PS engines throughout. This enabled them to be run on lower-octane fuel. In model year 1980, Porsche offered a Weissach special edition version of the 911 SC, named after the town in Germany where Porsche has their research centre. Designated M439, it was offered in two colours with the turbo whale tail & front chin spoiler, body colour-matched Fuchs alloy wheels and other convenience features as standard. 408 cars were built for North America. In 1982, a Ferry Porsche Edition was made and a total of 200 cars were sold with this cosmetic package. SCs sold in the UK could be specified with the Sport Group Package (UK) which added stiffer suspension, the rear spoiler, front rubber lip and black Fuchs wheels. In 1981 a Cabriolet concept car was shown at the Frankfurt Motor Show. Not only was the car a true convertible, but it also featured four-wheel drive, although this was dropped in the production version. The first 911 Cabriolet debuted in late 1982, as a 1983 model. This was Porsche’s first cabriolet since the 356 of the mid-1960s. It proved very popular with 4,214 sold in its introductory year, despite its premium price relative to the open-top targa. Cabriolet versions of the 911 have been offered ever since. 911 SC sales totalled 58,914 cars before the next iteration, the 3.2 Carrera, which was introduced for the 1984 model year. Coupe models outsold the Targa topped cars by a big margin.

The only other Porsche here was a 944. Whilst its precursor, the 924, had received largely positive reviews, it was criticised by many including Porsche enthusiasts for its Audi-sourced engine and although the Turbo model had increased performance, this model carried a high price, which caused Porsche to decide to develop the 924, as they had with generations of the 911. They re-worked the platform and a new all-alloy 2.5 litre inline-four engine, that was, in essence, half of the 928’s 5.0 litre V8, although very few parts were actually interchangeable. Not typical in luxury sports cars, the four-cylinder engine was chosen for fuel efficiency and size, because it had to be fitted from below on the Neckarsulm production line. To overcome roughness caused by the unbalanced secondary forces that are typical of four-cylinder engines, Porsche included two counter-rotating balance shafts running at twice engine speed. Invented in 1904 by British engineer Frederick Lanchester, and further developed and patented in 1975 by Mitsubishi Motors, balance shafts carry eccentric weights which produce inertial forces that balance out the unbalanced secondary forces, making a four-cylinder engine feel as smooth as a six-cylinder. The engine was factory-rated at 150 hp in its U.S. configuration. Revised bodywork with wider wheel arches, similar to that of the 924 Carrera GT, a fresh interior and upgrades to the braking and suspension systems rounded out the major changes and Porsche introduced the car as the  944 in 1982. It was slightly faster (despite having a poorer drag co-efficient than the 924), the 944 was better equipped and more refined than the 924; it had better handling and stopping power, and was more comfortable to drive. The factory-claimed 0-60 mph time of less than 9 seconds and a top speed of  130 mph which turned out to be somewhat pessimistic,  In mid-1985, the 944 underwent its first significant changes. These included : a new dash and door panels, embedded radio antenna, upgraded alternator, increased oil sump capacity, new front and rear cast alloy control arms and semi-trailing arms, larger fuel tank, optional heated and powered seats, Porsche HiFi sound system, and revisions in the mounting of the transaxle to reduce noise and vibration. The “cookie cutter” style wheels used in the early 944s were upgraded to new “phone dial” style wheels (Fuchs wheels remained an option). 1985 model year cars incorporating these changes are sometimes referred to as “1985B”, “85.5” or “1985½” cars. For the 1987 model year, the 944 Motronic DME was updated, and newly incorporated anti-lock braking and air bags. Because of the ABS system, the wheel offset changed and Fuchs wheels were no longer an option. In early 1989 before the release of the 944S2, Porsche upgraded the 944 from the 2.5 to a 2.7 litre engine, with a rated 162 hp and a significant increase in torque. For the 1985 model year, Porsche introduced the 944 Turbo, known internally as the 951. This had a turbocharged and intercooled version of the standard car’s engine that produced 220 PS at 6000 rpm. In 1987, Car and Driver tested the 944 Turbo and achieved a 0-60 mph time of 5.9 seconds. The Turbo was the first car using a ceramic port liner to retain exhaust gas temperature and new forged pistons and was also the first vehicle to produce identical power output with or without a catalytic converter. The Turbo also featured several other changes, such as improved aerodynamics, notably an integrated front bumper. This featured the widest turn signals (indicators) fitted to any production car, a strengthened gearbox with a different final drive ratio, standard external oil coolers for both the engine and transmission, standard 16 inch wheels (optional forged Fuchs wheels), and a slightly stiffer suspension (progressive springs) to handle the extra weight. The Turbo’s front and rear brakes were borrowed from the Porsche 911, with Brembo 4-piston fixed calipers and 12-inch discs as ABS also came standard. Engine component revisions, more than thirty in all, were made to the 951 to compensate for increased internal loads and heat. Changes occurred for the 1987 model year. On the interior, the 1987 944 Turbo for North America became the first production car in the world to be equipped with driver and passenger side air bags as standard equipment. A low oil level light was added to the dash as well as a 180 mph (290 km/h) speedometer as opposed to the 170 mph speedometer on the 1986 model Turbos. Also included is the deletion of the transmission oil cooler, and a change in suspension control arms to reduce the car’s scrub radius. The engine remained the same M44/51 as in the 1986 model. In 1988, Porsche introduced the Turbo S. The 944 Turbo S had a more powerful engine (designation number M44/52) with 250 hp and 258 lb·ft torque (standard 944 Turbo 220 hp and 243 lb·ft. This higher output was achieved by using a larger K26-8 turbine housing and revised engine mapping which allowed maintaining maximum boost until 5800 rpm, compared to the standard 944 Turbo the boost would decrease from 1.75 bar at 3000 rpm to 1.52 bar at 5800 rpm. Top speed was factory rated at 162 mph. The 944 Turbo S’s suspension had the “M030” option consisting of Koni adjustable shocks front and rear, with ride height adjusting threaded collars on the front struts, progressive rate springs, larger hollow rear anti-roll/torsion bars, harder durometer suspension bushings, larger hollow anti-roll/torsion bars at the front, and chassis stiffening brackets in the front frame rails. The air conditioning dryer lines are routed so as to clear the front frame brace on the driver’s side. The 944 Turbo S wheels, known as the Club Sport design, were 16-inch Fuchs forged and flat-dished, similar to the Design 90 wheel. Wheel widths were 7 inches in the front, and 9 inches in the rear with 2.047 in offset; sizes of the Z-rated tyres were 225/50 in the front and 245/45 in the rear. The front and rear fender edges were rolled to accommodate the larger wheels. The manual transmission featured a higher friction clutch disc setup, an external cooler, and a limited slip differential with a 40% lockup setting. The Turbo S front brakes were borrowed from the Porsche 928 S4, with larger Brembo GT 4-piston fixed calipers and 12-inch discs; rear Brembo brakes remained the same as a standard Turbo. ABS also came standard. The 944 Turbo S interior featured power seats for both driver and passenger, where the majority of the factory-built Turbo S models sported a “Burgundy plaid” (Silver Rose edition) but other interior/exterior colours were available. A 10-speaker sound system and equalizer + amp was a common option with the Turbo S and S/SE prototypes. Only the earlier 1986, 250 bhp prototypes featured a “special wishes custom interior” options package. In 1989 and later production, the ‘S’ designation was dropped from the 944 Turbo S, and all 944 Turbos featured the Turbo S enhancements as standard, however the “M030” suspension and the Club Sport wheels were not part of that standard. The 944 Turbo S was the fastest production four cylinder car of its time. For the 1987 model year, the 944S “Super” was introduced, featuring a high performance normally aspirated, dual-overhead-cam 16-valve 190 PS version of the 2.5 litre engine (M44/40) featuring a self-adjusting timing belt tensioner. This marked the first use of four-valve-per-cylinder heads and DOHC in the 944 series, derived from the 928 S4 featuring a redesigned camshaft drive, a magnesium intake tract/passages, magnesium valve cover, larger capacity oil sump, and revised exhaust system. The alternator capacity was 115 amps. The wheel bearings were also strengthened and the brake servo action was made more powerful. Floating 944 calipers were standard, but the rear wheel brake circuit pressure regulator from the 944 turbo was used. Small ’16 Ventiler’ script badges were added on the sides in front of the body protection mouldings. Performance was quoted as 0 – 100 km/h in 6.5 seconds and a 144 mph top speed due to a 2857 lb weight. It also featured an improved programmed Bosch Digital Motronic 2 Computer/DME with dual knock sensors for improved fuel performance for the higher 10.9:1 compression ratio cylinder head. Like the 944 Turbo, the 944S received progressive springs for greater handling, Larger front and rear anti-roll bars, revised transmission and gearing to better suit the 2.5 litre DOHC higher 6800 rpm rev limit. Dual safety air bags, limited-slip differential, and ABS braking system were optional on the 944S. A Club Sport touring package (M637) was available as was the lightweight 16 inch CS/Sport Fuch 16×7 and 16×9 forged alloy wheels. This SC version car was raced in Canada, Europe and in the U.S. IMSA Firehawk Cup Series. Production was only during 1987 and 1988. It was superseded in 1989 by the ‘S2’ 944 edition. The 1987 944S power-to-weight ratio was such that it was able to accelerate from 0 to 62 mph in 6.5 seconds thus matching the acceleration of its newer larger displacement 3.0 litre 944 S2 sibling. In 1989 the 944S2 was introduced, powered by a 211 PS normally aspirated, dual-overhead-cam 16-valve 3.0 litre version of the 944S engine, the largest production 4-cylinder engine of its time. The 944S2 also received a revised transmission and gearing to better suit the 3.0 litre M44/41 powerplant. The 944S2 had the same rounded nose and a rear valance found on the Turbo model. This was the first example of the use of an integrated front bumper, where the fender and hood profiles would merge smoothly with the bumper, a design feature that has only now seen widespread adoption on the 1990 onward production cars. Performance was quoted as 0-60 mph in 6.0 seconds with a top speed of 240 km/h (150 mph) via manual transmission. A Club Sport touring package (M637) was also available. Dual air bags (left hand drive models), limited-slip differential and ABS were optional. Series 90 16-inch cast alloy wheels were standard equipment. In 1989, Porsche released the 944 S2 Cabriolet, a first for the 944 line that featured the cabriolet body built by ASC-American Sunroof Company at Weinsberg Germany. The first year of production included sixteen 944 S2 Cabriolet for the U.S. market. For the 1990 model year, Porsche produced 3,938 944 S2 Cabriolets for all markets including right-hand drive units for the United Kingdom, Australia and South Africa. This car was raced, including the British championship that was called the Porsche Motorsport Championship. Production was during 1989, 1990, and 1991. The 944 S2 power-to-weight ratio was such that it was able to accelerate from 0 to 60 mph in 6.5 seconds. In February 1991, Porsche released the 944 Turbo Cabriolet, which combined the Turbo S’s 250 hp engine with the cabriolet body built by ASC-American Sunroof Company at Weinsberg Germany. Porsche initially announced that 600 would be made; ultimately 625 were built, 100 of which were right-hand drive for the United Kingdom, Japanese, Australian, and South African market. None were imported to the U.S. and The Americas. In early 1990, Porsche engineers began working on what they had intended to be the third evolution of the 944, the S3. As they progressed with the development process, they realised that so many parts were being changed that they had produced an almost entirely new vehicle. Porsche consequently shifted development from the 944 S/S2 to the car that would replace the 944 entirely, the 968. The 944’s final year of production was 1991. A grand total 163,192 cars in the 944 family were produced between 1982 and 1991. This made it the most successful car line in Porsche’s history until the introductions of the Boxster and 997 Carrera.

ROVER

The first new car that Rover announced after the war was the P4 model, known as the 75. It was launched at the Earls Court Motor Show in September 1949, to replace all previous models and then continued in production until 1964, though the car underwent lots of change under the skin in those 15 years. Designed by Gordon Bashford, the car went into production in 1949 as the 6-cylinder 2.1-litre Rover 75.  It featured unusual modern styling in stark contrast with the outdated Rover P3 model 75 which it replaced. Gone were the traditional radiator, separate headlamps and external running boards. In their place were a chromium grille, recessed headlamps and a streamlined body the whole width of the chassis. The car’s styling was derived from the then controversial 1947 Studebakers. The Rover executives purchased two such vehicles and fitted the body from one of them to a prototype P4 chassis to create a development mule. In James Taylor’s highly regarded book ‘Rover P4 – The Complete Story’ he advised that this vehicle was affectionately known as the ‘Roverbaker’ hybrid. Another, at the time minor, distinctive feature but this one did not catch-on was the centrally mounted light in the grille where most other manufacturers of good quality cars provided a pair, one fog and one driving light often separately mounted behind the bumper. Known, unkindly, as the “Cyclops eye” it was discontinued in the new grille announced 23 October 1952. The earliest cars used a more powerful version of the Rover engine from the 1948 Rover P3 75, a 2103 cc straight-6 engine now with chromium plated cylinder bores, an aluminium cylinder head with built-in induction manifold and a pair of horizontal instead of downdraught carburetters. A four-speed manual transmission was used with a column-mounted gear lever which was replaced by a floor-mounted mechanism in September 1953.  At first the gearbox only had synchromesh on third and top but it was added to second gear as well in 1953. A freewheel clutch, a traditional Rover feature, was fitted to cars without overdrive until mid-1959, when it was removed from the specifications, shortly before the London Motor Show in October that year. The cars had a separate chassis with independent suspension by coil springs at the front and a live axle with half-elliptical leaf springs at the rear. The brakes on early cars were operated by a hybrid hydro-mechanical system but became fully hydraulic in 1950. Girling disc brakes replaced drums at the front from October 1959. The complete body shells were made by the Pressed Steel company and featured aluminium/magnesium alloy (Birmabright) doors, boot lid and bonnets until the final 95/110 models, which were all steel to reduce costs. The P4 series was one of the last UK cars to incorporate rear-hinged “suicide” doors. After four years of the one model policy Rover returned to a range of the one car but three different sized engines when in September 1953 they announced a four-cylinder Rover 60 and a 2.6-litre Rover 90. A year later, an enlarged 2230cc engine was installed in the 75, and an updated body was shown with a larger boot and a bigger rear window and the end of the flapping trafficators, with redesigned light clusters. Further detailed changes would follow. Announced 16 October 1956, the 105R and 105S used a high-output, 8.5:1 compression version of the 2.6 litres engine used in the 90. The higher compression was to take advantage of the higher octane fuel that had become widely available. This twin-SU carburettor engine produced 108 hp. Both 105 models also featured the exterior changes of the rest of the range announced a month earlier. The 105S featured separate front seats, a cigar lighter, chromed wheel trim rings and twin Lucas SFT 576 spotlamps. To minimise the cost of the 105R, these additional items were not standard, however they were provided on the (higher priced) 105R De Luxe. The 105R featured a “Roverdrive” automatic transmission. This unit was designed and built by Rover and at the time was the only British-built automatic transmission. Others had bought in units from American manufacturers such as Borg-Warner. This unit was actually a two-speed automatic (Emergency Low which can be selected manually and Drive) with an overdrive unit for a total of three forward gears. The 105S made do with a manual transmission and Laycock de Normanville overdrive incorporating a kick-down control. The 105S could reach a top speed of 101 mph. Production of the 105 line ended in 1958 for the 105R and 1959 for the manual transmission 105S, 10,781 had been produced, two-thirds with the manual transmission option. For 1959 the manual model was described simply as a 105 and the trim and accessory level was reduced to match the other models. In 1959, the engines were upgraded again, with the 80 replacing the 60 and the 100 replacing the 90 and the 105. The four cylinder cars were not particularly popular, though and in September they were replaced by the six cylinder 95. Final model was the 110, which took its place at the top of the range until production ceased, a few months after the very different P6 model 2000 had come along. These cars are popular classics these days.

Although the Rover 800 had sold well, by the mid 90s, it was in need of replacement. The relationship with Honda, which had helped to create it, as well as the slightly smaller and cheaper Honda 600 was over, as new owners BMW had their own ideas of what to do with the marque that it is alleged that they sometimes referred rather unkindly to as “The English Patient”. Three new designs were produced under the guidance of Richard Woolley; a large saloon codenamed Flagship, a smaller vehicle (with the codename of Eric), and the 75. Of these only the 75 concept progressed. The initial aim had been to re-skin the Rover 600, but following the BMW takeover it was quickly decided that this platform would not be re-used but replaced by an entirely new model. Work on the new model, codenamed R40, progressed well with little operational interference from BMW; the styling received an enthusiastic response from the management and both companies believed the classical look would be the ideal direction for Rover. Revolutionary new design processes were adopted, including the 3D virtual reality assembly simulation “ebuild” techniques, ensuring the car would achieve class leading build quality when series production started. Under the lauded styling were to be a range of petrol and diesel engines from 1.8- to 2.5-litre sizes. Petrol engines would use the much praised Rover 4-cylinder K series in 1.8-litre guise and the quad cam KV6, offered in either short-stroke 2.0 or revised 2.5-litre formats. The 2.0-litre was later dropped on introduction of the 1.8-litre turbo for emissions purposes. Transmissions on all models would be either the Getrag 283 5-speed manual, supplied from the company’s new facility in Bari, Italy, or the JATCO 5-speed automatic unit—one of the first transverse engine deployments made with this feature. Braking would be in the form of all-round discs, complemented with a Bosch 5.7 4-channel ABS system and electronic brake force distribution. The parking brake was a cable operated drum integral within the rear discs. Suspension was to be a MacPherson strut arrangement at the front, anchored by lower alloy L-arms. The wide spacing of the mounting points, compliant bushings and a perimeter subframe gave the model a cushioned yet precise ride with relaxed handling that could be tuned for different markets or model derivatives such as the later MG ZT. The rear suspension, after a period of uncertainty during development, was eventually a version of BMW’s Z-Axle arrangement first featured on the 1988 Z1 sports car. At the time of the launch, there had been speculation within the media that the Rover 75 used the BMW 5-Series platform, perhaps due to the overall size of the model, the apparent presence of a transmission tunnel and the use of the parent company’s rear suspension system, but this was in fact not the case: Rover engineers had used the concept of incorporating a central tunnel which had been explored by BMW as part of their own research into front-wheel-drive chassis design. As the 75 took shape, this core engineering was passed over to Rover and evolved into the Rover 75 structure. The tunnel concept, along with the rear suspension system, was also used by the Rover engineers for the design of the Mini. The Rover 75 was premiered at the 1998 British Motor Show, and it attracted praise for its styling and design integrity. Although some labelled its styling as too “retro”, suggesting it had been designed with an older buyer in mind, and was not sporting enough when compared to the competition, it received far more praise than the Jaguar S Type which debuted at the same time. The 75 went on to win a series of international awards including various “most beautiful car” awards, including one in Italy. Assembly originally took place at Cowley but in 2000, following the sale of the company by BMW to Phoenix Venture Holdings, production was moved to Longbridge. 2001 saw the introduction of the Rover 75 Tourer (developed alongside the saloon but never authorised for production by BMW), swiftly followed by the MG ZT and MG ZT-T, more sporting interpretations of the model, differentiated by modified, sporting chassis settings and colour and trim derivatives. Between 2000 and 2003, there were few changes to the range: the most significant was the replacement of the 2-litre V6 engine by a low-pressure-turbocharged version of the 1.8-litre 4-cylinder engine, which benefited British company car drivers, taxed on carbon dioxide emissions. A customisation programme, Monogram, was launched, allowing buyers to order their car in a wider range of exterior paint colours and finishes, different interior trims and with optional extras installed during production In early 2004 Rover facelifted the design of the 75 to look less retro and more European. Changes were restricted to bolt-on components and some technical upgrades. At the front was a new, more angular bumper fitted with a mesh lower grille, bigger door mirrors, one-piece headlights with halogen projectors fitted as standard, revamped front and side indicators and fog lights as well as a larger yet sleeker chrome grille on top. The rear also featured a more modern bumper with a new chrome boot handle. The middle-specification Club trim was dropped, and on Connoisseur trim light oak wood took the place of the original walnut, which remained standard fitment on the entry-level Classic trim. Rover also added a new trim to the range called Contemporary which featured revised fittings such as larger alloy wheels, body colour exterior accents, black oak wood trim and sports seats as well as an altered equipment tally. The instrumentation and its back-lighting were modernised, the console texture finish was upgraded and the seat bolsters revised to offer more support. Access to the rear seats was improved and leg-room increased. Production of this range continued until the collapse of MG-Rover in April 2005. The 75 developed an almost fanatical following among many of its owners, and although even the newest model is now over 10 years old, many have hung onto their cars. They were well built, and have proved reliable and long-lasting, so there are still plenty around.

The second generation 400 Series, codenamed Theta or HH-R, was launched in the summer of 1995 as a hatchback and later a saloon. This time it was based on the Honda Domani, which had been released in Japan in 1992, and was sold as part of the European Honda Civic range in five-door hatchback form. There were more styling differences than had been the case with the R8 cars, and once again, general consensus was that Rover had done a better job that their Japanese partner.  Power came from the well rated 1.4 and 1.6-litre K-Series, with the 1.6-litre Honda D series SOHC used with the automatic gearbox, and the 2.0 litre Rover T Series petrol engines, as well as a 2.0-litre L-Series turbodiesels from the more luxurious 600 Series were a;sp available. Some months after launching the hatchback, Rover added a three box saloon to the range, a style which would not be duplicated by Honda.. Although not a bad car, the problem was that it sat awkwardly between two different sectors of the market, with pricing reflecting its upmarket ambitions, but passenger space suggesting it was really a Golf/Astra/Escort rival. It never quite captured the imagination and sales success of the R8 predecessor. In the autumn of 1999, the 400 Series was facelifted (under the codename Oyster) and renamed as the Rover 45, as a parallel update to the one applied to the smaller 200 which morphed into the 25. The 1.4, 1.6 and 1.8-litre petrol and 2.0-litre diesel engines were carried over from the 400 Series, but the 2.0 four-cylinder petrol unit was replaced by a 2.0-litre V6 from the larger Rover 75 – although this power unit was only available on saloon versions. The 45 came equipped with the better seating of the 75 and whilst the 400 models handled very well, the suspension was tuned to give much better controlled ride characteristics with quicker steering. The 45 was available with Continuously Variable Transmission (CVT) supplied by the German manufacturer ZF Sachs AG which had previously been used in the MGF. This particular design of CVT consisted of an oil-cooled laminated steel belt (with external oil cooler) running on variable pulleys. MG Rover had many CVT failures returned to the supplier. Rover’s own manual gearbox factory had been retained by BMW during the sale which created MG Rover. After buying its own gearbox designs from BMW for a time MG Rover eventually sourced an alternative supplier and later Rover 25/45 models up to 1.6-litre were fitted with Ford gearboxes. The revised model boasted improved equipment levels, comfortable interior and reduced prices, compared with the preceding 400 badged models. While the asking price was now in line with other small family cars, the Rover 45 began to lose market share. Being based on the 1992 Honda Domani, the 45 was by now an outdated car compared with contemporary offerings from other marques. A facelift in the spring of 2004 was MG Rover’s last effort to boost sales of the Rover 45, including a new front and rear end, a re-designed dash, revised suspension settings, improved equipment and lower prices, some of these changes were necessitated by the end of Domani production in Japan, as Honda refused to continue the supply of certain parts. Production of the car stopped in April 2005 due to MG Rover’s bankruptcy. Honda swiftly terminated the licensing agreement with MG Rover and removed the remaining tooling and assembly lines for the car from Longbridge prior to its sale to Nanjing Automotive.

SAAB

Compared with its predecessor, the Saab 93, the 96 featured greater and more easily accessible storage space and larger rear window. The front end was lengthened for 1965 models, in preparation for a new engine, and the radiator was placed ahead of the engine, rather than above and behind, a leftover from the thermosiphon cooling days. Both front and rear windows were enlarged slightly for 1968 models. The Saab 96 had a longitudinally mounted engine layout. As first designed, it had an 841 cc displacement, 38 PS three-cylinder Saab two-stroke engine. By 1965 this was increased to 40 PS. An optional 52 PS version of the engine, with triple carburettors and oil injection, was used in the Sport and Monte Carlo models. The additional power was obtained from a modified cylinder head and filled crankshaft counterweights offering higher overall compression ratio. For 1966 models, the standard 96 841 cc engine, using pre-mix oil, appeared with a three throat Solex carburettor in which the centre carburettor handled start, idle, and low speed functions, increasing the power to 42 PS. The same carburettor had been used in the Monte Carlo and Sport models. A common throttle shaft minimized carburettor synchronization problems. The model continued to evolve, with frequent changes made to the styling details and trim. Mechanically the most significant alteration came in 1967 when the traditional two stroke in-house engine was replaced by Ford’s V4 unit that was also used in German Ford Taunus cars, a four-stroke 1498 cc V4 unit, originally developed for the 1962 Ford Taunus 15M. Saab’s project to source a four-stroke engine was dubbed ‘Operation Kajsa’. The two-stroke option was offered until 1968. Four-stroke engines had been tested before, between 1962 and 1964 Kjell Knutsson and Ingvar Andersson under Rolf Mellde tested three different engines: a 45 hp Lloyd Arabella 897cc; a 33 hp BMC A-Series 848cc engine and a Lancia Appia engine of 1089cc and 48 hp. However Rolf Mellde’s view that Saab needed to switch to a four-stroke engine was stopped higher up by CEO Tryggve Holm. Mellde then went behind the back of Holm and made contact with Marc Wallenberg, son of Marcus Wallenberg, Saab’s major stockholder. The coup succeeded and testing could begin. The tested engines were Volvo B18, Ford V4, Triumph 1300, Lancia V4 engine, Opel, Volkswagen and Hillman Imp. Whilst the Volvo unit proved the most reliable, the Ford V4 was not far behind and was significantly easier to fit into the engine bay of the 96. The testing was done in secrecy. Rolf Mellde took a leave of absence and said he was going to run his father’s paint shop. In reality he went to Desenzano in northern Italy with a 96V4 prototype for testing. With five months to go before production only seven people knew about the new engine. To maintain secrecy they rented a house west of Kristinehamn. To keep purchases of V4 specific parts secret they started the company Maskinverktyg AB. The ordinary purchase department at Saab was oblivious to what was going on, something that caused an incident when Rune Ahlberg cancelled the orders for cables for the two-stroke engine and the purchase department called the supplier and sharply told them to keep their deliveries. In the last week of July, just before the summer holidays, information about the new engine was released to further people and they were informed that full-scale production would start in four weeks. To keep secrecy, 40 of the ordinary staff were told to report to work to fix a problem with the disc brakes. Just prior to the official introduction, a journalist noticed a lorry loaded with 96s with V4 stickers on the front bumpers. The ordinary V4 engines produced between 1967 and 1976 had 65 hp. For the 1976 model, known as the 96L, power was reduced to 62 hp due to new Swedish emission regulations. However, the 1977-1980 models had 68 hp due to a two-stage Solex 32TDID carburettor. The V4 96 managed 0–100 km/h in 16 seconds. The car was tough, and although by the 1970s it was old fashioned in many respects, but it had plenty of fans, who only started to desert the model as the decade ran its course.

The Saab 900 is a front-engine, front-wheel-drive mid-size car with a longitudinally mounted, 45-degree slanted, inline four-cylinder engine, double wishbone front suspension and beam-axle rear suspension. It was originally introduced on 12 May 1978, for the 1979 model year. Sales commenced in the fall of 1978. Like its predecessor the 99, the 900 contained a number of unusual design features that distinguish it from most other cars. First, the B-engine, that was installed “backwards”, with power delivered from the crank at the front of the car. Second, the transmission, technically a transaxle, bolted directly to the bottom of the engine to form the oil pan (albeit with separate oil lubrication). Thus, power from the crank would be delivered out of the engine at the front, then transferred down and back to the transmission below, via a set of chain-driven primary gears. In similar fashion, Mini’s also had their gearbox mounted directly below the engine; however, the Mini gearbox and engine shared the same oil, whereas the Saab 900 (and 99) gearboxes contained a separate sump for engine oil. Refined over several decades of two-digit Saab models, the 900’s double wishbone suspension design provided excellent handling and road feel. The rear suspension comprised a typical beam axle design, stabilized with a Panhard rod. However, the attachment points between the axle and chassis made up an unusual configuration that, in essence, consists of two Watt’s linkages at either end of the axle: A lower control arm attaches the axle to the bottom of the vehicle, while an upper link attaches at the top but faces towards the rear, unlike a typical four-link design with both lower and upper links facing forward. Early models did not have sway bars; they began appearing on certain models in 1985, and, in U.S. and possibly other markets, became standard on all trim levels by the late 1980s. The sway bars decreased body roll, but at the expense of some ride comfort and when driven aggressively, increased inside wheel spin. The front and rear bars’ diameters were unchanged throughout the model’s run.The 900 has a deeply curved windshield, providing the best driver visibility. The dashboard was curved to enable easy reach of all controls, and featured gauges lit up from the front.[citation needed] Saab engineers placed all controls and gauges in the dashboard according to their frequency of use and/or importance so that the driver need only divert their gaze from the road for the shortest possible time and by the smallest angle. This is why, for example, the oft-used radio is placed so high in the dashboard. In keeping with the paradigm of its predecessor, the 99 model, the 900 employed a door design unique in automotive manufacturing, with an undercutting sweep to meet the undercarriage, forming a tight, solid unit when the door was closed. This feature also eliminated the stoop in the cabin at the footing of the door, as seen in automobiles of other manufacturers, thereby preventing water and debris from collecting and possibly entering the cabin or initiating corrosion, as well as enabling passengers to enter and exit the cabin without need to step over several inches of ledge. The 900 underwent minor cosmetic design changes for 1987, including restyled front end and bumpers that went from a vertical to a more sloped design. To save money, Saab kept the basic undercarriage more or less unchanged throughout the 900’s production run. The Saab 900 could be ordered with different options. One highly sought-after option was called the Aero or, as it was known in the U.S. “Special Performance Group” (SPG). The Aero/SPG incorporated (depending on the market and model year) a body skirt; a sport-suspension (1987+) that included shorter, stiffer springs, stiffer shocks, and sway bars; leather seats; premium stereo; and air conditioning. Each of these features could also be ordered independently from Saab’s Accessories Catalog for fitment to standard models. The 1979 900 was available in three versions of the B-engine: The GL had the single-carb 100 PS engine, the GLs had twin carburettors for 108 PS, the EMS and GLE had Bosch jetronic fuel injection for 118 PS and the 900 Turbo produced 145 PS. The only bodywork originally available was the three or five-door hatchback style, which was seen as more modern at the time. The EMS was only available with three doors while the automatic-equipped GLE was only offered with five. Saab’s model years were generally introduced in August/September of the preceding year.The Turbo had a different grille from the naturally aspirated models, which received a design with a hexagonal central element. For the 1980 model year, all versions received the sleeker turbo-style grille. The 1980 900 also received larger taillights rather than the earlier 99 units, as well as lower, adjustable head restraints.1980 was also the first year for a five-speed gearbox, originally only available in the EMS and the Turbo. The four-door 900 sedan was introduced in Geneva 1980, as a result of dealer pressure. This introduction corresponded with the phase-out of the old Saab B engine in favor of the lighter Saab H engine. With the introduction of the H-engine, Saab simplified the model designation on the international markets outside Scandinavia: GL for the model with the single carburettor, GLs for the models with the twin carburettor engine, GLi as designation for the models with fuel injection without turbo, and correspondingly “Turbo” for the top models with the corresponding engine. The GLE was now offered only as a better equipped four-door Sedan. Model designations in the USA became just 900 for the base model and 900S for the models with 8V i. The EMS designation was dropped. In the early 1980s, most 900s were produced in Trollhättan. However, coinciding with the introduction of the 9000, more of the 900 production took place elsewhere. The Valmet plant in Finland, referenced below under the 900c, also produced regular 900s, a total of 238,898 examples. The plant in Arlöv (now closed), near Malmö, also produced some 900s. For 1981 all models except for the GL three-door received a considerable boost in equipment, as well as broader side trims, larger luggage compartments and fuel tanks. The spare tire was moved to underneath the floor, rather than standing upright in the luggage compartment. A big change for 1982 was the introduction of Saab’s Automatic Performance Control (APC), a.k.a. boost controller for the Turbo models. The APC employed a knock sensor, allowing the engine to use different grades of gasoline without engine damage. Another new feature that year was the introduction of central locking doors (on the GLE and Turbo). The long-wheelbase 900 CD was also introduced. Asbestos-free brakes were introduced in 1983, an industry first. The front pads were semi-metallic while the rears were made from silica. The GLE model gained a new central console, while the decor strips on the bumpers of all models were made wider (necessitating wider trim pieces on the flanks as well). A new luxury package was made available on Turbo cars. 1985 Saab 900 CD, a limited production version with a longer wheelbase and stretched rear doors. Model year 1984 saw the introduction of the 16-valve DOHC B202 engine in Europe. With a turbocharger and intercooler, it could produce 175 hp in the Turbo 16 model (less for catalyst-equipped engines). The Turbo 16 Aero [designated SPG, Special Performance Group in North American Markets] had a body kit allowing the car to reach 210 km/h (130 mph). A different grille and three-spoke steering wheel appeared across all models. The connection between the side strips and the bumpers was changed, Turbo hatchbacks received a black trim piece between the taillights, and the GLi began replacing the twin-carburetted GLs. At the 1983 Frankfurt Motor Show a two-door sedan was shown; it went on sale in January 1984, initially only as a GLi. The two-door sedan was only ever built at the Valmet plant in Finland. The dual-carburettor model (and “GL” nomenclature) was gone for 1985. Now, the base 900 had the single-carburettor engine, while the 900i added fuel injection. Two turbocharged models were offered: The 900 Turbo had the 8-valve engine, while the Turbo 16 (also Aero) had the 16-valve intercooled unit. Wheel trims (naturally aspirated cars) and alloys (turbos) were redesigned, and the Turbos also received chromed grilles. The 8-valve turbo received an intercooler for 1986, bringing up power to 155 PS while the 16-valve cars had hydraulic engine mounts. The eight-valve Turbo was also available as a two-door. Side marker lights at the rear of the front fenders were also added, while the 900i gained new interior fabrics. The new Saab-Scania badge was introduced, placed in the steering wheel, on the bonnet, and on the bootlid. 1986 also marked the introduction of the 16-valve 900i 16 and 900 convertible, both only for North America initially. A new grille, headlamps, front turn signal lights and so-called “integrated” bumpers freshened the 900’s look for 1987, though the sheetmetal was largely unchanged. Several common parts for the 900 and 9000 were introduced for 1988 model year, including brakes and wheel hubs. This also meant that Saab finally abandoned the use of parking brakes which acted on the front wheels. Power steering was added on the 900i. The base 900, available with two or four doors, kept the pre-facelift appearance for 1987. Also new was the carburetted 900c. The Aero model received slightly bigger fender extensions so as to accommodate larger wheels, while the window trim was blacked out on all models. For 1988 catalytic converters became available with all fuel injected engines in Europe, all with cruise control as standard equipment to further help lower emissions. A water- and oil-cooled turbocharger (replacing the older oil-cooled unit) was also introduced to improve the unit’s durability. In each of the seasons 1987 and 1988, there was a special ‘one-make’ race series, in the UK, called the Saab Turbo Mobil Challenge, sponsored by Saab Great Britain and Mobil. It was run by the BARC. The eight-valve engines were phased out in 1989 and 1990, with the turbo versions having been removed in North American markets by the end of 1984; North American 900S models received the non-turbo 16-valve engine for 1986. A non-turbo 16-valve engine replaced the 8-valve FI unit in the 900i (900S in North America) as well, while the carbureted engines were dropped. In Europe the eight-valve Turbo dropped out with the 1989 model year, with the limited production 900 T8 Special built to celebrate this. 805 were built for Sweden, featuring Aero trim and equipment. The 900i 16 arrived in Europe, with 128 PS. Anti-lock brakes were introduced as well, and were standard on Turbo models. High-mounted rear brake lights appeared during 1988, and power of the catalyzed Turbo 16 Aero jumped from 160 to 175 PS. Larger pinion bearings were fitted to manual gearboxes for 1989 to improve their strength and reliability. For 1990 eight-valve engine were taken out of production while a low pressure turbo engine with 145 PS was available in European markets. ABS brakes and driver’s side airbags were standardized for all North American market cars beginning with the 1990 model year. In the spring of 1990 the naturally aspirated 900i 16 Cabriolet was added. A 2119 cc  (B212) engine was introduced for 1991. This engine was available in the United States until the end of the original 900, but in most of Europe, this engine was replaced a year later with the earlier B202 because of tax regulations in many European countries for engines with a displacement of more than 2000 cc. Front seats from the 9000 were standard from 1991 on and electronically adjustable ones were available as an option. Airbags became available as an option in Europe as well, while there was also an Aero version of the Cabriolet. The Saab 900 no longer offered the mesh wheels. There was also a change in the door locks, which carried over to the 900NG. For 1992 there were mostly equipment adjustments, with ABS brakes finding their way into most of the lineup everywhere. 1993 brought no changes, and “classic” 900 production ended on 26 March 1993, with a new GM2900 platform-based 900 entering production shortly afterwards. The final classic convertibles were still sold as 1994 models, with the Special Edition commanding top dollar in the resale market even today. In all, 908,817 Saab 900s were built, including 48,888 convertibles.

SINGER

The first generation Singer Vogue I/II/III/IV models of 1961 to 1966, was a badge engineered version of the Hillman Super Minx. Introduced in July 1961, it was positioned above the Super Minx and Singer Gazelle in the Rootes Group range, and had quadruple headlights as well as a more powerful 66 bhp version of the 1,592 cc Minx engine. The Series II version for 1963 had front disc brakes as standard, changes to the interior, removal of the chrome bonnet strip and a change to amber front indicator lenses. The Series III of 1964 gained six light bodywork and an increase in power to 84 bhp. The final version of this generation, the Series IV was introduced at the 1965 motor show and saw the engine size increased to 1,725 cc although there was no change in power output. The first generation Vogue was offered as a four door saloon and as an estate car.

TOYOTA

First seen in 1991, the Corolla E100 is the seventh generation of cars sold by Toyota under the Corolla nameplate. This generation of Corolla is larger, heavier, and visually more aerodynamic than the model it replaced. With its 2,465 mm (97.0 in) wheelbase, the Corolla had moved into the compact size class once occupied by the Corona and Camry. The Corolla again had an equivalent model Sprinter, with the Sprinter Trueno being equivalent to the Corolla Levin and both exclusive to Toyota Vista Store Japanese dealerships. The development of the seventh-generation Corolla was led by chief engineer Akihiko Saito. Not only was the wheelbase increased, but the new Corolla also received a wider track than did the 90-series. The solid design reflected the desire of development chief Dr. Akihiko Saito to make a ‘mini-Lexus’, to build on the success of Toyota’s flagship range. The sedan and hatchback have drag coefficients of Cd=0.33, the liftback is Cd=0.30, and the wagon/van have Cd=0.36. The model used fewer body panels than the predecessor, for increased strength, lower cost, and fewer panel gaps (providing a cleaner appearance and lower wind resistance). The headlights were now from polycarbonate rather than glass, and almost 90 percent of the bodyshell was made from galvanized steel – compared to about 60 percent in the preceding generation. There was a bewildering array of different bodystyles and models, most of which were for the Japanese market. Among them was the five-door Sprinter which was sold as the Corolla Sprinter in some markets in Europe, and simply the Corolla liftback in others. The three and five-door Corolla hatchback was also sold in Europe, where it took the lion’s share of Corolla sales. It was available mostly in normal (non-sports) specs unlike the three-door-only FX range available in Japan, although some mildly hot models were also marketed. In Europe, the hatchback sold better than the saloon and estate. The typical trim levels are Base, XLi and GLi. A few select, rare models featured the 1.8L 7A-FE engine, including the 1.8 GXi 3-door hatchback in the UK, and the 1.8 XLi 4WD estate in certain markets. The sedan has its rear license plate mounted on the trunklid as opposed to the bumper on other region models. In Germany and some other markets, the 1331 cc 4E engine was referred to as a 1.4 since it displaced over 1300 cc. British sales began a bit later than elsewhere in the world, in August 1992. Originally only the 1.3 and 1.6 petrol engines were on offer, the 2.0 Diesel and the faintly sporting 1.8 GXi (sold as the 1.8 GTi in most of mainland Europe) were added in March 1993. The GXi has a claimed 120 PS, three horsepower more than the engine as installed in the 1.8 4WD and as much again more than the fuel injected 1.6. In August 1995 the lineup was revised; the new models in the UK market were Sportif, GS, CD, Si, and CDX. The GS featured a fully colour-coded exterior and with full electrics and a tilt/slide steel sunroof, as well as an upgraded interior with white dials and a rev counter. In Germany, Europe’s largest national automobile market, the E100 sustained the Corolla’s reputation for reliability and economy. In 1995, it topped the small family car class in a reliability survey of 4-6 year old cars undertaken by the German Automobile Association (ADAC), with 5.3 recorded breakdowns per 1000 cars for four-year-old cars and 10.1 for six-year-old cars: this compared with 12.0 breakdowns per 1,000 cars for four-year-old Volkswagen Golfs and 21.8 for six-year-old Golfs.

TRIUMPH

Successor to the TR3a, and code named “Zest” during development, the TR4 was based on the chassis and drivetrain of the previous TR sports cars, but with a modern Michelotti styled body. The TR 4 engine was carried over from the earlier TR2/3 models, but the displacement was increased from 1991cc to 2138 cc by increasing the bore size. Gradual improvements in the manifolds and cylinder head allowed for some improvements culminating in the TR4A model. The 1991 cc engine became a no-cost option for those cars destined to race in the under-two-litre classes of the day. Some cars were fitted with vane-type superchargers, as the three main bearing engine was liable to crankshaft failure if revved beyond 6,500 rpm; superchargers allowed a TR4 to produce much more horse-power and torque at relatively modest revolutions. The standard engine produced 105 bhp but, supercharged and otherwise performance-tuned, a 2.2-litre I4 version could produce in excess of 200 bhp at the flywheel. The TR4, in common with its predecessors, was fitted with a wet-sleeve engine, so that for competition use the engine’s cubic capacity could be changed by swapping the cylinder liners and pistons, allowing a competitor to race under different capacity rules (i.e. below or above 2 litres for example). Other key improvements over the TR3 included a wider track front and rear, slightly larger standard engine displacement, full synchromesh on all forward gears, and rack and pinion steering. In addition, the optional Laycock de Normanville electrically operated overdrive Laycock Overdrive could now be selected for 2nd and 3rd gear as well as 4th, effectively providing the TR4 with a seven-speed manual close ratio gearbox. The TR4 was originally fitted with 15×4.5″ disc wheels. Optional 48-lace wire wheels could be ordered painted the same colour as the car’s bodywork (rare), stove-enamelled (matte silver with chrome spinners, most common) or in matte or polished chrome finishes (originally rare, but now more commonly fitted). The most typical tyre originally fitted was 590-15 bias ply or optional radial tires. In the US at one point, American Racing alloy (magnesium and aluminium) wheels were offered as an option, in 15×5.5″ or 15×6″ size. Tyres were a problem for original owners who opted for 60-spoke wire wheels, as the correct size radial-ply tyre for the factory rims was 155-15, an odd-sized tyre at the time only available from Michelin at considerable expense. Some original TR4 sales literature says the original radial size was 165-15. The much more common 185-15 radials were too wide to be fitted safely. As a result, many owners had new and wider rims fitted and their wheels re-laced. The new TR4 body style did away with the classical cutaway door design of the previous TRs to allow for wind-down windows (in place of less convenient side-curtains), and the angular rear allowed a boot with considerable capacity for a sports car. Advanced features included the use of adjustable fascia ventilation, and the option of a unique hard top that consisted of a fixed glass rear window (called a backlight) with an integral rollbar and a detachable, steel centre panel (aluminium for the first 500 units). This was the first such roof system on a production car and preceded by 5 years the Porsche 911/912 Targa, which has since become a generic name for this style of top. On the TR4 the rigid roof panel was replaceable with an easily folded and stowed vinyl insert and supporting frame called a Surrey Top. The entire hard top assembly is often mistakenly referred to as a Surrey Top. In original factory parts catalogues the rigid top and backlight assembly is listed as the Hard Top kit. The vinyl insert and frame are offered separately as a Surrey Top. Features such as wind-down windows were seen as a necessary step forward to meet competition and achieve good sales in the important US market, where the vast majority of TR4s were eventually sold. Dealers had concerns that buyers might not fully appreciate the new amenities, therefore a special short run of TR3As (commonly called TR3Bs) was produced in 1961 and ’62. The TR4 proved very successful and continued the rugged, “hairy-chested” image that the previous TRs had enjoyed.  40,253 cars were built during production years. Most were sold new to the US, but plenty have returned, and it is estimated that there are not far short of 900 examples of the model in the UK at present.

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.

There were a couple of saloon-based models here, too. Among them was an example of the Triumph Herald, in the 13/60 saloon format. Towards the end of the 1950s Standard-Triumph offered a range of two-seater Triumph sports cars alongside its Standard saloons, the Standard 8 and 10, powered by a small (803 cc or 948 cc) 4-cylinder engine, which by the late 1950s were due for an update. Standard-Triumph therefore started work on the Herald. The choice of the Herald name suggests that the car was originally intended to be marketed as a Standard, as it fits the model-naming scheme of the time (Ensign, Pennant and Standard itself). But by 1959 it was felt that the Triumph name had more brand equity, and the Standard name was phased out in Britain after 1963. Giovanni Michelotti was commissioned to style the car by the Standard-Triumph board, encouraged by chief engineer Harry Webster, and quickly produced designs for a two-door saloon with a large glass area that gave 93 per cent all-round visibility in the saloon variant and the “razor-edge” looks to which many makers were turning. As Fisher & Ludlow, Standard-Triumph’s body suppliers became part of an uncooperative BMC, it was decided that the car should have a separate chassis rather than adopting the newer monocoque construction. The main body tub was bolted to the chassis and the whole front end hinged forward to allow access to the engine. Every panel – including the sills and roof – could be unbolted from the car so that different body styles could be easily built on the same chassis. As an addition to the original coupé and saloon models, a convertible was introduced in 1960. The Standard Pennant’s 4-cylinder 948 cc OHV engine and 4 speed manual gearbox was used with synchromesh on the top three gears and remote gear shift and driving the rear wheels. Most of the engine parts were previously used in the Standard 8/10. The rack and pinion steering afforded the Herald a tight 25-foot turning circle. Coil and double-wishbone front suspension was fitted, while the rear suspension, a new departure for Triumph, offered “limited” independent springing via a single transverse leaf-spring bolted to the top of the final drive unit and swing axles. Instruments were confined to a single large speedometer with fuel gauge in the saloon (a temperature gauge was available as an option) on a dashboard of grey pressed fibreboard. The coupé dashboard was equipped with speedometer, fuel and temperature gauges, together with a lockable glovebox. The car had loop-pile carpeting and heater as standard. A number of extras were available including twin SU carburettors, leather seats, a wood-veneered dashboard, Telaflo shock absorbers and paint options. In late 1958, prototype cars embarked on a test run from Cape Town to Tangiers. An account of the journey was embellished by PR at the time. However only minor changes were deemed necessary between the prototype and production cars. The new car was launched at the Royal Albert Hall in London on 22 April 1959 but was not an immediate sales success, partly owing to its relatively high cost, approaching £700 (including 45 per cent Purchase Tax). In standard single-carburettor form the 34.5 bhp car was no better than average in terms of performance. A saloon tested by The Motor magazine in 1959 was found to have a top speed of 70.9 mph and could accelerate from 0–60 mph in 31.1 seconds. A fuel consumption of 34.5 mpg was recorded. The rear suspension was criticised as yielding poor handling at the extremes of performance though the model was considered easy to drive with its good vision, light steering (smallest turning circle of any production car) and controls, and ease of repair. A Herald S variant was introduced in 1961 with a lower equipment level and less chromium than the Herald, offered in saloon form only. The 948cc Herald Coupe and Convertible models were discontinued in 1961, the 948cc Herald Saloon in 1962 and the Herald S in 1964. Standard-Triumph experienced financial difficulties at the beginning of the 1960s and was taken over by Leyland Motors Ltd in 1961. This released new resources to develop the Herald and the car was re-launched in April 1961 with an 1147 cc engine as the Herald 1200. The new model featured rubber-covered bumpers, a wooden laminate dashboard and improved seating. Quality control was also tightened up. Twin carburettors were no longer fitted to any of the range as standard although they remained an option, the standard being a single down-draught Solex carburettor. Claimed maximum power of the Herald 1200 was 39 bhp, as against the 34.5 bhp claimed for the 948 cc model. One month after the release of the Herald 1200, a 2-door estate was added to the range. Disc brakes became an option from 1962. Sales picked up despite growing competition from the BMC Mini and the Ford Anglia, with the car proving particularly popular to women drivers. The coupé was dropped from the range in late 1964 as it was by then in direct competition with the Triumph Spitfire. The Triumph Courier van, a Herald estate with side panels in place of rear side windows, was produced from 1962 until 1966, but was dropped following poor sales. Production in England ceased in mid-1964. CKD assembly by MCA in Malta continued till late 1965, at least. The Courier was powered by the 1147 cc engine. An upmarket version, the Herald 12/50, was offered from 1963 to 1967. It featured a tuned engine with a claimed output of 51 bhp in place of the previous 39, along with a sliding (Webasto) vinyl-fabric sunroof and front disc brakes as standard. The 12/50, which was offered only as a 2-door saloon, was fitted with a fine-barred aluminium grille. The power output of the 1200, which remained in production alongside the 12/50, was subsequently boosted to 48 bhp. In October 1967 the range was updated with the introduction at the London Motor Show of the Herald 13/60, which was offered in saloon, convertible and estate-bodied versions. The sun-roof remained available for the saloon as an optional extra rather than a standard feature. The front end was restyled using a bonnet similar to the Triumph Vitesse’s and the interior substantially revised though still featuring the wooden dashboard. Interior space was improved by recessing a rear armrest in each side panel. The engine was enlarged to 1296 cc, essentially the unit employed since 1965 in the Triumph 1300, fitted with a Stromberg CD150 carburettor, offering 61 bhp and much improved performance. In this form (though the 1200 saloon was sold alongside it until the end of 1970) the Herald Saloon lasted until December 1970 and the Convertible and Estate until May 1971, by which time, severely outdated in style if not performance, it had already outlived the introduction of the Triumph 1300 Saloon, the car designed to replace it and was still selling reasonably well but, because of its labour-intensive method of construction, selling at a loss.

The Dolomite really was the 3 Series of its day, a family sized saloon that offered a combination of luxury and sportiness that made it a cut above the average Cortina and Marina. Designed as the successor for the upmarket variants of Triumph’s front-wheel drive designs, and also to replace a sporting relative of the Herald, the 6-cylinder Triumph Vitesse, the Triumph Dolomite was unveiled at the London Motor Show in October 1971. However, due to a number of strikes and other industrial upsets, the car was not reported to be in full production until October 1972. The Dolomite used the longer bodyshell of the front wheel drive Triumph 1500, but with the majority of the running gear carried over from the rear-wheel drive Triumph Toledo. Initially, the only version available used the new slant-four 1854 cc engine, which mated an alloy OHC head to an iron block, providing 91 bhp which offered sprightly performance. This was a version of the engine that the company was already providing to Saab for use in their 99 model. The car was aimed at the then-new compact performance-luxury sector, vying for sales against cars such as the BMW 2002 and Ford Cortina GXL, and was offered with a high level of standard equipment, including twin headlamps, a clock, full instrumentation, luxury seats and carpets, a heated rear window, and a cigar lighter. Styling was similar to the Triumph 1500, with some updates such as a black painted rear panel, vinyl D-posts, and new wheel trims. The car was capable of 100 mph with 60 mph coming up in just over 11 seconds. An overdrive gearbox was soon made available as an option, offering relaxed motorway cruising and improved fuel economy, and there was also an optional automatic transmission.  Although the Dolomite proved to be refined and rapid, competitors such as the BMW 2002 had a performance advantage which was costing Triumph dearly, both in terms of sales and prestige. To remedy this, Triumph unveiled the Dolomite Sprint in June 1973, although the launch had been delayed by a year; it had been due to go on sale in 1972. A team of engineers led by Spen King developed a 16-valve cylinder head with all of the valves being actuated using a single camshaft rather than the more conventional DOHC arrangement. The capacity was also increased to 1,998 cc and combined with bigger carburettors the output was upped to 127 bhp. This represented a significant power increase over the smaller 1850cc variant, however it fell short of the original target of 135 bhp Despite BL engineers being able to extract a reliable 150 bhp from test engines, the production line was unable to build the engines to the same level of quality, with production outputs being in the region of 125 bhp to 130 bhp. This led to the original model designation, the Dolomite 135, being replaced at short notice with the Sprint name. As a result of the use of this engine, the Dolomite Sprint has been claimed to be “the world’s first mass-produced multi-valve car”. While other multi-valve engines (notably the Lotus 907) were produced in volume, they were not used in mass production vehicles until after the introduction of the Dolomite Sprint. The design of the cylinder head won a British Design Council award in 1974. Performance was excellent, with 0–60 mph taking around 8.4 seconds, with a maximum speed of 119 mph. Trim was similar to the 1850, with the addition of standard alloy wheels (another first for a British production car), a vinyl roof, front spoiler, twin exhausts and lowered suspension. By now seats were cloth on the 1850, and these were also fitted to the Sprint. Due to the increase in power brought by the new engine, the rest of the driveline was upgraded to be able to withstand the extra torque. The gearbox and differential were replaced by a version of those fitted to the TR and 2000 series cars, albeit with a close ratio gearset in the gearbox. The brakes were upgraded with new pad materials at the front, and the fitment of larger drums and a load sensing valve at the rear. Other changes over the standard Dolomite included the option of a limited slip differential. The optional overdrive and automatic transmission from the 1850 model were also offered as options on the Sprint. Initial models were only offered in Mimosa Yellow, although further colours were available from 1974 on. At launch the Sprint was priced at £1740, which compared extremely well to similar cars from other manufacturers. Prospective buyers would have been hard pressed to justify the extra £1000 cost of the BMW 2002 Tii, which offered similar performance. The four-door practicality of the Sprint also made it a very attractive proposition for the young executive choosing his first company car. The press gave the Dolomite Sprint an enthusiastic reception. Motor summarised its road test (subtitled “Britain leads the way”) with glowing praise: ”    …the Sprint must be the answer to many people’s prayer. It is well appointed, compact, yet deceptively roomy. Performance is there in plenty, yet economy is good and the model’s manners quite impeccable … Most important of all, it is a tremendously satisfying car to drive”. Sadly, it proved not quite so satisfying to own, as the legendary BL lack of reliability was a feature on some, but by no means all Sprints. In 1976, Triumph rationalised their range, calling all their small models, Dolomite, and using the same body shell, so the Toledo (which had maintained its stubby tail until this point) and 1500TC became the Dolomite 1300, 1500 and 1500HL respectively. With minor changes to trim and equipment, the cars continued in production until 1980.

TVR

Sole TVR model here was a Vixen. First introduced in 1967 as an evolution of the discontinued 1800S, the new Vixen  used the same chassis as the outgoing car, but a significant change was the use of the 1599 cc Ford Kent engine (as found in the Ford Cortina GT), developing 88 bhp, a change necessitated by the problems TVR were having with receiving MG engine deliveries, and also in an effort to lower the price of the car. To use up remaining supplies, the first twelve Vixens built still received the MGB engine. The bodywork was also slightly revised, with the bonnet having a broad flat air intake scoop. The rear of the car with fitted with the round Cortina Mark I tail lamps. 117 of these were built before the S2 model arrived in 1968. This version was built with the longer (90 inch) wheelbase chassis, introduced on the Tuscan V8 but which TVR had now standardised to address complaints about difficulty of ingress. The bonnet was restyled again, with some early cars having a prominent central bulge, and later cars having twin intake ducts at the front corners of the bonnet. The tail lamps were updated from the round Cortina Mark I style to the newer wraparound Mark II style. Also very significant was the fact that the body was bolted (rather than bonded) to the chassis, meaning that it could be easily removed for repairs. The interior was improved, with a leather-skinned steering wheel mounted much lower than before. In a further attempt to improve the quality feel, the body was thicker and panel fit was improved. Sales were strong, with 438 of these made before the arrival of the S3, which continued to improve the car with a number of detail changes. The heat extraction vents on the bonnet were decorated with “Aeroflow” grilles borrowed from the Ford Zodiac Mark IV, and the Ford four-cylinder engine was now in the same tune as in the Ford Capri, producing 92 bhp. Instead of wire wheels, cast alloy wheels were fitted as standard. 165 of these were made before the final iteration, the S4 was launched. This was an interim model that used the TVR M Series chassis with the Vixen body shell. Apart from the chassis, there were no significant mechanical or cosmetic changes between the S3 and S4. Twenty-two were built in 1972 and one in 1973. TVR added a 1300 model to the range in late 1971. This was built in an attempt to fill an “economy” market segment for sports cars. It was powered by a 1296 cc Triumph Spitfire engine making 63 bhp, but its lacklustre performance limited its sales success. Top speed was barely 90 mph. Only fifteen were built, all in 1972. The final six of these cars were built on a M Series chassis, and the very last 1300 was also built with M Series bodywork, although it never received a “1300M” designation. Not to be confused with the later 2500M, the 2500 (marketed as the Vixen 2500 in the United States) was built between 1971 and 1972, and was designed to take advantage of the fact that the Triumph 2.5 litre inline-six engine had already been certified for US emissions standards (although only in 105 bhp form.) The final production run of the 2500 (comprising 96 cars) used the M Series chassis with Vixen-style bodywork. 385 of these cars were made.

VAUXHALL

The HC Viva, one example of which was here, was mechanically the same as the HB but had more modern styling and greater interior space due to redesigned seating and positioning of bulkheads. It offered 2- and 4-door saloons and a fastback estate with the choice of either standard 1,159 cc, 90 tuned 1,159 cc or 1,600 cc overhead cam power. No 2.0 GT version was offered with the new range, although the 2.0 became the sole engine offering for Canada, where the HC became the Firenza, marketed by Pontiac/Buick dealers without the Vauxhall name. The cloned Envoy Epic was dropped as Chevrolet dealers now carried the domestic Chevrolet Vega. The HC was pulled from the Canadian market after two model years amidst consumer anger over corrosion and reliability issues. A class action lawsuit launched against General Motors of Canada by dissatisfied owners was not settled until the early 1980s. The American influence was still obvious on the design, with narrow horizontal rear lamp clusters, flat dashboard with a “letterbox” style speedometer, and a pronounced mid bonnet hump that was echoed in the front bumper. A coupé version called the Firenza was introduced in early 1971 to compete with the Ford Capri and forthcoming Morris Marina Coupé. It was available in deluxe and SL forms, with the latter sporting four headlights and finally resurrecting the missing 2.0 twin-carburettor engine from the HB Viva GT. The basic 1,159 cc engine was enlarged to 1,256 cc in late 1971 and with this the 90 version was removed from the line-up. The overhead cam engines were upgraded in early 1972, the 1.6 becoming a 1.8 and the 2.0 twin carburettor became a 2.3 (2,279 cc). At this time, the Viva 2300 SL and Firenza Sport SL did away with the letter-box speedometer and substituted an attractive seven-dial instrument pack. Firenza SLs had a two round-dial pack, though all other Vivas and Firenzas stuck with the original presentation. In September 1973, the Viva range was divided, the entry 1,256 cc models staying as Vivas, with an optional 1.8 litre engine if automatic transmission was chosen. The 1.8 and 2.3 litre models took on more luxurious trim and were rebadged as the Magnum. At the same time, the Firenza coupe was given a radical makeover with an aerodynamic nose and beefed up 2.3 litre twin carb engine mated to a ZF five-speed gearbox, turning it into the HP (High Performance) Firenza. The Viva was again revised in 1975, with trim levels becoming the E (for Economy), L and SL. The E was Vauxhall’s answer to the Ford Popular and was first offered as a promotional edition two-door coupe using surplus Firenza body shells, before becoming a permanent Viva model in two-door saloon form. It was the only Viva to still have the strip speedometer after this as the L and SL adopted the Firenza SL’s two round dial set up. As of the autumn of 1975 the 1800 engine was also upgraded, increasing power from 77 to 88 hp. For 1977, the SL was replaced by the GLS, essentially marrying the plusher Magnum trim and equipment with the base 1,256 cc pushrod ohv engine. These models all had the full seven dial instrument panel, velour seating and Rostyle wheels, among many other upgrades. Viva production was scaled down after the launch of the Chevette in spring 1975. Originally a three-door hatchback, the Chevette offered two- and four-door saloons and a three-door estate in 1976 that all usurped the Viva’s position as Vauxhall’s small car entry. The Chevette hatch was also sold as the Opel Kadett City, but the Viva remained on sale until the later part of 1979, with 640,863 cars having been made. The Viva was effectively replaced by the new Vauxhall Astra, a variant of the front-wheel-drive Opel Kadett. By that time it was dated in comparison with more modern rivals like the Volkswagen Golf.

Once a common sight on our roads, as a working vehicle, this British Gas liveried Astra Van is based on the third generation Astra that was sold between 1991 and 1998.

VOLKSWAGEN

The Volkswagen Golf Mk2 is a hatchback, the second generation of the Volkswagen Golf and the successor to the Volkswagen Golf Mk1. It was Volkswagen’s highest volume seller from 1983 and ended in (German) production in late 1992, to be replaced by the Volkswagen Golf Mk3. The Mk2 was larger than the Mk1; its wheelbase grew slightly (+ 75 mm (3.0 in)), as did exterior dimensions (length + 180 mm (7.1 in), width + 55 mm (2.2 in), height + 5 mm (0.2 in)). Weight was up accordingly by about 120 kg (260 lb). Exterior design, developed in-house by VW design director Schäfer, kept the general lines of its Giugiaro-designed predecessor, but was slightly more rounded. All told, about 6.3 million second-generation Golfs were built. The second-generation Volkswagen Golf (also known as the Typ 19E until the 1991 model year, and Typ 1G thereafter) was launched in Europe at the Frankfurt Motor Show in September 1983, with sales beginning in its homeland and most other left-hand drive markets soon after. It debuted in March 1984 on the right-hand drive British market, and it was introduced as a 1985 model in the United States. It featured a larger bodyshell, and a wider range of engine options, including a GTD turbodiesel (in Euro markets, later using the 1.6 “umwelt” (ECO) diesel engine), a DOHC 1781 cc 16-valve version of the straight-four GTI (as well as the tried and tested 1781cc 8v GTI), the supercharged 8v “G60” with front- and four-wheel drive options, and a racing homologated variant of this, the “Rallye Golf”. This model was intended to be sold in the United States as well (badged as “Rallye GTI”), and prototypes were made, but it did not come to be. The original Golf had been one of the few front-wheel drive hatchbacks on sale when launched in 1974, but within a decade almost all mainstream manufacturers had launched a Golf-like family hatchback. Ford had switched to front-wheel drive hatchback format for its MK3 Escort in 1980, soon after General Motors had adapted that concept for its latest Opel Kadett (Vauxhall Astra in Britain). Austin Rover (formerly British Leyland) did not enter the small family hatchback market until the launch of its Maestro at the beginning of 1983, although it had launched its larger Maxi hatchback as long ago as 1969 and in 1976 had taken the then unusual step of launching a hatchback bodystyle on a luxury car (the Rover SD1). Peugeot would not launch its first Golf-sized hatchback (the 309) until late 1985, but it had taken ownership of Chrysler’s European division (which it renamed Talbot) in 1978, just after the launch of the Chrysler/Simca Horizon hatchback. However, the likes of Fiat, Renault and Volvo had all entered the small family hatchback market by the end of the 1970s. The hatchback bodystyle had also become popular on cars produced outside Europe, particularly on Japanese models. In 1985, British motoring magazine What Car? awarded the Golf Mk2 1985 “Car of the Year”, even though it had actually been launched on the UK market early in the previous year. It sold well in Britain, peaking at more than 50,000 sales a year by the end of the decade. However, the Golf was overshadowed in the 1984 European Car of the Year contest, finishing third but being heavily outscored by the victorious Fiat Uno and runner-up Peugeot 205, which were similar in size to Volkswagen’s smaller Polo. During the life of the Golf MK2, there were a number of external style revisions. Notable changes to the looks of the Golf MK2 included the removal of quarterlight windows in the front doors, and the introduction of larger grille slats with the August 1987 facelift. The most notable was the introduction of so-called “Big Bumpers”, which were introduced in the European market with an August 1989 facelift. They were available in the United States from August 1989 as well, as part of the “Wolfsburg Edition” package. They were not standardized until January 1990. This Golf was marketed for the first time with that name in the United States and Canada. The Rabbit name used on the Mk1 was meant to give a car a cuddly image, but with the 1980s redesign of the car, Carl Hahn, the former Volkswagen of America president who was now chairman of the whole company, dictated that Volkswagen model names be standardized globally. James Fuller, head of the Volkswagen brand in North America, concurred in using the Golf name to stress the car’s Teutonic character. The GTI body kit became available on a non-injection Golf and was sold as the “Driver” trim level in Europe. While the GTI remained a trim level in the Golf lineup in Europe, in some markets, it was (and continues to be) marketed as a separate model line. Volkswagen also produced their model in Yugoslavia, in a factory at Vogošća near Sarajevo, called Tvornica Automobila Sarajevo – TAS. The MK2 was produced from June 5, 1985, with a yearly production of 25,000 units until the outbreak of war in 1992. This model was produced only for the six Yugoslav republics, with a rear badge J, JX (which stands for less equipment than C and CL), C and CL and TAS badge on the front grille and Sarajevo city logo instead side blinkers. Such models were usually very poorly equipped, with the passenger side rear-view mirrors being optional equipment which had to be paid for. Engines were 1.3 (carburettor), 1.6 petrol and 1.6 diesel. Continental sales began that autumn, but the MK3 did not take over from the MK2 on the right-hand drive British market until February 1992. The Golf Mk2 was available as a 3- and 5-door hatchback. The 2-door and 4-door sedan variants of the Golf Mk2 were marketed under the Volkswagen Jetta name. No cabriolet version was developed from the Mk2; instead, the Mk1-based convertible continued to be produced, with minor changes. Trim levels included base, C, CL and GL and initially a range-topping Carat model (until 1986), later a GT (in 1987) version was also on offer. In North America, there was only a base model until 1986, in 1987 a GL and GT model, in 1988–1989, there were all three, and in 1990 until the end of its run there was again only a GL. The GTI model existed from 1985 to 1987, and again from 1990 to 1992, and the GTI 16v existed from 1987 to 1992. In Japan the range consisted of catalysed Ci/CLi/GLi models all sharing the same 1.6 or later 1.8 liter fuel-injected inline-four engines. In the course of the years, a host of “limited edition” models appeared on various markets, distinguished by cosmetic changes and/or an enriched features list. Generally, these were option packages on top of a base “model” (CL, GL, etc.). Also in some countries it could be found trim level TX (Austria) and JX (Yugoslavia). The base engine was initially the 1.3 option as used in the first generation Golf, accompanied by 1.6- and 1.8-litre petrol fours and 1.6-litre naturally aspirated or turbocharged diesel engines. In January 1984 a new base engine was introduced, a 1.05 litre inline-four mainly available in Italy and Greece. In North America, all Golf Mk2s had 1.8-litre petrol or 1.6 diesel engines (the GTI, while not a Golf model in North America, also had a 2.0-litre model). The MK2 was the last version of the Golf to feature carburettor petrol engines, as all versions of the MK3 came with fuel injection from its launch, to meet requirements that all new cars sold in the EEC after 1992 must be fitted with a catalytic converter or fuel injection. The MK2 Golf remained in production until the launch of the MK3 model in August 1991

Joining it was an example of the Golf GTi Mark 2. VW had launched the second generation Golf in August of 1983, nearly 9 years after production of the first model to bear the name had begun. This time, a GTi version was included in the product plans from the start, and the new GTi was announced in May 1984. Like the regular Golf 2, it was almost 7″ longer than the Mark 1, with 3″ extra in the wheelbase and a 2″ wider track. It was also 10% heavier, but with significantly improved aerodynamics, resulting from attention to detail which included integrated gutters and flush glass as well as more rounded styling, the cd fell from 0.42 to 0.34. Initially it was powered by the same 1781cc fuel injected engine, but there were all round disc brakes and longer suspension travel improved the ride. Competitors came snapping at its heels, though, so after 2/5 years, VW responded by giving the car 24% more power, achieved by doubling the number of valves to 16. Lower stiffer suspension and bigger front brakes were also fitted, all of which restored the Golf GTi 16V to the top of the Hot Hatch pile. For most people that is, though the 8v car retained a following thanks to its broader torque spread. This less powerful car changed from a mechanical K-Jetronic injection system to a new Digifant electronic set up in 1987 at which point the front quarterlights were deleted, and a digital instrument pack became an option on the 16v car. Power steering became standard in late 1990 and the 8v gained the interior from the 16v model. Production ran through to February 1992, by which time the Mark 3 GTi was waiting in the wings. over 600,000 were built over an 8 year period, around 10% of all Mark 2 Golf production.

And finally, there was this the Golf R, recently acquired by my good friend Dan Grazier, and the car in which we had come to the event. I have to say that it is a mighty impressive machine, and I just know that Dan is really going to enjoy it.

Despite our misgivings about the weather, and the potential state of the parking, I am glad that we decided to come, as there were some interesting cars here, several of which are ones you do not see very often, and we were able to enjoy a good couple of hours at the site before stopping off for a particularly good Nepalese meal at a pub we passed on the way back home. Another venue’s events to monitor and add to the list, then.