The “Wheels on Wednesday” event started out, just as the name would suggest, as an evening meet for car enthusiasts, on a Wednesday evening, held at Spetchley Park, just outside Worcester. Word quickly spread and the event became very popular, with attendee numbers growing with event and a clamouring for more events at the same venue than initially scheduled and so it was not long before Robin Webb, the organiser, added some Sunday morning meets to his schedule as well. These were equally popular, appealing not just to those attendees at the Wednesday events but also those who could not attend a mid-week gathering. Whilst the events always have plenty of cars not seen there before, there quickly developed a lengthy list of “regulars”, ever eager to meet up and show off their cars. Looking to add yet more variety to what could be offered in a post-Covid world, Robin reached agreement with the team at Morgan Cars in nearby (ish) Malvern Link to feature as the Guest “Club” at their evening events, a program which had been launched as Morgan Overtime and in 2022, a couple of events took place which were at Morgan Cars site, but with a lot of the Wheels on Wednesday regulars in attendance. These events proved popular and so I rather hoped that they would be repeated in 2023. Morgan’s own events were also good, but they did not stage an reappearance on the calendar for 2023 in their own right, but instead, those who wanted to attend needed to sign up for a Wheels on Wednesday event there instead. There was a date in early August, which worked for my calendar and so I duly booked up and took my self along. I got there not long after the declared start of the event and the site was already pretty fully, and cars continued to arrive for some time after that. So there was plenty to see, for sure. Here is what I found:
ABARTH
The Abarth New 500e Scorpionissima is a performance variant that made its official debut on 22 November 2022, featuring unique scorpion-badged alloy wheels. Initially, it is being released in a Scorpionissima edition limited to 1,949 examples. Scorpionissima models will be available in a choice of Acid Green or Poison Blue colours, bearing unique side graphics and wheels. The first deliveries were scheduled for June 2023. It has a single electric traction motor that produces 114 kW (153 hp) and 235 Nm (173 lb/ft), an increase of 26.7 kW (35.8 hp) and 15 Nm (11 lb/ft) over the standard motor, and accelerates from 0 to 100 km/h (62 mph) in 7 seconds. The enhancements in power and torque output are derived from improved inverter and battery wiring, and a reduction in the final-drive ratio. The Abarth also swaps the rear drum brakes on the New 500 for discs. Three driving modes are offered: Turismo, Scorpion Street, and Scorpion Track; output power and torque are limited to 100 kW (130 hp) and 220 Nm (160 lb/ft) in Turismo. Scorpion Street maximizes regenerative braking, simulating the engine braking effect of a conventional car equipped with a manual transmission, while Scorpion Track sacrifices range for performance. In manufacturer testing at Balocco, the Abarth 500e is able to complete laps 1 second quicker than the Abarth 695. Total weight is 1,410 kg (3,110 lb), including the 295 kg (650 lb) battery. Charging hardware is carried over from the regular New 500 equipped with the larger battery, at rates up to 85 kW. The Abarth 500e has a battery with a capacity of 42.2 kWh (gross) and 37.3 kWh (net), giving the vehicle a claimed range of 264 km (164 mi) under the WLTP driving cycle with the standard 17-inch wheels; equipping the 18-inch wheels reduces range to 253 km (157 mi). Real-world mixed driving with 18-inch wheels indicated an actual range of 212 km (132 mi), with consumption of 3.4 mi/kWh. Not many have yet been bought by private owners, so I was intrigued as to whose this car was. It turned out to be a dealer car rom Unity of Oxford and was not the only car they had on show. I have a long chat with them.
Eagerly awaited, the 124 Spider went on sale in September 2016. A quick reminder as to what this car is: The Abarth 124 Spider was developed in parallel with the Fiat model. It does cost a lot more, and there are those who think you don’t get enough extra for your money, but those who have driven it will tell you otherwise. You certainly get more power. The 1.4 MultiAir turbo unit jumps up from 138bhp to 168bhp, while torque also increases by a modest 10Nm to 250Nm, which gives it a 0-62mph time of 6.8 seconds, which is half a second quicker than the 2.0-litre Mazda MX-5. The top speed is 143mph. It weighs just 1060kg meaning a power-to-weight ratio of 158bhp-per-tonne, and with the new Record Monza exhaust system it sounds great even at idle. The Abarth version gets a stiffer suspension setup than the regular Fiat 124 Spider, with Bilstein dampers and beefed-up anti-roll bars. Bigger Brembo brakes also feature, with aluminium calipers. It can be had with a six-speed manual or six-speed automatic transmission with paddles, and the latter gets a Sport mode for quicker shifts. Many of the UK cars sport the ‘Heritage Look’ pack, which is a no-cost option. It brings a matt black bonnet and bootlid, plus red exterior trim detailing and has proved popular. The £29,565 starting price gets you standard equipment such as cruise control, climate control, Bluetooth, a DAB radio and satnav, plus Alcantara black and red (or pure black) seat trim. The automatic gearbox is a £2,035 extra, while an optional visibility pack brings LED DRLs, auto lights and wipers and rear parking sensors.
AC
Genuine AC Cobra models are few and far between, but almost since the end of their very limited production, there have been numerous companies producing replicas, and many of these are almost indistinguishable from the real thing, even though most do have contemporary mechanical parts. The car seen here is an AK 427 produced by the Peterborough-based firm of AK Sportscars. They offer kits that recreate the legendary AC Cobra, such as this car, the Jaguar XKSS and the Ford GT40. They have three options for their AK 427 and choosing between them will depend on a number of factors including budget, the amount of time you have to spare and the amount of space you have in which to build your car. The choices start with the basic body and chassis kit for which there are three options. The “Standard” body/chassis kit is based on the early Jaguar XJ6/S running gear with the inboard rear brakes. Or the popular “Generation II ” body/chassis kit which is based on the later Jaguar XJ40 running gear which have the outboard rear brakes, or the latest ” Generation III SUPALITE” body/chassis kit which is also based on the Jaguar XJ40 but has a stiffer more tubular chassis and the bonus of over 100 kg weight saving over the Generation II Kit.. The company also offers a ”Factory built Rolling Chassis” for the Generation II / III which gets you off to a flying start!
ALFA ROMEO
The original 1966 Spider shape was the result of a number of Pininfarina design studies, concept cars showing traits incorporated in the final production design. The first one was the Alfa Romeo Superflow, a concept car built upon the chassis of a retired 6C 3000 CM racing car and first show at the 1956 Turin Motor Show. Despite being an aerodynamic coupé with prominent fins on the rear, and a futuristic all-plexiglas greenhouse and front wings, the Superflow already shown the overall body shape of the future Spider and the scallops on the sides. In the following years the Superflow was updated three times into three more different concept cars, namely a Superflow II coupé, then an open-top spider and finally another Superflow IV coupé. The most significant in the Spider’s design history was the second, the open-top Alfa Romeo Spider Super Sport, shown at the 1959 Geneva Motor Show. It did without the rear fins of the Superflow and Superflow II, showing for the first time the rounded cuttlebone-shaped tail and tail light configuration of the Spider. Last of the Spider’s forerunner was the Alfa Romeo Giulietta SS Spider Aerodinamica, which premiered at the 1961 Turin Motor Show, and was based on the Giulietta Sprint Speciale. Very close to the shape of the production car, its main design differences were at the front, due to hideaway headlamps. Despite the almost final design being ready in 1961, the continuing success of existing models and the economic challenges facing Italy at the time meant that the first pre-launch production Spiders began to emerge from the Pininfarina production line only at the end of 1965. The Spider was launched at the 36th Geneva Motor Show in March 1966, together with the Giulia Sprint GT Veloce at an event organised in Gardone Riviera. With its boat tailed styling, it quickly found favour, even before taking a starring role in the film “The Graduate”. The original 1600cc engine was replaced by a more powerful 1750cc unit at the same time as the change was made to the rest of the range, and the car continued like this until 1970, when the first significant change to the exterior styling was introduced on the 1750 Spider Veloce, with the original’s distinctive elongated round tail changed to a more conventional cut-off tail, called the “Kamm tail”, as well as improving the luggage space. Numerous other small changes took place both inside and out, such as a slightly different grille, new doorhandles, a more raked windscreen, top-hinged pedals and improved interior trim. 1971 saw the Spider Veloce get a new, larger powerplant—a 1962 cc, 132 hp unit—and consequently the name was changed from 1750 Spider Veloce to 2000 Spider Veloce. The 1600 Spider restarted production a year later as the Spider 1600 Junior, and was visually identical to the 1300. 1974 saw the introduction of the rare, factory request, Spider-Targa. Based upon the Spider, it featured a Porsche style solid rear window and lift out roof panels, all made out of black GRP type material. Less than 2,000 models of such type were ever made and was the only part solid roof Spider until the introduction of the factory crafted hard top. The 1300 and 2000 cars were modified in 1974 and 1975 respectively to include two small seats behind the front seats, becoming a “two plus two” four seater. The 1300 model was discontinued in 1977. Also, between 1974 and 1976, the early-style stainless-steel bumpers were discontinued and replaced with black, rubber-clad units to meet increasingly stringent North American crash requirements. 4,557 examples of the 1300 Junior were made and 4,848 of the 1600 Junior as well as 16,320 2000 Spider Veloces and 22,059 of 2000 Spider Veloce US version. There were also 4,027 1750 Spider Veloces produced.
The 916 Series cars were conceived to replace two very different models in the Alfa range. First of these was the open topped 105 Series Spider which had been in production since 1966 and by the 1990s was long overdue a replacement. Alfa decided to combine a follow on to the Alfetta GTV, long out of production, with a new Spider model, and first work started in the late 1980s. The task was handed to Pininfarina, and Enrico Fumia’s initial renderings were produced in September 1987, with the first clay models to complete 1:1 scale model made in July 1988. Fumia produced something rather special. Clearly an Italian design, with the Alfa Romeo grille with dual round headlights, recalling the Audi-based Pininfarina Quartz, another design produced by Enrico Fumia back in 1981, the proposal was for a car that was low-slung, wedge-shaped with a low nose and high kicked up tail. The back of the car is “cut-off” with a “Kamm tail” giving improved aerodynamics. The Spider would share these traits with the GTV except that the rear is rounded, and would feature a folding soft-top with five hoop frame, which would completely disappear from sight under a flush fitting cover. An electric folding mechanism would be fitted as an option. Details included a one-piece rear lamp/foglamp/indicator strip across the rear of the body, the minor instruments in the centre console angled towards the driver. The exterior design was finished in July 1988. After Vittorio Ghidella, Fiat’s CEO, accepted the design, Alfa Romeo Centro Stile under Walter de Silva was made responsible for the completion of the detail work and also for the design of the interiors, as Pininfarina’s proposal was not accepted. The Spider and GTV were to be based on the then-current Fiat Group platform, called Tipo Due, in this case a heavily modified version with an all new multilink rear suspension. The front suspension and drivetrain was based on the 1992 Alfa Romeo 155 saloon. Chief engineer at that time was Bruno Cena. Drag coefficient was 0.33 for the GTV and 0.38 for the Spider. Production began in late 1993 with four cars, all 3.0 V6 Spiders, assembled at the Alfa Romeo Arese Plant in Milan. In early 1994 the first GTV was produced, with 2.0 Twin Spark engine. The first premiere was then held at the Paris Motor Show in 1994. The GTV and Spider were officially launched at the Geneva Motor Show in March 1995 and sales began the same year. The cars were well received. At launch, many journalists commented that Alfa had improved overall build quality considerably and that it came very close to equalling its German rivals. I can vouch for that, as I owned an early GTV for eighteen months, and it was a well built and reliable car. In 1997 a new engine, a 24-valve 3.0 litre V6, was available for the GTV along with bigger, 12.0 inch brakes and red four-pot calipers from Brembo. The console knobs were changed from round central to rectangle ones and to a three-spoke steering wheel. Some versions were upgraded with different front bumper mesh to bring the wind noise down to 74 dBA. In May 1998 the cars were revamped for the first time, creating the Phase 2 models. Most of the alterations were inside. The interior was changed with new centre console, painted letters on skirt seals, changed controls and switches arrangement and different instrument cluster. Outside, the main changes included chrome frame around the grille and colour-coded side skirts and bumpers. A new engine was introduced, the 142 bhp 1.8 Twin Spark, and others were changed: the 2.0 Twin Spark was updated with a modular intake manifold with different length intakes and a different plastic cover. Power output of the 2.0 TS was raised to 153 bhp. Engines changed engine management units and have a nomenclature of CF2. The dashboard was available in two new colours in addition to the standard black: Red Style and Blue Style, and with it new colour-coded upholstery and carpets. The 3.0 24V got a six-speed manual gearbox as standard and the 2.0 V6 TB engine was now also available for the Spider. August 2000 saw the revamp of engines to comply with new emission regulations, Euro3. The new engines were slightly detuned, and have a new identification code: CF3. 3.0 V6 12V was discontinued for the Spider and replaced with 24V Euro3 version from the GTV. 2.0 V6 Turbo and 1.8 T.Spark were discontinued as they did not comply with Euro3 emissions. By the 2001-2002 model year, only 2 engines were left, the 2.0 Twin.Spark and 3.0 V6 24V, until the Phase 3 engine range arrived. The Arese plant, where the cars had been built, was closing and, in October 2000, the production of GTV/Spider was transferred to Pininfarina Plant in San Giorgio Canavese in Turin. In 2003 there was another and final revamp, creating the Phase 3, also designed in Pininfarina but not by Enrico Fumia. The main changes were focused on the front with new 147-style grille and different front bumpers with offset numberplate holder. Change to the interior was minimal with different centre console and upholstery pattern and colours available. Instrument illumination colour was changed from green to red. Main specification change is an ASR traction control, not available for 2.0 TS Base model. New engines were introduced: 163 bhp 2.0 JTS with direct petrol injection and 237 hp 3.2 V6 24V allowing a 158 mph top speed. Production ceased in late 2004, though some cars were still available for purchase till 2006. A total of 80,747 cars were made, and sales of the GTV and Spider were roughly equal. More V6 engined GTVs than Spiders were made, but in 2.0 guise, it was the other way round with the open model proving marginally more popular.
ASTON MARTIN
This is a DBS. Aston Martin had used the DBS name once before on their 1967–72 grand tourer coupe. The modern car replaced the 2004 Vanquish S as the flagship of the marque, and was a V12-engined super grand tourer based on the DB9. The DBS was officially unveiled at the 2007 Pebble Beach Concours d’Elegance on 16 August 2007, which featured a brand new exterior colour (graphite grey with a blue tint) which has been dubbed “Lightning Silver”, followed by an appearance at the 2007 Frankfurt motor show. Deliveries of the DBS began in Q1 2008. The convertible version of the DBS dubbed the DBS Volante was unveiled at the 2009 Geneva Motor Show on 3 March 2009. The DBS Volante includes a motorized retractable fabric roof controlled by a button in the centre console and can fold into the compartment located behind the seats in 14 seconds after the press of the button. The roof can be opened or closed while at speeds up to 48 km/h (30 mph). Apart from the roof, changes include a new wheel design available for both the coupé and volante versions and a 2+2 seating configuration also available for both versions. Other features include rear-mounted six-speed manual or optional six-speed ‘Touchtronic 2’ automatic gearbox, Bang & Olufsen BeoSound DBS in-car entertainment system with 13 speakers. Deliveries of the DBS Volante began in Q3 2009. The model was replaced by a new generation Vanquish in 2012.
Following the unveiling of the AMV8 Vantage concept car in 2003 at the North American International Auto Show designed by Henrik Fisker, the production version, known as the V8 Vantage was introduced at the Geneva Motor Show in 2005. The two seat, two-door coupé had a bonded aluminium structure for strength and lightness. The 172.5 inch (4.38 m) long car featured a hatchback-style tailgate for practicality, with a large luggage shelf behind the seats. In addition to the coupé, a convertible, known as the V8 Vantage Roadster, was introduced later in that year. The V8 Vantage was initially powered by a 4.3 litre quad-cam 32-valve V8 which produced 380 bhp at 7,300 rpm and 409 Nm (302 lb/ft) at 5,000 rpm. However, models produced after 2008 had a 4.7-litre V8 with 420 bhp and 470 Nm (347 lbft) of torque. Though based loosely on Jaguar’s AJ-V8 engine architecture, this engine was unique to Aston Martin and featured race-style dry-sump lubrication, which enabled it to be mounted low in the chassis for an improved centre of gravity. The cylinder block and heads, crankshaft, connecting rods, pistons, camshafts, inlet and exhaust manifolds, lubrication system and engine management were all designed in house by Aston Martin and the engine was assembled by hand at the AM facility in Cologne, Germany, which also built the V12 engine for the DB9 and Vanquish. The engine was front mid-mounted with a rear-mounted transaxle, giving a 49/51 front/rear weight distribution. Slotted Brembo brakes were also standard. The original V8 Vantage could accelerate from 0 to 60 mph in 4.8 seconds before topping out at 175 mph. In 2008, Aston Martin introduced an aftermarket dealer approved upgrade package for power and handling of the 4.3-litre variants that maintained the warranty with the company. The power upgrade was called the V8 Vantage Power Upgrade, creating a more potent version of the Aston Martin 4.3-litre V8 engine with an increase in peak power of 20 bhp to 400 bhp while peak torque increased by 10 Nm to 420 Nm (310 lb/ft). This consists of the fitting of the following revised components; manifold assembly (painted Crackle Black), valved air box, right and left hand side vacuum hose assemblies, engine bay fuse box link lead (ECU to fuse box), throttle body to manifold gasket, intake manifold gasket, fuel injector to manifold seal and a manifold badge. The V8 Vantage had a retail price of GB£79,000, US$110,000, or €104,000 in 2006, Aston Martin planned to build up to 3,000 per year. Included was a 6-speed manual transmission and leather-upholstery for the seats, dash board, steering-wheel, and shift-knob. A new 6-speed sequential manual transmission, similar to those produced by Ferrari and Lamborghini, called Sportshift was introduced later as an option. An open-topped model was added to the range in 2006 and then in the quest for more power a V12 Vantage joined the range not long after. There were no fewer than 18 different versions of the car produced over its model life
AUDI
The styling of the Audi TT began in the spring of 1994 at the Volkswagen Group Design Center in California. The TT was first shown as a concept car at the 1995 Frankfurt Motor Show. The design is credited to J Mays and Freeman Thomas, with Hartmut Warkuss, Peter Schreyer, Martin Smith and Romulus Rost contributing to the interior design. A previously unused laser beam welding adaptation, which enabled seamless design features on the first-generation TT, delayed its introduction. Audi did not initially offer any type of automatic transmission option for the TT. However, from 2003, a dual clutch six-speed Direct-Shift Gearbox (DSG) became available, with the United Kingdom TT variants becoming the world’s first user of a dual clutch transmission configured for a right-hand drive vehicle, although the outright world first for a road car equipped with a dual clutch transmission was claimed earlier by a Volkswagen Group platform-mate, the left hand drive Volkswagen Golf Mk4 R32. The Audi TT takes its name from the successful motor racing tradition of NSU in the British Isle of Man TT (Tourist Trophy) motorcycle race. NSU marque began competing at the Isle of Man TT in 1907 with the UK manager Martin Geiger finishing in fifth position in the single-cylinder race. The 1938 Isle of Man Lightweight TT race was won by Ewald Kluge with a 250 cc supercharged DKW motor-cycle and the DKW and NSU companies later merged into the company now known as Audi. The TT name has also been attributed to the phrase “Technology & Tradition”. The production model (internal designation Type 8N) was launched as a coupé in September 1998, followed by a roadster in August 1999. It is based on the Volkswagen Group A4 (PQ34) platform as used for the Volkswagen Golf Mk4, the original Audi A3, the Škoda Octavia, and others. The styling differed little from the concept, except for slightly reprofiled bumpers, and the addition of rear quarterlight windows behind the doors. Factory production commenced in October 1998. Early TT models received press coverage following a series of high-speed accidents and the related fatalities which occurred at speeds in excess of 112 mph (180 km/h) during abrupt lane changes or sharp turns. Both the coupé and roadster variants were recalled in late 1999/early 2000, to improve predictability of the car’s handling at very high speeds. Audi’s Electronic Stability Programme (ESP) or Anti Slip Regulation (ASR) and rear spoiler were added, along with modifications to the suspension system. All changes were incorporated into subsequent production. Mechanically, the TT shares an identical powertrain layout with its related Volkswagen Group-mates. The TT uses a transversely mounted internal combustion engine, with either front-wheel drive or ‘quattro four-wheel drive’ available as an option. It was first available with a 1.8-litre inline four-cylinder 20-valve turbocharged engine in two states of DIN-rated power outputs; 180 PS (178 bhp) and 225 PS (222 bhp). The engines share the same fundamental design, but the 225 PS version features a larger K04 turbocharger (180 PS version came with a smaller K03), an additional intercooler on the left side (complementing the existing right-side intercooler), larger 20mm wrist-pins, a dual tailpipe exhaust, intake manifold with inlet on driver’s side, and a few other internals – designed to accommodate the increase in turbo boost, from roughly 10 pounds per square inch (0.7 bar) peak, to 15 pounds per square inch (1.0 bar). Haldex Traction enabled four-wheel drive, ‘branded’ as “Quattro” was optional on the 180 engine, and standard on the more powerful 225 version. The original four-cylinder engine range was complemented with a 3,189 cc VR6 engine rated at 250 PS (247 bhp) and 320 Nm (236 lb/ft) of torque in early 2003, which came as standard with the quattro four-wheel-drive system. In July 2003, a new six-speed dual clutch transmission – dubbed the Direct-Shift Gearbox (DSG), which improves acceleration through much-reduced shift times, was offered, along with a stiffer suspension. The second generation TT was launched in 2006.
The second generation of the R8 (model code: Type 4S) was unveiled at the 2015 Geneva Motor Show and is based on the Modular Sports System platform shared with the Lamborghini Huracan. The development of the Type 4S commenced in late 2013 and was completed in late 2014. Initial models included the all-electric e-Tron and the V10 5.2 FSI along with the V10 plus. Unlike its predecessor, there was no manual transmission available and the entry-level V8 trim was also dropped. In 2016, the convertible (Spyder) variant was added to the line up which was initially available in the base V10 trim. In mid-2017, the high performance V10 plus Spyder was added to the range. A rear-wheel-drive model called the R8 RWS was introduced. In 2018, the R8 received a mid-cycle refresh with mechanical and exterior changes. The newer and more aggressive design language carried over from famous Audi models of the past and it’s appearance is slightly more angular up front. Some of the aerodynamic features such as the front aeroblades are shared with the Lamborghini Huracàn. The refreshed model had substantial performance improvements over its predecessor. The base R8 gets a power boost from 532 hp to 562 hp, while the V10 Plus was renamed V10 Performance Quattro and the engine saw a power increase by 10 bhp, now up to 612 bhp. The Audi R8 e-tron (2015) was an all-electric version of the second-generation R8. Unlike the earlier 2010 prototype based on the first-generation R8, it actually entered production, but only on a small scale, with less than 100 units sold. It featured a 92-kWh battery.
AUSTIN
“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 and no money to develop an alternative, and that meant the 4 speed in-sump gearbox came with it, the little Metro was an immediate hit. It looked good, with pert, modern styling, and was practical 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 had done, but it took several years before that would become obvious. Before that happened, the range was expanded with the introduction of cheaper a model using AP’s clever 4 speed Automatic gearbox, cheaper City and City X models, a top spec Vanden Plas and then the sporting MG version.
AUSTIN HEALEY
Donald Healey had been producing a range of expensive sports cars from the 1940s, cars such as the Silverstone, the Abbott and the Farnham. For the 1952 London Motor Show, he produced a new design, which was called the Healey Hundred, based on Austin A90 mechanicals, which he intended to produce in-house at his small car company in Warwick. It was one of the stars of the 1952 Show, and it so impressed Leonard Lord, the Managing Director of Austin, who was looking for a replacement to the unsuccessful A90. that Lord struck a deal with Healey on the spot, to build it in quantity. Bodies made by Jensen Motors would be given Austin mechanical components at Austin’s Longbridge factory. The car was renamed the Austin-Healey 100, in reference to the fact that the car had a top speed of 100 mph. Production got under way in 1953, with Austin-Healey 100s being finished at Austin’s Longbridge plant alongside the A90 and based on fully trimmed and painted body/chassis units produced by Jensen in West Bromwich—in an arrangement the two companies previously had explored with the Austin A40 Sports. By early 1956, production was running at 200 cars a month, 150 of which were being sold in California. Between 1953 and 1956, 14,634 Austin-Healey 100s were produced, the vast majority of them, as was the case for most cars in this post war era, going for export. The car was replaced by an updated model in 1956, called the 100-6. It had a longer wheelbase, redesigned bodywork with an oval shaped grille, a fixed windscreen and two occasional seats added (which in 1958 became an option with the introduction of the two-seat BN6 produced in parallel with the 2+2 BN4), and the engine was replaced by one based on the six-cylinder BMC C-Series engine. In 1959, the engine capacity was increased from 2.6 to 2.9 litres and the car renamed the Austin-Healey 3000. Both 2-seat and 2+2 variants were offered. It continued in this form until production ceased in late 1967. The Big Healey, as the car became known after the 1958 launch of the much smaller Austin-Healey Sprite, is a popular classic now. You come across the 3000 models more frequently than the 100s, as they accounted for more than 60% of all Big Healey production.
BMW
The BMW E30 is the second generation of BMW 3 Series, which was produced from 1982 to 1994 and replaced the E21 3 Series, and was the car which really saw the popularity of the 3 Series increase dramatically. . Development of the E30 3 Series began in July 1976, with styling being developed under chief designer Claus Luthe with exterior styling led by Boyke Boyer. In 1978, the final design was approved, with design freeze (cubing process) being completed in 1979. BMW’s launch film for the E30 shows the design process including Computer-aided design (CAD), crash testing and wind-tunnel testing. The car was released at the end of November 1982. Externally, the E30’s appearance is very similar to twin headlight versions of its E21 predecessor, however there are various detail changes in styling to the E30. Major differences to the E21 include the interior and a revised suspension, the latter to reduce the oversteer for which the E21 was criticised. At launch, the car had a 2 door style like its predecessor and just four engines, all of them petrol: the 316 and 318 four cylinder units and the 320 and 323i 6 cylinders. This last was soon upgraded to a 2.5 litre unit. Diesel models were added during the 80s and there was an all-wheel drive 325iX option for continental European markets. In addition to the 2 door saloon and Baur convertible body styles of its E21 predecessors, the E30 became available by early 1984 as a four-door sedan and later a five-door station wagon (marketed as “Touring”). The Touring body style began life as a prototype built by BMW engineer Max Reisböck in his friend’s garage in 1984 and began production in 1987. The factory convertible version began production in 1985, with the Baur convertible conversions remaining available alongside it. Following the launch of the E36 3 Series in 1990, the E30 began to be phased out.
Also here were the latest versions of the M3 and M2. Brash and aggressive, both.
BRISTOL
For the third generation, Bristol offered the 404 and 405 ranges. The Bristol 404 came first, manufactured from 1953 to 1958, and the 405 from 1955 to 1958. The 404 was a two-seat coupé and the 405 was available as a four-seat, four-door saloon and as a four-seat, two-door drophead coupé, as seen here. Unlike previous or later Bristol models, there is considerable confusion in nomenclature when it comes to the Bristol 404 and 405. The 404 had a very short-wheelbase (8 feet) as against 9 feet 6 inches for the 405. The 405 itself was seen in two versions. The more common (265 of 308 built) is a four-door saloon built on the standard chassis of the previous Bristols, whilst the 405 drophead coupé or 405D (43 built) had a coupé body by Abbotts of Farnham and most built had a highly tuned (through advanced valve timing) version of the 2 litre six-cylinder engine called the 100C which developed 125 bhp as against the 105 bhp of the standard 100B 405 engine. All engines for the 404 and 405 had higher compression ratios than previous Bristols — 8.5:1 as against 7.5:1. Compared to the 403, the 404 and 405 had an improved gearbox with much shorter gear lever which improved what was already by the standards of the day a very slick gearchange. The 405, though not the 404, had overdrive as standard.
CATERHAM
The Caterham story is one of continual development, a four decade process of honing Colin Chapman’s original design, which is now 60 years old. Since 1973, when Graham Nearn’s Caterham cars took over the rights and manufacture of the fly-weight sportscars, it’s grown more power, better engines, more sophistication in both suspension and powertrains, as well – in some cases – as more space inside and certainly more creature comforts, all while preserving the original character. Caterham completed 42 of the heavier and not that well thought of Series 4 cars before deciding to concentrate on the classic Series 3 design, with a simple space frame chassis clothed in aluminium and glassfibre. At the time of the S3, the power unit was from Ford, with the Crossflow unit developing 84 bhp in GT form with a twin choke carburettor, though twin Webers were never far away. Sevens had started out with Ford side valve power, before the 948cc BMC A Series unit found its way into the car, followed by Ford’s new 1340cc and 1498cc engines, before the head redesign put the intake and the exhaust on opposite sides. When Ford discontinued the Kent engine in 1976, it caused something of a difficulty for Caterham, as this also meant the end of the Twin Cam and the BDR engines, of which Caterham had bought 500 in preceding years, and whilst the final pushrod engines came from South Africa, eventually the supply ran out and a new supplier was needed. At first the firm turned to Vauxhall’s 2 litre unit for the higher powered cars but when the found out that Rover were developing a new and sophisticated twin cam engine, which turned out to be the K Series unit, a deal was struck and the first K Series engined Caterhams appeared in 1991, once the multi-point injection version was available (the single point would have required a bonnet bulge which Caterham did not want). To get round the relative lack of torque, Caterham developed their own close ratio 6 speed gearbox which was lighter than the Ford unit they had been using, and which could cope with larger capacity and more powerful K Series units as Rover made them available. Caterham continued to develop the car throughout the 90s, starting to make their own steering racks among other changes. By the time the K Series and the 240 bhp Vauxhall engines in the HPC car came along, the interior had become plusher with a long cockpit option and a wider variant, the SV. There were now proper bucket seats instead of those with a plywood backrest and in 1996 the handbrake moved from under the dash to the transmission tunnel. This required extra tubing in the chassis, which made it 80% stiffer. The front suspension had gained a proper top wishbone and separate anti-roll bar, but the biggest change came with the adoption of de Dion rear suspension. The move was occasioned by a need to keep the rear wheels linked and parallel to each other, yet still as simple as possible, though the engineers harboured a desire for a fully independent rear end, which finally came about with the CSR version in 2004. This change improved the ride massively on bumpy roads and makes the car feel more planted. The collapse of Rover in 2005 meant the end for the K Series, so there was a switch back to Ford power, using the Sigma engine, which happily fits under the bonnet – something that few modern engines do as they are now often simply too tall. Adding more power is a law of diminishing returns with a Caterham, thanks to the aerodynamics, though there are now an array of different power outputs offered, but the most recent change was a new entry level model, which uses a 660cc Suzuki turbo triple, with a live axle and a similar power to weight ratio to the classic single carb Ford powered models of 30 years ago. However, these days you can get carpets, leather seats and full weather gear if you upgrade to an S pack. Caterham plan to continue to develop the car for as long as they can. To date they have built around 16,000 examples, and it is said that were you to gather 100 models together, you would not find two the same, even though, colour apart, many cars look very similar at a quick glance.
CHEVROLET
First seen in 1963, this Corvette model introduced us to the name Sting Ray. It continued with fibreglass body panels, and overall, was smaller than the first generation. The car was designed by Larry Shinoda with major inspiration from a previous concept design called the “Q Corvette,” which was created by Peter Brock and Chuck Pohlmann under the styling direction of Bill Mitchell. Earlier, Mitchell had sponsored a car known as the “Mitchell Sting Ray” in 1959 because Chevrolet no longer participated in factory racing. This vehicle had the largest impact on the styling of this generation, although it had no top and did not give away what the final version of the C2 would look like. The third inspiration was a Mako Shark Mitchell had caught while deep-sea fishing. Production started for the 1963 model year and ended in 1967. The 1963 model was the first year for a Corvette coupé and it featured a distinctive tapering rear deck (a feature that later reappeared on the 1971 “Boattail” Buick Riviera) with, for 1963 only, a split rear window. The Sting Ray featured hidden headlamps, non-functional bonnet vents, and an independent rear suspension. Corvette chief engineer Zora Arkus-Duntov never liked the split rear window because it blocked rear vision, but Mitchell thought it to be a key part of the entire design. Maximum power for 1963 was 360 bhp, raised to 375 bhp in 1964. Options included electronic ignition, the breakerless magnetic pulse-triggered Delcotronic first offered on some 1963 Pontiac models. On 1964 models the decorative bonnet vents were eliminated and Duntov, the Corvette’s chief engineer, got his way with the split rear window changed to a full width window. Four-wheel disc brakes were introduced in 1965, as was a “big block” engine option: the 396 cu in (6.49 litre) V8. Side exhaust pipes were also optionally available in 1965, and continued to be offered through 1967. The introduction of the 425 bhp 396 cu in big block in 1965 spelled the beginning of the end for the Rochester fuel injection system. The 396 cu in option cost $292.70 while the fuel injected 327 cu in (5.36 litre) engine cost $538.00. Few people could justify spending $245.00 more for 50 bhp less, even though FI could deliver over 20 mpg on the highway and would keep delivering fuel despite high G-loading in corners taken at racing speeds. Another rare ’63 and ’64 option was the Z06 competition package, which offered stiffer suspension, bigger, multi-segment lined brakes with finned drums and more, only a couple hundred coupes and ONE convertible were factory-equipped this way in 1963. With only 771 fuel-injected cars built in 1965, Chevrolet discontinued the option at the end of the ’65 production, having introduced a less-expensive big block 396 engine rated at 425 hp in the middle of the production year and selling over 2,000 in just a few months. For 1966, Chevrolet introduced an even larger 427 cu in 7 litre Big Block version. Other options available on the C2 included the Wonderbar auto-tuning AM radio, AM-FM radio (mid-1963), air conditioning (late-1963), a telescopic steering wheel (1965), and headrests (1966). The Sting Ray’s independent rear suspension was successfully adapted for the new-for-1965 Chevrolet Corvair, which solved the quirky handling problems of that unique rear-engine compact. 1967 was the final year for the C2 generation. The 1967 model featured restyled bumper vents, less ornamentation, and back-up lamps which were on the inboard in 1966 were now rectangular and centrally located. The first use of all four taillights in red started in 1961 and was continued thru the C-2 line-up except for the 1966. The 1967 and subsequent models continuing on all Corvettes since. 1967 had the first L88 engine option which was rated at 430 bhp, but unofficial estimates place the actual output at 560 bhp or more. Only twenty such engines were installed at the factory. From 1967 (to 1969), the Holley triple two-barrel carburettor, or Tri-Power, was available on the 427 L89 (a $368 option, on top of the cost for the high-performance 427). Despite these changes, sales slipped over 15%, to 22,940 – 8,504 coupes and 14,436 convertibles.
The C6 Corvette retained the front engine and rear transmission design of the C5, but was otherwise all-new, including new bodywork with exposed headlamps (for the first time since 1962), a larger passenger compartment, a new 6.0 litre engine and a reworked suspension geometry. It had a longer wheelbase than the C5, but its overall vehicle length and width were less than the C5, allegedly to widen appeal to the European market.The 6.0 litre LS2 V8 produced 400 bhp at 6000 rpm and 400 lb·ft at 4400 rpm, giving the vehicle a 0–60 time of under 4.2 seconds.Its top speed was 190 mph. The C6 generation did not match the previous generation’s relatively good fuel economy, despite its relatively low 0.28 drag coefficient and low curb weight, achieving 16/26 mpg (city/highway) equipped with automatic or manual transmissions; like all manual transmission Corvettes since 1989, it is fitted with Computer Aided Gear Selection (CAGS) to improve fuel economy by requiring drivers to shift from 1st gear directly to 4th in low-speed/low-throttle conditions. This feature helps the C6 avoid the Gas Guzzler Tax by achieving better fuel economy. The new Z06 arrived as a 2006 model in the third quarter of 2005. It has a 7.0 litre version of the small block engine codenamed LS7. At 427.6 cubic inches, the Z06 was the largest small block ever offered from General Motors. Because of the Corvette’s former use of 427 cubic-inch big blocks in the late-1960s and early 1970s, the LS7’s size was rounded down to 427 cubic inches. Official output was 505 bhp and has a 0-60 mph time of 3.7 seconds. Top speed is 198 mph. For 2008, the Corvette received a mild freshening: a new LS3 engine with displacement increased to 6.2 litres resulting in 430 bhp and 424 lb·ft. The 6-speed manual transmission also has improved shift linkage and a 0–60 time of 4.0 seconds, while the automatic is set up for quicker shifts giving the C6 automatic a 0–60 time of 4.0 seconds, faster than any other production automatic Corvette. The interior was slightly updated and a new 4LT leather-wrap interior package was added. The wheels were also updated to a new five-spoke design. ZR1 was formally announced in a December 2007 press statement by General Motors, where it was revealed that their target of 100 bhp per litre had been reached by a new “LS9″ engine with an Eaton-supercharged 6.2-litre engine producing 638 bhp and 604 lb·ft. The LS9 engine was the most powerful to be put into a GM production sports car. Its top speed was 205 mph. The historical name Grand Sport returned to the Corvette lineup in 2010 as an entirely new model series that replaced the Z51 option. The new model was basically an LS3 equipped Z06 with a steel frame instead of aluminium. It retained many of the features of the Z06 including a wide body with 18×9.5 and 19×12 inch wheels, dry sump oiling (manual transmission coupes only), 6-piston 14” front brakes and 4-piston rear, improved suspension, and front carbon fibre fenders. Manual power train equipped G/S coupe models receive a tweaked LS3 with a forged crank, are built in Z06 fashion by hand, and utilise a dry-sump oil system. The first three gears were also made shorter for better throttle response and faster acceleration. A new launch control system was introduced for all models that allows for sub 4 second 0-60. Beginning with the 2011 model year, buyers of the Corvette Z06 and ZR1 were offered the opportunity to assist in the build of their engine. Titled the “Corvette Engine Build Experience,” buyers paid extra to be flown to the Wixom, Michigan Performance Build Center. Participants helped the assembly line workers build the V8 engine, then took delivery of the car at the National Corvette Museum in Bowling Green, KY, near the Corvette final assembly point. The last C6 Corvette was manufactured in February 2013.
The next-generation (C7) Corvette had been in development since 2007. Originally set to be introduced for the 2011 model year, its introduction was delayed for 3 years. It was finally released for the 2014 model year. Mid-engine and rear-engine layouts had been considered, but the front-engine, rear-wheel drive platform was chosen to keep production costs lower. To GM’s product planners and marketers, the fact that the Corvette had become known as an “old man’s toy” became a prime factor in developing the next generation. Studies showed that about 46 percent of Corvette buyers in 2012, through October, were 55 or older, compared with 22 percent of Audi R8 and 30 percent of Porsche 911 customers. The head of Chevy marketing, Chris Perry, acknowledges that too many people saw it as the car of “the successful plumber.” John Fitzpatrick, Corvette’s marketing manager said “It’s the old saying, ‘Nobody wants to be seen driving an old man’s car, but everybody wants to be seen driving a young man’s car. ” To counter that perception GM planned to make the new generation C7 more aspirational to younger people. Towards that end, a camouflaged version of the car was made available in the popular video game Gran Turismo 5 in November 2012. As part of the marketing effort associated with the introduction of the new generation, the 2013 Indianapolis 500 utilised a Corvette for the 12th time as its pace car. Pace car editions are planned. Sales success of the new Corvette is important to GM. The Motley Fool reports that the Corvette could be earning GM $10,000 or more in gross profit for every Corvette it sells.The 2014 Chevrolet Corvette uses an LT1 6.2 litre V8 making 455 bhp. The LT1 engine is in the Gen 5 family of small block engines, which will be used in GM vehicles as the new small V8 option. It features three technologies new to the GM V8, though widely available on other engines in the marketplace: direct injection, variable valve timing, and an active fuel management system. Fuel injectors are located under the intake manifold. The Corvette remains rear-wheel drive with the transaxle located in the rear. Transmission choices include a 7-speed manual or a 8-speed automatic with paddle shifters. The new interior includes wide-bottom seats as standard, with sportier versions with high side bolsters optional. The Corvette’s flag logo has been revised for the new car and a small casting of a stingray has been added to the car’s ornamentation. Features of the new generation’s structure include a carbon fibre bonnet and removable roof panel. The fenders, doors and rear quarter panels remain composite. At the rear of the car, the trademark round taillights have changed to a more squarish form. The underbody panels are made of “carbon-nano” composite and it makes use of a new aluminium frame which locates the four wheels an inch farther apart, front to rear and side to side. Luggage space decreased by 33% from the previous generation’s. The overall weight of the car was not announced by General Motors for many months after its first showing in January 2013. Despite the increased use of aluminium and other light weight materials, numerous publications reported that the weight would remain essentially unchanged from that of the previous generation’s. In August, 2013, the weight of the new Corvette was reported to be 3,444 lb meaning it would weigh more than the previous generation’s C6 ZR1 model (3,324 lb (1,508 kg)). The ZR1 C6 weight included a supercharger and intercooler on its 6.2 litre engine. Chevrolet announced the C7 Z06 at the 2014 Detroit Auto Show. The 2015 Z06 Corvette has 650 bhp from the supercharged LT4 aluminium 6.2L V-8 engine. The final C7 generation cars were produced in 2019.
CITROEN
It was nice to see examples of the legendary 2CV here. There is a long history to this car, but it was only really with the relaunch of the model to the UK market in 1974 when interest here took off. Sales of the 2CV were reinvigorated by the 1974 oil crisis. The 2CV after this time became as much a youth lifestyle statement as a basic functional form of transport. This renewed popularity was encouraged by the Citroën “Raid” intercontinental endurance rallies of the 1970s where customers could participate by buying a new 2CV, fitted with a “P.O.” kit (Pays d’Outre-mer—overseas countries), to cope with thousands of miles of very poor or off-road routes. Because of new emission standards, in 1975 power was reduced from 28 hp to 25 hp. The round headlights were replaced by square ones, adjustable in height. A new plastic grille was fitted. In July 1975, a base model called the 2CV Spécial was introduced with the 435 cc engine. Between 1975 and 1990 under the name of AZKB “2CV Spécial” a drastically reduced trim basic version was sold, at first only in yellow and with an untreated black roof. Slimmer bumpers with stick-on tape rather than plastic strips and no overriders were fitted. It also had the earlier round headlights, last fitted in 1974. In order to keep the price as low as possible, Citroën removed the third side window, the ashtray, and virtually all trim from the car, while that which remained was greatly simplified, such as simple vinyl-clad door cards and exposed door catches rather than the plastic moulded trims found on the 2CV Club. Other 2CVs shared their instruments with the Dyane and H-Van but the Spécial had a much smaller square speedometer also incorporating the fuel gauge, originally fitted to the 2CV in the mid-1960s and then discontinued. The model also had a revised (and cheaper-to-make) plastic version of the 1960s two-spoke steering wheel instead of the one-spoke item from the Dyane, as found on the Club. From the 1978 Paris Motor Show the Spécial regained third side windows, and was available in red and white; beginning in mid-1979 the 602 cc engine was installed. In June 1981 the Spécial E arrived; this model had a standard centrifugal clutch and particularly low urban fuel consumption. By 1980 the boost to 2CV sales across Europe delivered by the 1973 Energy Crisis had begun to wear off and there was a whole new generation of superminis and economy cars available from European and Japanese manufacturers. Citroën itself now had the Visa available. Peak annual production for 2CVs was reached in 1974 (163,143 cars) but by 1980 this had dropped to 89,994 and by 1983 would stand at just 59,673. Nonetheless the car remained profitable for PSA to produce on account of its tooling and set-up costs being amortised many years before and it could share major parts with more popular or profitable models such as the Visa and Acadiane. As part of this rationalisation in 1981 the Spécial was fitted as standard with the 602 cc engine, although the 435 cc version remained available to special order in some European countries until stocks were used up. Also in 1981 a yellow 2CV6 was driven by James Bond (Roger Moore) in the 1981 film For Your Eyes Only. The car in the film was fitted with the flat-4 engine from a Citroën GS which more than doubled the power. In one scene the ultra light 2CV tips over and is quickly righted by hand. Citroën launched a special edition 2CV “007” to coincide with the film; it was fitted with the standard engine and painted yellow with “007” on the front doors and fake bullet hole stickers. In 1982 all 2CV models got inboard front disc brakes, which also used LHM fluid instead of conventional brake fluid—the same as was found in the larger Citroën models with hydropneumatic suspension. In late 1986 Citroën introduced the Visa’s replacement, the AX. This was widely regarded as a superior car to the Visa and took many of the remaining 2CV sales in France following its introduction. From 1986 to 1987 2CV production fell by 20 per cent to just 43,255 cars. Of that total over 12,500 went to West Germany and 7212 went to the UK. France was now the third-largest market for 2CVs, taking 7045 cars that year. It was estimated that Citroën was now selling the 2CV at a loss in the French market, but that it was still profitable in other European countries. The peak of 2CV sales in the United Kingdom would be reached in 1986, thanks to the introduction of the popular Dolly special edition (see below)—7520 new 2CVs were registered in Britain that year. This year saw the discontinuation of the Club, which was by then the only 2CV model to retain the rectangular headlamps. This left the Spécial as the only regular 2CV model, alongside the more fashion-orientated Dolly, Charleston and the other special editions. In 1988, production ended in France after 40 years. The factory at Levallois-Perret had been the global centre for 2CV production since 1948 but was outdated, inefficient and widely criticised for its poor working conditions. The last French-built 2CV was made on February 25. In recognition of the event, the last 2CV built at Levallois was a basic Spécial in a non-standard grey colour—the same shade as worn by the very first 2CVs. Production of the 2CV would continue at the smaller-capacity but more modern Mangualde plant in Portugal. In 1989 the first European emission standards were introduced voluntarily by a number of European nations, ahead of the legal deadline of July 1992. This meant that the 2CV was withdrawn from sale in Austria, Denmark, Italy, Spain, Sweden, Switzerland and The Netherlands—the latter one of the car’s largest remaining markets. That year the three leading markets for the 2CV were West Germany (7866), France (5231) and the UK (3200). The last 2CV was built at Mangualde on 27 July 1990—it was a specially-prepared Charleston model. Only 42,365 2CVs were built in Portugal in the two years following the end of French production. Portuguese-built cars, especially those from when production was winding down, have a reputation in the UK for being much less well made and more prone to corrosion than those made in France. According to Citroën, the Portuguese plant was more up-to-date than the one in Levallois near Paris, and Portuguese 2CV manufacturing was to higher quality standards. As of October 2016, 3,025 remained in service in the UK. Seen here were an early car and a beachcomber limited edition car from the early 1980s.
The C6 was inspired by the Citroën C6 Lignage prototype which was first shown at the Geneva Motor Show in the spring of 1999. When shown, it was clear that this was a potential replacement for the XM, and Citroën was intent on launching it before the end of 2000. It took rather longer than that, though, with the production C6 not being launched until 2005, four years later than Citroën had originally planned and five years after the XM had ceased production. In appearance, it was not very different form the C6 Lignage concept, though it did lack the rear suicide doors. Intended to compete against the might of the German executive triumvirate of E Class, 5 Series and A6, as well as be a flagship French model, the C6 was launched with the choice of a 3.0 litre V6 petrol engine producing 208hp or a 2.7 litre V6 HDi diesel producing 201 hp (shared with the Jaguar models of the time. In October 2006 a 2.2 litre 4 cylinder HDi producing 168hp joined the range and in June 2009 the V6 diesel unit was enlarged to 3 litres and now producing 237 hp. Few other changes were made to the car during its product life. Despite the looks, the C6 was a conventional saloon, with a boot lid, as opposed to a hatchback (just as the earlier CX had been). Citroën hoped that as well as its undoubted elegance, the C6’s selling points would be its innovative technology, which included a head-up display, a lane departure warning system, xenon directional headlamps (also available on the Citroën C4 and Citroën C5), and the Hydractive 3+ suspension with electronically controlled springing and damping which gave the car a “magic carpet” like ride, and a rear spoiler which automatically adjusted to speed and braking. On launch, the press used phrases such as “spaceship that rides on air”, “charmingly idiosyncratic” and “refreshingly different”. Unsurprisingly, the C6 immediately became a prominent vehicle among the fleet of executive cars of the Élysée Palace. Former Presidents of France, Jacques Chirac & Nicolas Sarkozy, have chosen the Citroën C6 as their official car. Chirac, in particular, used a pre-series car before the model was introduced. But finding buyers among the general public proved more difficult. At launch sales expectations across the model’s lifespan were given as 20,000 per year, but when production ended on 19 December 2012, only 23,384 units built over a 7 year period.
DODGE
This was the other car brought along by Unity of Oxford, a Challenger HellCat.
FERRARI
Introduced at the 1985 Frankfurt Show alongside the Mondial 3.2 series, the Ferrari 328 GTB and GTS (Type F106) were the successors to the Ferrari 308 GTB and GTS which had first been seen in October 1975. While mechanically still based on the 308 GTB and GTS respectively, small modifications were made to the body style and engine, most notably an increase in engine displacement to 3185 cc for increased power and torque output. As had been the case for a generation of the smaller Ferraris, the model name referred to the total cubic capacity of the engine, 3.2 litres, and 8 for the number of cylinders. Essentially the new model was a revised and updated version of the 308 GTS, which had survived for eight years without any radical change to the overall shape, albeit with various changes to the 3-litre engine. The 328 model presented a softening of the wedge profile of its predecessor, with a redesigned nose that had a more rounded shape, which was complemented by similar treatment to the tail valance panel. The revised nose and tail sections featured body colour bumpers integral with the valance panels, which reflected the work done concurrently to present the Mondial 3.2 models, with which they also shared a similar radiator grille and front light assembly layout. Thus all the eight-cylinder cars in the range shared fairly unified front and rear aspects, providing a homogeneous family image. The exhaust air louvres behind the retractable headlight pods on the 308 series disappeared, coupled with an increase in the size of the front lid radiator exhaust air louvre, which had been introduced on the 308 Quattrovalvole models, whilst a new style and position of exterior door catch was also provided. The interior trim also had a thorough overhaul, with new designs for the seat panel upholstery and stitching, revised door panels and pulls, together with more modern switchgear, which complemented the external updating details. Optional equipment available was air conditioning, metallic paint, Pirelli P7 tyres, a leather dashboard, leather headlining to the removable roof panel plus rear window surround, and a rear aerofoil (standard on Japanese market models). In the middle of 1988 ABS brakes were made available as an option, which necessitated a redesign of the suspension geometry to provide negative offset. This in turn meant that the road wheel design was changed to accommodate this feature. The original flat spoke “star” wheels became a convex design, in the style as fitted to the 3.2 Mondial models, whether ABS was fitted or not. The main European market 328 GTS models had a tubular chassis with a factory type reference F 106 MS 100. Disc brakes, with independent suspension via wishbones, coil springs, and hydraulic shock absorbers, were provided all round, with front and rear anti roll bars. There were various world market models, each having slight differences, with right and left hand drive available. The V8 engine was essentially of the same design as that used in the 308 Quattrovalvole model, with an increase in capacity to 3185 cc. The engine retained the Bosch K-Jetronic fuel injection system of its predecessor, but was fitted with a Marelli MED 806 A electronic ignition system, to produce a claimed power output of 270 bhp at 7000 rpm. As with the preceding 308 models the engine was mounted in unit with the all synchromesh five-speed manual transmission assembly, which was below, and to the rear of the engine’s sump. The 328 GTS continued in production for four years, until replaced by the 348 ts model in the autumn of 1989, during which time 6068 examples were produced, GTS production outnumbering the GTB (1344 produced) version almost five to one.
With styling that had a close link to the Testarossa, the next V8 Ferrari to be launched, in 1989, was the 348, as a replacement for the 328 GTB/GTS models, and there were several examples of this model here. At launch, the 348 series were not that enthusiastically received by the press who found much to complain about. The 348’s styling differed from previous models with straked side air intakes and rectangular taillights resembling the Testarossa. Launched in two models, a coupe badged 348 tb (Trasversale Berlinetta) and targa roofed 348 ts (Targa), these were soon joined by a fully open car, the 348 Spider. All featured a normally aspirated 3.4-litre version of the quad-cam, four-valve-per-cylinder V8 engine. As with its predecessors, the model number was derived from this configuration, with the first two digits being the displacement and the third being the number of cylinders. The engine, which produced 300 hp was mounted longitudinally and coupled to a transverse manual gearbox, like the Mondial t with which the 348 shared many components. This was a significant change for Ferrari, with most previous small Ferraris using a transverse engine with longitudinal transmission. The “T” in the model name 348 tb and ts refers to the transverse position of the gearbox. The 348 was fitted with dual-computer engine management using twin Bosch Motronic ECUs, double-redundant anti-lock brakes, and self-diagnosing air conditioning and heating systems. Late versions (1993 and beyond) have Japanese-made starter motors and Nippondenso power generators to improve reliability, as well as the battery located within the front left fender for better weight distribution. Similar to the Testarossa but departing from the BB 512 and 308/328, the oil and coolant radiators were relocated from the nose to the sides, widening the waist of the car substantially, but making the cabin much easier to cool since hoses routing warm water no longer ran underneath the cabin as in the older front-radiator cars. This also had the side effect of making the doors very wide. The 348 was equipped with a dry-sump oil system to prevent oil starvation at high speeds and during hard cornering. The oil level can only be accurately checked on the dipstick when the motor is running due to this setup. The 348 was fitted with adjustable ride-height suspension and a removable rear sub-frame to speed up the removal of the engine for maintenance. Despite trenchant criticism of the car, especially its handling, 2,895 examples of the 348 tb and 4,230 of the 348 ts were produced.
After a gap of some years, Ferrari added a 4 seater V8 model to the range at the 2008 Paris Motor Show, with the California. According to industry rumours, the California originally started as a concept for a new Maserati, but the resulting expense to produce the car led the Fiat Group to badge it as a Ferrari in order to justify the high cost of purchase; the company denies this, however. The California heralded a number of firsts for Ferrari: the first front engined Ferrari with a V8; te first to feature a 7-speed dual-clutch transmission; the first with a folding metal roof; the first with multi-link rear suspension; and the first with direct petrol injection. Bosch produced the direct injection system. The engine displaces 4,297 cc, and used direct injection. It delivered 453 bhp at 7,750 rpm; its maximum torque produced was 358 lbf·ft at 5,000 rpm. The resulting 106 bhp per litre of engine displacement is one of the highest for a naturally aspirated engine, as other manufacturers have used supercharging or turbocharging to reach similar power levels. Ferrari spent over 1,000 hours in the wind tunnel with a one-third-scale model of the California perfecting its aerodynamics. With the top up, the California has a drag coefficient of Cd=0.32, making it the most aerodynamic Ferrari ever made until the introduction of the Ferrari F12 Berlinetta. Throughout the California’s production, only 3 cars were built with manual transmission, including one order from the UK. On 15 February 2012, Ferrari announced an upgrade, which was lighter and more powerful. Changes include reducing body weight by 30 kg (66 lb), increased power by output of 30 PS and 11 lbf·ft, acceleration from 0–100 km/h (62 mph) time reduced to 3.8 seconds, introduction of Handling Speciale package and elimination of the manual transmission option. The car was released at the 2012 Geneva Motor Show as a 2012 model in Europe. To give the clients a more dynamic driving experience, an optional HS (Handling Speciale) package was developed as part of the update. It can be recognised by a silver coloured grille and ventilation blisters behind the front wheel wells. The HS package includes Delphi MagneRide magnetorheological dampers controlled by an ECU with 50% faster response time running patented Ferrari software, stiffer springs for more precise body control and a steering rack with a 9 per cent quicker steering ratio (2.3 turns lock to lock as opposed to the standard rack’s 2.5). A more substantive update came in 2014, with the launch of the California T, which remains in production. It featured new sheetmetal, a new interior, a revised chassis and a new turbocharged powertrain.
The Ferrari Portofino (Type F164) is a grand touring sports car. It is a two-door 2+2 hard top convertible, with a 3.9 L twin-turbo V8 engine and a 0–60 mph time of 3.5 seconds. The car is named after the village of Portofino on the “Italian Riviera” and succeeds the company’s previous V8 grand tourer, the California T. The car was unveiled at the 2017 Frankfurt Motor Show. The 2020 Ferrari Roma coupe is based on the Portofino. A convertible version of the Roma was unveiled in 2023 to replace the Portofino. The Ferrari Portofino was unveiled on the Italian Riviera in the village of Portofino at two exclusive evenings on 7 and 8 September 2017, at which Piero Ferrari, Sergio Marchionne, Sebastian Vettel, and Giancarlo Fisichella were present. It was also shown at Maranello on September 9 and 10 during the Ferrari 70th Anniversary celebration. By the end of 2017, the Portofino was unveiled in Asia, namely China and Japan, where China is said to be a big market for the car. In Japan, the vehicle was initially private-previewed in November, before its official debut in February 2018. Prices in Japan start from JPY25,300,000. Prices in the U.S. start from $215,000. In Hong Kong, the Portofino was launched in late March 2018, making it the third time in Ferrari’s history to launch a new car in the Hong Kong’s Peninsula Hotel (Enzo in 2003, followed by FF in 2010). Unlike previous occasions where the vehicle launch occurred in only one part of the ground floor lobby, the Portofino’s launch occupied the hotel’s entire ground floor area, where a few other Ferrari models were also parked outside the drop-off area, and creative lighting featuring the Ferrari’s Prancing Horse logo was also projected on the hotel’s exterior walls. A China-spec, left-hand drive model was displayed, which features a simplified Chinese menu display—a rare move for Ferrari as not all Chinese-speaking Asian regions would receive a Chinese language menu. Pricing for the Portofino in Hong Kong (as of April 2018) starts from HK$3.5M, with deliveries scheduled later in the year. A right-hand drive model was first spotted at the city’s 488 Pista launch event in late June 2018. The chassis of the Portofino is made of 12 different aluminium alloys with much of its components now being integrated. The A-pillar of its predecessor consisted of 21 separate components but it is now a single piece in the Portofino. Hollow castings allow for increased structural rigidity, increasing it by 35% over its predecessor, the Ferrari California T. Its body has drag coefficient of Cd=0.312. Weight saving has been kept in focus while the development of the Portofino was carried out. Ferrari engineers managed to shave weight from the powertrain, dashboard structure, air-conditioning and heating and electronic systems of the car resulting in a weight of 1,664 kg (3,668 lb), making the car 80 kg (176 lb) lighter than its predecessor. The engine, a 3,855 cc Ferrari F154BE twin-turbocharged V8, is the same as in the Ferrari GTC4Lusso T, but yields a slightly de-tuned power output of 592 bhp (600 PS) at 7,500 rpm and 760 Nm (561 lb/ft) of torque at 3,000 to 5,250 rpm. Changes to the engine include a 10% pressure increase in the combustion chamber, revised connecting rods and pistons and a single cast exhaust manifold. The car retains the 7-speed dual clutch transmission from its predecessor but features a new software to allow for faster gear shifts. The exhaust system has been tweaked to give the car a proper sound note while maintaining its grand touring nature, featuring an adjustable electric bypass valve that monitors the engine’s sound according to driving conditions. The Portofino can accelerate from 0–100 km/h (0–62 mph) in 3.5 seconds, 0–200 km/h (0–124 mph) in 10.8 seconds and can attain a top speed of 320 km/h (199 mph). The Portofino features optional magnetorheological dampers, a carryover from the California, with an improved software to maintain good ride quality even though having a stiffer suspension system than the California. Like the company’s V12 grand tourer 812 Superfast, the Portofino features an electrically assisted power steering. Both the suspension system and steering become increasingly responsive when the car is in sports mode. The interior of the Portofino was developed after taking input from various clients. The rear seats have increased legroom (by 5 cm) and the infotainment system is more advanced and easier to use, featuring a 10.2-inch display screen in the centre console with optional Apple CarPlay functionality, as in its predecessor. The air conditioning system has been refined as well and is now 25% faster and 50% quieter than the California’s. On 16 September 2020, Ferrari launched the Portofino M (Modificata or Modified). The power was increased to 612 bhp (620 PS) and was released in the middle of 2021.
FIAT
Developed as the Tipo 175, the Coupe was introduced at the Brussels Motor Show in 1993. It is perhaps best remembered for its distinctive, angular design, with unique scalloped side panels. The body was designed by Chris Bangle from Centro Stile Fiat, while the interior was designed by Pininfarina, and the car media headlines in auto magazines during 1992 after several spy shots were taken revealing the car on test. On its launch in 1993, the Coupé was available with a four-cylinder, 2.0 litre 16V engine, in both turbo (190 PS) and normally aspirated (139 PS) versions. Both engines were later versions of Fiat’s twin-cam design and inherited from the Lancia Delta Integrale. 1996 brought in a 1.8 litre 131 PS 16V engine (not available in the UK), along with a 2.0-litre 5-cylinder 20V (147 PS), and a 5-cylinder 2.0-litre 20V turbo (220 PS). The turbocharged 16 and 20 valve versions were equipped with a very efficient Viscodrive limited-slip differential to counter the understeer that plagues most powerful front wheel drive cars. Additionally, the coupe featured independent suspension all round: at the front MacPherson struts and lower wishbones anchored to an auxiliary crossbeam, offset coil springs and anti-roll bar; at the rear, trailing arms mounted on an auxiliary subframe, coil springs and an anti-roll bar. The car was well received at launch, and the 5 cylinder engines just made it even better, with sales increasing slightly for a couple of years, but then they started to drop off, as Coupe models in general fell from favour. 1998 saw the release of the Limited Edition which featured red Brembo brake calipers at the front and standard red calipers at the back, a body kit, push-button start, six-speed gearbox, strut brace to make the chassis more rigid and Recaro seats with red leather inserts which offered better support than the standard 20VT seats. The LE was produced in Black, Red, Vinci Grey (metallic), Crono Grey and Steel Grey (metallic). The bodywork of the LE also benefited from titanium coloured insert around the light bezels and the wing mirrors. Each Limited Edition (‘LE’) Coupé was manufactured with a badge located by the rear-view mirror which contained that car’s unique number (it is rumoured that Michael Schumacher was the original owner of LE No. 0001, however when the question was raised to him personally he confirmed he had owned one, but a red one, while LE No. 0001 is a Crono Grey one). Originally a spokesman from Fiat stated only approximately 300 Limited Editions would be built. The final number was much higher, perhaps as many as 1400. This angered many of the owners of the original 300 cars and almost certainly impacted residual values. The original number however was quoted by a Fiat UK spokesman, so probably that number only applied to the UK market. The numbered plaque on every Coupe features enough space for 4 numbers. In 1998 the 2.0-litre 5-cylinder 20V got a Variable Inlet System which brought the power to 154 PS. The 2.0-litre 5-cylinder 20V Turbo received a 6-speed gearbox and a large, satin gloss push starter button. In addition, the sills of the Turbo version were colour matched with the body paintwork. Fiat also released the 2.0 litre 5 cylinder Turbo ‘Plus’. This model came with an option kit that made it virtually identical to the LE, except for minor interior design changes and without the unique identification badge of the LE. In 2000 Fiat released another special version of the Fiat Coupé. Featuring the 1.8-litre engine, it was only available throughout mainland Europe and marketed as an elegant and affordable edition. Fiat also made changes throughout the rest of the range: new seats, side skirts and wheels for the 2.0-litre 20V model, ‘Plus’ edition wheels on turbo models and Fiat manufactured seats on the ‘Plus’ that were virtually identical to the original Plus Recaro seats with the addition of extra airbags. The 2.0-litre 20V Turbo model is capable of accelerating from 0–100 km/h (0 to 62 mph) in 6.5 seconds and 6.3 seconds for the 20v Turbo Plus, with a top speed of 240 km/h (149 mph) or 250 km/h (155 mph) with later 6-speed gearbox. When production finally stopped in September 2000, a total number of 72,762 units had been produced. There are still well over 1000 units in the UK, so this is a Fiat which has proved durable as well as good to drive, and to look at.
After the 124 Spider ended production, there was a wait of over 10 years before Fiat would produce another open-topped car. Developed between 1990 and 1994 under the project name Tipo B Spider 176, the Barchetta, a small open topped rival to the Mazda MX5 was designed by Andreas Zapatinas and Alessandro Cavazza under the supervision of Peter Barrett Davis and other car designers at the Fiat Centro Stile, and prototyping was carried out by Stola. Production began in February 1995 and lasted until June 2005, with a brief pause due to the bankruptcy of coachbuilder Maggiora. The Barchetta was based on the chassis of the Mark 1 Fiat Punto. The Barchetta has 1,747 cc DOHC petrol engine fitted with variable camshaft timing, used for the first time in a Fiat production car, after being patented in 1970. The engine has 132 PS, and with a weight of 1056 kg (2328 lb) without air conditioning can accelerate to 100 km/h in 8.9 seconds and on to a top speed of 200 km/h (124 mph). It came in various trim levels which offered different features, for example, diamond cross stitch – patterned red leather instead of the standard black leather or fabric seats, alloy wheels instead of steel wheels, or fog-lights as an option. Arguably one of the biggest external cosmetic changes was made by the addition of the third brake light, first introduced by Fiat on the Lido and Riviera in 2000, and on sub models thereafter. The bodies were welded at ILCAS in Sparone Canavese, and final assembly was done in Chivasso by the coachbuilder Maggiora. After Maggiora’s bankruptcy in 2002, Fiat relocated production of the Barchetta to its Mirafiori plant and resumed production two years later. The most notable changes were the revised front spoiler and rear bumper. Production of the car eventually stopped in June 2005, with around 57,700 cars having been built. Production of the Barchetta was limited to LHD cars only, even though the car was marketed and sold in two RHD markets, the United Kingdom and Japan.
FORD
Well known now, thanks to a starring role in the Harry Potter films is the Anglia 105E, a model that Ford launched in October 1959. It was a basic car, even in the better selling De Luxe version, so it was not surprising that Ford introduced a more powerful and luxurious model from 1962, the 123E Anglia Super. It had a larger 1198 cc engine and other refinements. Towards the end of the run Ford experimented with two colours of metallic paint on the Anglia, “Blue Mink” and “Venetian Gold”. 250 were made in the Blue and 500 were made in the Gold. Anglia saloons were provided with various levels of trim. The base model was the Standard, and this sported no chromework, painted rear light surrounds, steel slatted grille and limited interior trim. The deluxe had a chrome side strip, chrome rear lights, glovebox lid, sun visor and full width chrome radiator grille while the top of the range, also seen here, was the Super, which had twin chrome side strips, contrasting coloured roof and side flash, plusher interior trim, together with the 1198 cc engine and a gearbox with synchromesh on first gear.
Using the project name of “Archbishop”, management at Ford of Britain in Dagenham created a family-sized car which they could sell in large numbers. The chief designer was Roy Brown Jr., the designer of the Edsel, who had been banished to Dagenham following the failure of that car. The car was designed to be economical, cheap to run and easy and inexpensive to produce in Britain. The front-wheel drive configuration used by Ford of Germany for the new Ford Taunus P4, a similarly sized model, was rejected in favour of traditional rear-wheel drive layout. Aimed at buyers of the Morris Oxford Farina and Vauxhall Victor, the car was launched as the Consul Cortina was launched on 20 September 1962. with a 1,198 cc three-bearing engine, which was an enlarged version of the 997 cc engine then fitted in the Ford Anglia. A few months later, in January 1963, the Cortina Super was announced with a five-bearing 1,498 cc engine. Versions of the larger engine found their way into subsequent variations, including the Cortina GT which appeared in spring 1963 with lowered suspension and engine tuned to give a claimed output of 78 bhp ahead of the 60 bhp claimed for the Cortina 1500 Super. The engines used across the Mark I range were of identical design, differing only in capacity and setup. The formula used was a four-cylinder pushrod design that came to be known as the “pre-crossflow” version as both inlet and exhaust ports were located on the same side of the head. The most powerful version of this engine (used in the GT Cortina) was 1,498 cc and produced 78 bhp. This engine contained a different camshaft profile, a different cast of head featuring larger ports, tubular exhaust headers and a Weber double barrel carburettor. Advertising of the revised version, which appeared at the London Motor Show in October 1964, and which dropped the Consul name from its official designation, made much of the newly introduced “Aeroflow” through-flow ventilation, evidenced by the extractor vents on the rear pillars. A subsequent test on a warm day involving the four different Cortina models manufactured between 1964 and 1979 determined that the air delivery from the simple eyeball outlets on the 1964 Mark I Cortina was actually greater than that on the Mark II, the Mark III or the Mark IV. The dashboard, instruments and controls were revised, for the second time, having already been reworked in October 1963 when round instruments replaced the strip speedometer with which the car had been launched: twelve years later, however, the painted steel dashboard, its “knobs scattered all over the place and its heater controls stuck underneath as a very obvious afterthought” on the 1964 Mark I Cortina was felt to have aged much less well than the car’s ventilation system. It was also in 1964 that front disc brakes became standard across the range. The Mark 1 Cortina was available as a two-door and four-door saloon, as well as in five-door estate (from March 1963) forms. Standard, Deluxe, Super, and GT trims were offered but not across all body styles. Early Standard models featured a simple body coloured front grille, earning it the nickname ‘Ironbar’. Since this version cost almost the same as the better equipped Deluxe it sold poorly and is very rare today. Options included heater and bench seat with column gearchange. Super versions of the estates offered the option of simulated wood side and tailgate trim. In an early example of product placement many examples of the brand new Cortina featured as “Glamcabs” in the comedy film Carry On Cabby. This one has been made to look like a Lotus Cortina, but with 4 doors, it certainly is not a genuine one.
From July 1971, a locally designed pick-up truck version (known in Afrikaans as a “bakkie”) was also offered, and this remained in production even after the Cortina was replaced by the Sierra. The Mark V-based Cortina Pickup was exported to the UK, in a lengthened wheelbase form, as the Ford P100. This pick-up was launched in the UK in 1982, the year that the standard Cortina was being replaced by the Sierra. This version of the P100 was sold until 1988, when Ford divested from South Africa, and a Portuguese-built Sierra pick-up was introduced in its place, still using the P100 name.
The squarer-styled Escort Mark II version appeared in January 1975. The first production models had rolled off the production lines on 2 December 1974. Unlike the first Escort (which was developed by Ford of Britain), the second generation was developed jointly between the UK and Ford of Germany. Codenamed “Brenda” during its development, it used the same mechanical components as the Mark I. The 940 cc engine was still offered in Italy where the smaller engine attracted tax advantages, but in the other larger European markets in Europe it was unavailable. The estate and van versions used the same panelwork as the Mark I, but with the Mark II front end and interior. The car used a revised underbody, which had been introduced as a running change during the last six months production of the Mark I. Rear suspension still sat on leaf springs though some contemporaries such as the Hillman Avenger had moved on to coil springs. The car came in for criticism for its lack of oddments space, with a glove compartment only available on higher end models, and its stalk-mounted horn. The “L” and “GL” models (2-door, 4-door, estate) were in the mainstream private sector, the “Sport”, “RS Mexico”, and “RS2000” in the performance market, the “Ghia” (2-door, 4-door) for a hitherto untapped small car luxury market, and “base / Popular” models for the bottom end. Panel-van versions catered to the commercial sector. The 1598 cc engine in the 1975 1.6 Ghia produced 84 hp with 92 ft·lbft torque and weighed 955 kg (2105 lb). A cosmetic update was given in 1978 with L models gaining the square headlights (previously exclusive to the GL and Ghia variants) and there was an upgrade in interior and exterior specification for some models. Underneath a wider front track was given. In 1979 and 1980 three special edition Escorts were launched: the Linnet, Harrier and Goldcrest. Production ended in Britain in August 1980, other countries following soon after
The fourth-generation Cortina was a more conventional design than its predecessor, but this was largely appreciated by fleet buyers. Generally a rebody of the Mark III, as an integration of Ford’s model range, this car was really a rebadged Ford Taunus. However, although the updated Taunus was introduced to Continental Europe in January 1976, Ford were able to continue selling the Cortina Mark III in undiminished numbers in the UK until they were ready to launch its successor as the Dagenham built Cortina Mark IV, which went on sale on 29 September 1976. Many parts were carried over, most notably the running gear. The raised driving position and the new instrument panel had, along with some of the suspension upgrades, already been introduced to the Cortina Mark III in 1975, so that from the driving position the new car looked much more familiar to owners of recent existing Cortinas than from the outside. Cinema audiences received an early glimpse of the new Cortina (or Taunus) through its appearance in the James Bond The Spy Who Loved Me 1977 film. The most obvious change was the new body, which achieved the marketing department objective of larger windows giving a better view out and a brighter feel to the cabin, but at the expense of body weight which was increased, albeit only marginally, by approximately 30 lb. Ford claimed an overall increase in window area of some 15%, with “40% better visibility” through the wider deeper back window. Regardless of how these figures were computed, there must have been substantial weight-saving gains through reduced steel usage in the design, given the unavoidable extra weight of glass. This series spawned the first Ghia top-of-the-range model, which replaced the 2000E. The 2.3 litre Ford Cologne V6 engine was introduced in 1977 as an engine above the 2.0 litre Pinto engine, already a staple of the Capri and Granada ranges. However, 2.3 litre Cortinas never sold particularly well in the UK. The Cologne V6 was certainly a much smoother and more refined power unit than the Pinto, but the V6 models were more expensive to fuel and insure and were only slightly faster, being about 0.5 seconds faster from 0–60 and having a top speed of about 109 mph compared to the 104 mph of the 2.0 litre models. The 2.0 litre Ford Cologne V6 engine continued to be offered on Taunus badged cars in parallel with the Pinto unit, and offers here an interesting comparison with the similarly sized in-line four-cylinder Pinto engine. The V6 with a lower compression ratio offered less power and less performance, needing over an extra second to reach 50 mph.It did, however, consume 12½% less fuel and was considered by motor journalists to be a far quieter and smoother unit. The 2.3 litre was available to the GL, S and Ghia variants. A 1.6 litre Ghia option was also introduced at the same time as the 2.3 litre V6 models in response to private and fleet buyers who wanted Ghia refinements with the improved fuel economy of the smaller 1.6 litre Pinto engine. Few cars were sold with the 1.6 litre engine though, the 2.0 litre Pinto was always by far the most common engine option for Ghia models. Two-door and four-door saloons and a five-door estate were offered with all other engines being carried over. However, at launch only 1.3 litre engined cars could be ordered in the UK with the two-door body, and then only with “standard” or “L” equipment packages. In practice, relatively few two-door Mark IV Cortinas were sold. In some markets, the two-door saloon was marketed as a coupe, but this was not the case in Britain. Ford already competed in the coupe sector in Europe with the Capri, which was particularly successful on the British market. There was a choice of base, L, GL, S and Ghia trims, again not universal to all engines and body styles. Rostyle wheels were fitted as standard to all Mark IV GL, S and Ghia models, with alloy wheels available as an extra cost option. The dashboard was carried over intact from the last of the Mark III Cortinas while the estate used the rear body pressings of the previous 1970 release Taunus. Despite its status as Britain’s bestselling car throughout its production run the Mark IV is now the rarest Cortina, with poor rustproofing and the model’s popularity with banger racers cited as being the main reasons for its demise.
The Capri Mk III was referred to internally as “Project Carla”, and although little more than a substantial update of the Capri II, it was often referred to as the Mk III. The first cars were available in March 1978, but failed to halt a terminal decline in sales. The concept of a heavily facelifted Capri II was shown at the 1976 Geneva show: a Capri II with a front very similar to the Escort RS2000 (with four headlamps and black slatted grille), and with a rear spoiler, essentially previewed the model some time before launch. The new styling cues, most notably the black “Aeroflow” grille (first used on the Mk I Fiesta) and the “sawtooth” rear lamp lenses echoed the new design language being introduced at that time by Ford of Europe’s chief stylist Uwe Bahnsen across the entire range. Similar styling elements were subsequently introduced in the 1979 Cortina 80, 1980 Escort Mk III and the 1981 Granada Mk IIb. In addition, the Mk III featured improved aerodynamics, leading to improved performance and economy over the Mk II and the trademark quad headlamps were introduced. At launch the existing engine and transmission combinations of the Capri II were carried over, with the 3.0 S model regarded as the most desirable model although the softer, more luxurious Ghia derivative with automatic, rather than manual transmission, was the bigger seller of the two V6-engined models. Ford began to focus their attention on the UK Capri market as sales declined, realising the car had something of a cult following there. Unlike sales of the contemporary 4-door Cortina, Capri sales in Britain were to private buyers who would demand less discounts than fleet buyers allowing higher margins with the coupé. Ford tried to maintain interest in 1977 with Ford Rallye Sport, Series X, “X Pack” options from the performance oriented RS parts range. Although expensive and slow selling these proved that the press would enthusiastically cover more developed Capris with higher performance. In early 1982, the Essex 3.0 V6 which had been the range topper since September 1969 was dropped, while a new sporty version debuted at the Geneva Motor Show, called the 2.8 Injection. The new model was the first regular model since the RS2600 to use fuel injection. Power rose to a claimed 160 PS, even though tests showed the real figure was closer to 150 PS, giving a top speed of 210 km/h (130 mph), but the car still had a standard four-speed gearbox. The Capri 2.8 Injection breathed new life into the range and kept the car in production 2–3 years longer than Ford had planned. The four-speed gearbox was replaced with a five-speed unit early on – at the same time Ford swapped the dated looking chequered seats for more luxurious looking velour trim. A more substantial upgrade was introduced in 1984 with the Capri Injection Special. This development used half leather seating and included a limited slip differential. Externally the car could be easily distinguished by seven spoke RS wheels (without the customary “RS” logo since this was not an RS vehicle) and colour-coded grille and headlamp surrounds. At the same time the 2.0 Capri was rationalised to one model, the 2.0 S, which simultaneously adopted a mildly modified suspension from the Capri Injection. The 1.6 model was also reduced to a single model, the 1.6 LS. The car was finally deleted at the end of 1986, 1.9 million cars having been made over 18 years, and having been sold only in the UK for the final months of production.
Codenamed “Erika”, the third generation Escort was launched in September 1980. The car, Ford Europe’s second front-wheel drive model, was originally meant to be called the “Ford Erika”, but ended up retaining the Escort name. Some say this was due to British consumers’ reluctance to let go of the “Escort” badge (as the first two generations of Escort had been among Britain’s most popular cars, with the Mk II being Britain’s best selling car in 1976), and some say that the Germans were concerned with the song Erika, which was a famous battlemarch of the German armed forces during World War II. The North American Escort introduced at this time was a distantly related derivative. Sales in the United Kingdom increased, and by 1982 it had overtaken the ageing Cortina as the nation’s best-selling car, beginning an eight-year run as Britain’s best selling car. Unlike the Mark II, which had essentially been a reskin of the original 1968 platform, the Mark III was a completely new design, and was conceived as a hi-tech, high-efficiency vehicle which would compete with the Volkswagen Golf and Honda Civic – considered at the time the class benchmarks. The Mark III was therefore a major engineering and stylistic departure from the two previous models; the biggest changes being the adoption of front-wheel drive, the new hatchback body and the all-new CVH overhead camshaft engines. The suspension was fully independent all around, departing from the archaic leaf spring arrangement found on its predecessors and the bodyshell was on average, 75kg lighter than that of the Mk II, yet Ford claimed was stiffer than the outgoing car. Ford however, was conscious that loyal customers of the previous generation Escorts may be deterred by the Mk III’s advanced design, and hence the car was marketed in the United Kingdom with the strapline “Simple is Efficient”. It was Ford Europe’s second front-wheel drive model launch, the first being the smaller Fiesta in 1976. The car used Ford’s contemporary design language of the period with the black louvred radiator grille and straked rear lamp clusters, as well as introducing the aerodynamic “bustle-back” bootlid stump (trademarked by Ford as Aeroback) which would be further developed in the forthcoming Sierra and Scorpio; the stump was proven to reduce the car’s aerodynamic drag co-efficient significantly, which was a class-leading 0.38 at launch. New were the overhead camshaft CVH engines in 1.3 L and 1.6 L formats, with the older Ford Kent-based “Valencia” engine from the Fiesta powering the 1.1 L derivative, although there was a short-lived 1.1 version of the CVH engine sold in certain markets before it was discontinued in 1982. The Escort Mark III was voted European Car of the Year in 1981, fighting off stiff competition from Italy’s Fiat Panda and British Leyland’s Austin Metro. From launch, the car was available in base (Popular), L, GL, Ghia and XR3 trim. As was common for Ford during this period, there were different dashboard mouldings for “high” and “low” series trim levels. GL and above models had a slush-moulded dashboard with ‘soft feel’ covering, and faux chrome embellishment. Base and L specification models had a ‘hard feel’ injection moulded dashboard with fewer holes for switches – the base dashboard was a sub-variation of this which omitted the centre air vents, glovebox, side demister vents and speaker grille and only a two-position blower fan switch. These lead-in models were extremely basic even for their time; in addition to the aforementioned dashboard, they came with just partial door cards with no armrests, vinyl seats (cloth was an optional extra), and no rear parcel tray or push button tailgate release. Consequently, these models sold very poorly and most buyers opted for at least the L specification. From mid-1982, a five-speed manual gearbox was introduced across the range. This was now standard on the 1.6 L versions and could be specified as an option on most 1.3 L engines. A selection of features was available, either as standard fitment or optional extras depending on model, including a tilt-and-slide sunroof, central locking, and electric windows. All models except for base and L were fitted with a check-light system for low fuel, low oil, low coolant, low screenwash, and worn out brake pads. Power steering was not available on European Escorts although it was available on the US Escort. The 1983 model year saw the Ford ATX three-speed automatic transmission (developed primarily for the US version) becoming available on the 1.6 L engine, and the base models now had cloth seat trim as standard. The Escort estate was initially only available with three doors, but a five-door version was introduced in 1983. In that year, a saloon version of the Escort, the Orion, was launched. It used the same mechanicals as the hatchback, but had a more upmarket image and was not available with the smaller 1.1 L engine. It was also directed at buyers of the earlier Cortina, which had ceased production in 1982, with its Sierra successor not available as a saloon at the time. However, the car attracted criticism from the motoring press at launch due to its suspension, with positive camber on the front wheels and negative camber at the rear, giving rise to the Mark III’s infamous “knock-kneed” stance. The Mark III soon had a reputation for a harsh, unforgiving ride. In September 1983 the revised suspension mounts from the Escort-based Orion and the larger Sierra steering rack were introduced as running changes for the 1984 model year which also coincided with other minor upgrades across the range, which included revised trim and steering wheels, new style badging and improved sound systems across the range, whilst the austere base models were finally given the “L” specification dashboard and improved seat trim. Another engine, introduced in August 1983, was the diesel engine. Developed in Dagenham, it was remarkably economical for its time, and still is to this day, managing over 70 mpg. It was available on the L and GL models. However, the performance was worse than the 1.1 L petrol version, with only 54 bhp and a top speed of barely 90 mph (140 km/h) – which prompted Ford to eventually enlarge the engine to 1.8 L some years later in the facelifted Escort. The Mk III model (1980–1986), was the most common type of car on British roads in December 1989, with almost 1,500,000 examples registered. A convertible version, made by coachbuilder Karmann, appeared the same year as the five-door estate (1983). It was the first drop-top car produced by Ford Europe since the Corsair of the 1960s. The Escort Cabriolet was initially available in both XR3i and Ghia specification, but the Ghia variant was later dropped.
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. One car only was finished in black; it was built especially for Lady Diana. Ford facelifted the entire Escort range in January 1986, and a few months later, a revised Series 2 RS Turbo emerged, which adopted the styling changes of the less potent models, and the new dashboard, as well as undergoing a mechanical revision and the addition of more equipment including anti-lock brakes. The Series 2 cars were available in a wider range of colours.
The fourth version of the Ford Escort was launched in March 1986, with only a small number of changes. Although popularly regarded as a fourth generation model (and is popularly known as the “Mark IV”), internally within Ford it was regarded as a Mark III facelift and consequently carried the codename ‘Erika-86’. It was instantly recognisable as an updated version of the previous model, taking styling cues from the recently introduced Scorpio/Granada III – with a smooth style nose and the “straked” rear lamp clusters smoothed over. Internally the car had a revised interior, with new door cards, a completely new dashboard, switchgear and instrumentation, although the check-light system for low fuel, low oil, low coolant, low screenwash, and worn out brake pads was dropped. Optional new features included a mechanical anti‐lock braking system (standard on RS Turbo models), a fuel computer on fuel-injected models, and a heated windscreen. The main mechanical changes were the introduction of a ‘lean-burn’ 1.4 L CVH engine (replacing the previous 1.3 CVH) . A 1.3 L version of the Valencia overhead valve engine was introduced for the Popular and L specification models, in addition to the existing 1.1L version. A new subframe for mounting the powertrain was introduced to combat earlier criticisms of drivetrain refinement of the original car, as well as more tweaking to the suspension settings to address the long standing issues with the Escort’s damping and handling characteristics. Initially Chubb AVA lock barrels were fitted to the facelifted 1986 models but these were soon changed over to the Tibbe type as with the Ford Orion. These changes were welcome at a time when the Escort was faced with a host of new competitors; General Motors had brought out a new version of the Opel Kadett/Vauxhall Astra 18 months earlier, shortly after Volkswagen had introduced the Mk II Golf and British Leyland had launched the Austin Maestro, while the British-built Peugeot 309 had gone on sale just weeks before the updated Escort. All-new competitors from Fiat and Renault were just two years away. In 1987, an LX trim designation was introduced, situated between the L and GL models. That same year, the commercial line-up was expanded with a sedan delivery version of the 3-door station wagon bodyshell (with filled in rear windows and no back seats) known as the “Combi”, which sat below the existing van versions. The 1989 model year cars saw major changes to the engine line up, with the diesel engine being enlarged to 1.8 L. The entry level 1.1 L and 1.3 L models were updated with the redesigned HCS version of the Valencia engine developed for the Mk III Fiesta. On the 1.6 L CVH injection engines, a Ford developed electronic fuel injection system replaced the Bosch K-Jetronic fuel injection system in the XR3i and Orion Ghia injection. Other changes for the ’89 were the slightly altered front grille aperture (which was now common to both the Escort and Orion) whilst the Escort badge at the rear changed to look more modern as well as some minor trim revisions and equipment upgrades on all models – “L” models now had tinted glass and a sunroof as standard. Ford gave the Escort‐based Orion saloon a similar makeover. Carried over from the previous range was the 3-speed automatic which was ultimately replaced late in the production run with a variant of the CTX stepless gearbox as first used in the Fiesta a couple of years earlier. The 1990 model year saw equipment levels across the range improved substantially, with all but the base Popular models being fitted with a sunroof as standard, and the GL gaining electric windows and mirrors. Spring 1990 saw the final revisions – the Popular now gained a radio cassette and a 5-speed gearbox, whilst catalytic converters and central point fuel injection were now available on the 1.4 and 1.6 CVH engines.
A completely new Fiesta, codenamed BE-13 was unveiled at the end of 1988 and officially went on sale in February 1989. The car was based on a new platform ditching the old car’s rear beam axle for a semi-independent torsion beam arrangement and looked radically different, addressing the principal weakness of the previous generation – the lack of a 5-door derivative, something that was by then available in its major rivals such as the Fiat Uno, Peugeot 205 and 106 and Opel Corsa/Vauxhall Nova. The other main change was to the running gear – the improved HCS (High Compression Swirl) version of the Kent/Valencia powerplant. The CVH units from the second generation were carried over largely unmodified. The diesel engine was enlarged to a 1.8L capacity. As for sports models, the XR2i was launched in August 1989 with an eight-valve CVH (standing for “compound valve-angle hemispherical combustion chamber”) engine with 104 PS. This was the first Fiesta to have a fuel-injected engine. This was then replaced by a Zetec 16 valve version in 1992, which also saw the RS Turbo being supplanted by the RS1800 as the CVH engine was being phased out. The RS1800 shared its 1.8 litre Zetec fuel-injected engine with the 130 bhp version of the then current Ford Escort XR3i and had a top speed of 125 mph. The XR2i name was also dropped in early 1994, and the insurance-friendly “Si” badge appeared in its place on a slightly less sporty-looking model with either the 1.4 L PTE (a development of the CVH) or the 1.6 L Zetec engine.
The Ford Escort RS Cosworth is a sports derivative and rally homologation special of the fifth generation European Ford Escort. It was designed to qualify as a Group A car for the World Rally Championship, in which it competed between 1993 and 1998. It was available as a road car from 1992–96 in very limited numbers. Ford developed the car around the chassis and mechanicals of its spiritual predecessor, the Sierra Cosworth to accommodate the larger Cosworth engine and transmission, whilst clothing it in Escort body panels to make it resemble the standard car. Designed under the guidance of Rod Mansfield and John Wheeler of Ford’s SVO department, the styling was carried out during 1989, a year before the standard Escort was launched, by Stephen Harper at MGA Developments in Coventry. The spoiler was added by Frank Stephenson, who originally proposed a three-deck piece. The body tooling was created by coachbuilders Karmann at their facility in Rheine, Germany, where the cars were manufactured. Changes were made to the engine management system and a new turbocharger was fitted. Permanent four wheel drive with a 34/66% front/rear split came courtesy of an uprated five speed gearbox as used in the Sierra Cosworth. Recaro sports seats came as a standard fitment. Later production models were available without the oversize tail spoiler although by far the majority were still ordered with it. Like its Sierra predecessor, they are commonly nicknamed “Cossie” by enthusiasts. The car’s top speed was 150 mph, which rivalled lower-end supercars including the Audi Quattro, BMW M3, Nissan 300ZX and Toyota Supra, and comfortably outperformed traditional “hot hatchbacks” like the Volkswagen Golf GTI. It was much faster than the 126 mph which the Escort RS2000 and earlier Escort RS Turbo were capable of. Two versions were produced. The initial 2,500 units were “homologation specials” used to get the FIA accreditation for entry into the World Rally Championship. They were fitted with a Garrett T3/T04B turbocharger. Among these initial units, a handful were badged as Motorsport versions, these lacked certain refinements such as a sunroof and sound deadening. The initial cars included features that, although they made the Cosworth a more effective car, did not enhance it as a road vehicle, and once the rules were satisfied Ford attempted to make the car less temperamental and easier to drive under normal conditions. The second generation, starting production from late 1994, were fitted with a Garrett T25 turbocharger, a smaller unit which reduced turbo lag and increased usability in everyday driving situations. With these later models, the ‘whale tail’ spoiler became a delete option. The Escort Cosworth was a rare car, with 7,145 vehicles produced from the start of production on 19 February 1992 until the last car rolled out of the factory on 12 January 1996.
Ford played much the same guessing game about whether there would be an RS version of the third generation Focus as they had done with the earlier versions. Production of the regular cars started in late 2010, but it was not until the 2015 Geneva Motor Show before the production ready MKIII Ford Focus RS was unveiled. It came packing the turbocharged 2.3-litre inline-four engine found in the Mustang EcoBoost. In the Focus RS, the engine itself produces 350 hp. Power is sent to all four wheels via Ford’s all-new Torque-Vectoring All-Wheel-Drive system with a rear drive unit designed by GKN, as well as upgraded suspension and brakes. As well as that, the new Focus RS will be fitted with Drive Modes – including an industry-first Drift Mode that allows controlled oversteer drifts – and Launch Control. The RS will boast a model specific aerodynamic package that helps to differentiate it from other Focus models. The RS is capable of accelerating to 100 km/h (62 mph) in 4.7 seconds. Sales finally started in mid 2016, with long waiting lists having been created, though Ford did eventually catch up with expanded production levels allowing them to meet the demand
The Mustang gained a new lease of life with the retro-styled fifth generation car which was launched in early 2004. Although the model was never officially imported here, quite a few have come to the UK, some more standard than others. This is one such example.
HILLMAN
The Hunter is perhaps the best known of this range of cars that Rootes Group produced under several badge-engineered marques from 1966 to 1979. It is amongst the last Rootes designs, developed with no influence from future owner Chrysler. A substantial number of separate marque and model names applied to this single car platform. Some were given different model names to justify trim differences (Hillman GT, Hillman Estate Car) and to make things more complicated, from time to time all models were sold in some European markets under the Sunbeam marque (Sunbeam Sceptre for instance), and at other times used UK marque/model names. To add complication, Singer Gazelle/Vogue models were also sold in the UK for one season badged as Sunbeams after the Singer brand was withdrawn. The Arrow range was conceived in 1962. Following the Hillman Imp, consideration was given to developing a larger rear-engined car, but this concept was dismissed, and the engineering settled on for the new car was more conventional and closer to the layout of the existing Audax series (which included the previous Hillman Minx). With cash-strapped Rootes struggling amid continuing engine cooling problems with the Imp, which often resulted in warped cylinder heads, the cautious Arrow broke little new engineering ground. New parts were largely based on tried and tested Rootes components, using a new but strong 5-bearing version of the well-proven 1725 cc overhead valve petrol engine as a starting point which varied in output from 66 bhp to 88 bhp. The engine was inclined by a modest 15 degrees, to allow for a lower bonnet line and to enable packaging of the carburettors. This engine was further uprated by specialists Holbay, employing two Weber 40DCOE carburettors to produce 107 bhp for the Sunbeam Rapier H120 and Hillman Hunter GLS. A smaller 1500 cc engine was the standard for manual versions of the Hillman Minx and the Singer Gazelle, and the Hillman Hunter DeLuxe model which succeeded the Minx. Automatic models were all powered by the 1725 cc engine. Particular attention was paid to weight and cost to bring the vehicle in line with its natural competitors, including the Mark 2 Ford Cortina. For the first time in a Rootes car MacPherson strut suspension featured at the front, with a conventional live axle mounted on leaf springs at the rear. Other firsts for Rootes in the new car were curved side glass and flow-through ventilation. Manual transmissions were available in four-speed form with an optional Laycock de Normanville overdrive, or Borg-Warner automatic transmission, again as an option. Initially, the Borg Warner Type 35 3-speed automatic was offered, then the Type 45 four-speed automatic became available in 1973. The handbrake was situated between the driver’s seat and door rather than between the front seats. This followed the practice in the ‘Audax’ cars. The first Arrow model to be launched, the Hillman Hunter, was presented as a replacement for the Hillman Super Minx. The Hunter was lighter than its predecessor and the wheel-base of the new car was actually 2½ inches shorter than that of the old, but the length of the passenger cabin was nonetheless increased by moving the engine and the toe-board forwards. For the first two years there were few changes. However, in May 1968 power assisted brakes were made available as a factory fitted option. Hitherto this possibility had been offered only as a kit for retro-fitting: it was stated that the factory fitted servo-assistance, at a domestic market price slightly below £13, would be cheaper for customers. A mild facelift in 1970 gave new grilles to the various Hunter trim levels, and some derivatives gained a (then) more fashionable dashboard, exchanging wood for plastic, but the car remained fundamentally the same throughout its life. A more detailed facelift for 1972 brought a new all-plastic dashboard with deeply hooded round dials (earlier versions had either a strip speedometer or round dials in a flat dashboard for more expensive models like the Vogue), new steering wheel, plastic instead of metal air cleaner, reshaped squarer headlamps in a new grille and some engine tuning changes. For 1975, bumpers were enlarged and the tail lights were enclosed in a full-width anodised aluminium trim piece. Following the 1967 acquisition of Rootes by Chrysler, the Arrow derivatives were rationalised until only the Hillman Hunter version was left by 1976. From September 1977 it was re-badged as a Chrysler, which it was to be for the remaining 2 years of its life. Hunter production was switched in 1969 to Rootes’ troubled Imp plant in Linwood, from its original home of Ryton. Sales were lower after 1975 following the launch of the Chrysler Alpine, a similar sized car but with front-wheel drive and a hatchback bodystyle, at a time when rear-wheel drive saloons still dominated in this sector. Following the Hillman Avenger’s move to Linwood in 1976, the very last European Hunters were assembled in the Santry plant, Shanowen Road, Ireland from “complete knock down” (CKD) kits until production ended in 1979 – but no evidence exists to suggest that the Talbot badge was applied to any production Hunter following Chrysler Europe’s 1978 takeover by Peugeot, and the application of that badge to other Chrysler models sold on or after 1 August 1979. The final Chrysler Hunter was built in September 1979 in Porirua, New Zealand, and was donated to the Southward Museum. In 2000 the Museum sold the car to a private collector
HONDA
It is more than thirty years since Honda stunned the world with a true Ferrari-beater. Its origins go back all the way to 1984, when Honda commissioned the Italian car designer Pininfarina to design the HP-X (Honda Pininfarina eXperimental), which had a mid-mounted C20A 2.0 L V6 configuration. After Honda committed to the project, management informed the engineers that the new car would have to be as fast as anything coming from Italy and Germany .The HP-X concept car evolved into a prototype called the NS-X, which stood for “New”, “Sportscar” and “eXperimental”. The NS-X prototype and eventual production model were designed by a team led by Chief Designer Ken Okuyama and Executive Chief Engineer Shigeru Uehara, who subsequently were placed in charge of the S2000 project. The original performance target for the NS-X was the Ferrari 328, and later the 348 as the design neared completion. Honda intended the NS-X to meet or exceed the performance of the Ferrari, while offering targeted reliability and a lower price point. For this reason, the 2.0L V6 of the HP-X was abandoned and replaced with a more powerful 3.0L VTEC V6 engine. The bodywork design had been specifically researched by Okuyama and Uehara after studying the 360 degree visibility inside an F-16 fighter jet cockpit. Thematically the F-16 came into play in the exterior design as well as establishing the conceptual goals of the NSX. In the F-16 and other high performance craft such as unlimited hydroplanes, single seat race cars etc. the cockpit is located far forward on the body and in front of the power plant. This “cab-forward” layout was chosen early in the NSX’s design to optimise visibility while the long tail design enhanced high speed directional stability. The NS-X was designed to showcase several Honda automotive technologies, many derived from its F1 motor-sports program. The NS-X was the first production car to feature an all-aluminium monocoque body, incorporating a revolutionary extruded aluminium alloy frame, and suspension. The use of aluminium in the body alone saved nearly 200 kg in weight over the steel equivalent, while the aluminium suspension saved an additional 20 kg; a suspension compliance pivot helped maintain wheel alignment changes at a near zero value. Other notable features included an independent, 4-channel anti-lock brake system; titanium connecting rods in the engine to permit reliable high-rpm operation; an electric power steering system; Honda’s proprietary VTEC variable valve timing system (a first in the US) and, in 1995, the first electronic throttle control fitted to a Honda. With a robust motorsports division, Honda had significant development resources at its disposal and made extensive use of them. Respected Japanese Formula One driver Satoru Nakajima, for example, was involved with Honda in the NS-X’s early on track development at Suzuka race circuit, where he performed many endurance distance duties related to chassis tuning. Brazilian Formula One World Champion Ayrton Senna, for whom Honda had powered all three of his world championship-winning Formula One race cars before his death in 1994, was considered Honda’s main innovator in convincing the company to stiffen the NSX chassis further after initially testing the car at Honda’s Suzuka GP circuit in Japan. Senna further helped refine the original NSX’s suspension tuning and handling spending a whole day test driving prototypes and reporting his findings to Honda engineers after each of the day’s five testing sessions. Senna also tested the NSX at the Nurburgring and other tracks. The suspension development program was far-ranging and took place at the Tochigi Proving Grounds, the Suzuka circuit, the 179-turn Nurburgring Course in Germany, HPCC, and Hondas newest test track in Takasu, Hokkaido. Honda automobile dealer Bobby Rahal (two-time CART PPG Cup and 1986 Indianapolis 500 champion) also participated in the car’s development. The production car made its first public appearances as the NS-X at the Chicago Auto Show in February 1989, and at the Tokyo Motor Show in October 1989 to positive reviews. Honda revised the vehicle’s name from NS-X to NSX before final production and sale. The NSX went on sale in Japan in 1990 at Honda Verno dealership sales channels, supplanting the Honda Prelude as the flagship model. The NSX was marketed under Honda’s flagship Acura luxury brand starting in 1991 in North America and Hong Kong. It sent shockwaves through the industry, as the car was considerably better than the Ferrari 348 in just about every respect. But that was not the end of the story, of course. While the NSX always was intended to be a world-class sports car, engineers had made some compromises in order to strike a suitable balance between raw performance and daily driveability. For those NSX customers seeking a no-compromise racing experience, Honda decided in 1992 to produce a version of the NSX specifically modified for superior on-track performance at the expense of customary creature comforts. Thus, the NSX Type R (or NSX-R) was born. Honda chose to use its moniker of Type R to designate the NSX-R’s race-oriented design. In 1995, a Targa model was released, the NSX-T, which allowed customers to experience fresh air thanks to two removable targa top panels. The original NSX body design received only minor modifications from Honda in the new millennium when in 2002 the original pop-up headlamps were replaced with fixed xenon HID headlamp units. There was a really impressive collection of the model here, with examples showing the evolution of the car from the original to the later ones with fixed lights.
In December 2007, Acura announced plans to launch a NSX successor by 2010, based on the styling of the front V10-engined Acura ASCC (Advanced Sports Car Concept). Despite prototypes being tested for production, just a year later, Honda announced that plans had been cancelled due to poor economic conditions. Instead, in March 2010, Honda unveiled the HSV-010 GT for participation in the Japanese SuperGT Championship. This car never reached production as a street-legal car. Reports that Honda was again developing a successor to the NSX remerged in April 2011. By December 2011, Honda officially announced a second generation NSX concept, which was unveiled the following month at the 2012 North American International Auto Show as the Acura NSX Concept. The production model was displayed three years later at the 2015 North American International Auto Show, for sale in 2016. Although the original name was retained, this time it was defined as “New Sports eXperience”. Unlike the first generation NSX which was manufactured in Japan, the new NSX was designed and engineered in Marysville, Ohio, at Honda’s plant, led by chief engineer Ted Klaus. The new NSX has a hybrid electric powertrain, with a 3.5 L twin-turbocharged V6 engine and three electric motors, two of which form part of the “SH-AWD” all wheel drive drivetrain, altogether capable of close to 600 hp. The transmission is a 9-speed dual-clutch automatic. Its body utilizes a space frame design—which is made from aluminium, ultra-high-strength steel, and other rigid and lightweight materials, some of which are the world’s first applications. The first production vehicle with VIN #001 was auctioned off by Barrett Jackson on 29 January 2016. NASCAR team owner Rick Hendrick won the auction with a bid for US$1,200,000. The entire bid was donated to the charities Pediatric Brain Tumor Foundation and Camp Southern Ground. The first NSX rolled off the line in Ohio on 27 May 2016. Hendrick was there to drive it off. The first sales of the new NSX were registered in the second half of 2016
JAGUAR
Jaguar launched the Mark IX in 1959, as a replacement for the previous Mark VIII. The early versions were identical in exterior appearance to the Mark VIII except for the addition of a chrome “Mk IX” badge to the boot lid. Later versions had a larger tail-lamp assembly with the addition of an amber section for traffic indication, visually similar to the tail-lights of the smaller Mark 2 Jaguar sedan. By the time the Mark IX reached the market, it was quite an old design, as it was based on the Mark VII which had been first seen in 1950. The Mark VII chassis came from the even earlier Jaguar Mark V but whilst the wheelbase remained the same at 10 feet, the new model’s body looked more streamlined, with integrated headlights and mudguards, a two-piece windscreen, and longer rear overhang. As on the Mark V, the rear wheels were partially covered by removable spats. Whereas the Mark V had a prewar engine originally developed by the Standard Motor Company, the Mark VII was powered by the newly developed XK engine, which had first been seen in the 1948 XK120, with the 3442 cc straight-six providing 160 bhp, the same as in the XK120. Published performance figures for the Mark VII were based on the standard 8:1 compression ratio, but as this was unsuitable for the UK market’s low-octane Pool petrol, an engine with a lower compression ratio of 7:1 engine was optional. British motoring magazines tested the car’s performance with the higher compression ratio, using the Ostend to Brussels autoroute in Belgium, where 80 octane fuel was available. In 1952, The Motor recorded a top speed of 101 mph, 0–60 mph in 13.7 seconds and returned 17.6 miles per imperial gallon. These were impressive figures for the time, and were one reason why the car was popular in motorsport as well as on the road. When the car was being developed Jaguar thought it would find most of its customers overseas, mainly because UK car tax at that time penalised buyers of larger-engined cars. However it went into production just as Britain’s postwar economic austerity began to ease, and in 1951 the car’s enthusiastic reception in both the British and American markets prompted Jaguar to relocate production to larger premises, at the Browns Lane plant, which had been built for wartime production as a shadow factory and was now available for immediate use. By the time the Mark VII was upgraded to M specification in 1954, 20,908 had been produced. Launched at the London Motor Show in October 1954, the Mark VII M continued with the same capacity and 8:1 compression ratio, uprated to 190 bhp. A four-speed manual gearbox was standard, while the Borg Warner automatic, introduced in 1953 and hitherto available only on exported Mark VIIs, now became optional for British buyers. Distinguishing the Mark VII M from its predecessor, circular grilles over the horns were installed below the headlights in place of the former integrated auxiliary lamps, which were moved slightly further apart and mounted on the bumper. Both bumpers now wrapped further around the sides of the car. In 1956, with the advent of the Suez Crisis Britain anticipated fuel rationing, and bubble cars appeared on the streets. Jaguar switched focus to their smaller saloons (the Mark I 2.4 had been introduced in 1955), and neither the Mark VII M nor any of its increasingly powerful but fuel-thirsty successors would match the production volumes of the original Jaguar Mark VII. Nevertheless, before it was superseded by the Mark VIII, the Mark VII M achieved 10,061 sales during its two-year production run. The Mark VII was succeeded by the Mark VIII i 1956, and although this looked very similar, there were plenty of detailed differences, The interior fittings were more luxurious than those of the Mark VII. Distinguishing visually between the models is facilitated by changes to the front grille, the driving or fog lamps being moved from the front panel to the horizontal panel between bumper and front panel, larger rear lamps and most obviously a curved chrome trim strip below the waistline which allowed the factory to offer a variety of two-tone paint schemes. In addition the new car had rear spats that were cut back to display more of the rear wheels and featured a one-piece slightly curved windscreen, where the Mark VII had incorporated a two-piece front screen of flat glass. Just 6227 examples were made before the introduction of the Mark IX. The new car had a larger 3.8 litre 190 bhp version of the XK engine Standard transmission was a four-speed manual system: options included overdrive, but most cars were built with a Borg Warner three-speed automatic box. The Mark IX was the first production Jaguar to offer four-wheel servo-assisted Dunlop disc brakes and recirculating ball power steering, which were now standard equipment. The brake system included a vacuum reserve tank to preserve braking in the event that the engine stalled. On models with automatic transmission, the brakes were equipped with an electromagnetic valve that maintained brake pressure at rest when the brake pedal was released to prevent the car from rolling back on an incline, hence its name “Hill Holder”. The Hill Holder was often troublesome (failing to release the brakes when the accelerator was depressed) and was disconnected on most cars without ill effect. The power steering was driven by a Hobourn-Eaton pump, operating at 600-650 psi. It was attached to the back of the generator and allowed the steering to be geared up to 3.5 turns lock-to-lock as against the 4.5 turns for the Mark VII and VIII models. The sunshine roof became a standard fitting for the UK market. The interior was in the same luxurious mode with extensive use of leather, walnut wood trim and deep pile carpet. A range of single and duo-tone paint schemes was offered. 10,009 examples of the Mark IX were made before its replacement in 1961 by the lower and more contemporary-styled Mark X.
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.
LAMBORGHINI
The Lamborghini Huracán (Spanish for “hurricane”; [uɾaˈkan]) is a sports car replacing the previous V10 offering, the Gallardo. The Huracán was revealed online in December 2013, making its worldwide debut at the 2014 Geneva Auto Show, and was released in the market in the second quarter of 2014. The Huracán’s name (huracán being the Spanish word for hurricane) is inspired by a Spanish fighting bull. Historic Spanish fighting bulls have traditionally provided the names of most Lamborghini car models. Huracán was a bull known for its courage that fought in 1879. The Huracán maintains the 5.2-litre naturally aspirated Audi/Lamborghini V10 engine with an additional 0.2 litres, compared to the Gallardo, tuned to generate a maximum power output of 602 bhp/610 PS. To ensure its balance and performance, the car is mid-engined. The engine has both direct fuel injection and multi-point fuel injection. It combines the benefits of both of these systems; it is the first time this combination is used in a V10 engine. To increase its efficiency, the Huracán’s engine also includes a start-stop system.[citation needed] The firing order of the engine is 1, 6, 5, 10, 2, 7, 3, 8, 4, 9. This is printed on a metal plate on the top of the engine, as with all other Lamborghini models. The drag coefficient of Cd=0.39 was undisclosed until 2021. The LP 610-4 designation comes from the car having 610 PS and four-wheel drive, while LP stands for “Longitudinale Posteriore”, which refers to the longitudinal mid-rear engine position. Changes from the Gallardo include full LED illumination, a 12.3 inch full-colour TFT instrument panel, fine napa leather and Alcantara interior upholstery, redesigned dashboard and central tunnel, Iniezione Diretta Stratificata (IDS, essentially an adapted version of parent Audi’s Fuel Stratified Injection) direct and indirect gasoline injections, engine Stop & Start technology, EU6 emissions regulation compliance, Lamborghini Doppia Frizione (LDF) 7-speed dual-clutch transmission with 3 modes (STRADA, SPORT and CORSA), 20-inch wheels, carbon-ceramic braking system, optional Lamborghini Dynamic Steering variable steering system and MagneRide electromagnetic damper control. The main competitors of the Huracán include the McLaren 650S (as well as the 720S), the Audi R8, the Ferrari 458 Speciale and the 488 GTB. Extra options that increase the price of the car include interior enhancements, special paint schemes, improved suspension, and a lifting system, as well as multiple components optionally available in carbon fibre, rather than aluminium. The convertible variant of the Huracán LP 610-4 was revealed at the Frankfurt Motor Show on 14 September 2015. The 5.2-litre naturally-aspirated V10 engine is the same as the coupé and generates a maximum power output of 602 bhp/610 PS. Acceleration from 0 to 100 km/h (62 mph) takes 3.4 seconds and the top speed is 323 km/h (201 mph). It has the same 7-speed Lamborghini Doppia Frizione (LDF) dual-clutch transmission as that of the coupé. The Spyder has a dry weight of 1,542 kg (3,400 lb) which is 120 kg (265 lb) more than the coupé due to chassis reinforcing components. The Spyder has a CO2 emission of about 280 g/km. Unveiled at the 2016 Geneva Motor Show, the Huracán LP 580-2 is a lower cost derivative of the Huracán LP 610-4 that differs mostly in having the 5.2 L V10 engine detuned to 572 bhp/580 PS and 533 Nm (393 lb/ft) of torque along with having a rear wheel drive drivetrain instead of the all-wheel drive drivetrain found in the standard Huracán. Lamborghini claims the car will accelerate from 0–100 km/h (0–62 mph) in 3.4 seconds and 0–200 km/h (0–124 mph) in 10.1 seconds. The top speed is claimed to be as high as 320 km/h (199 mph). It also features slight visual differences to the standard variant of the car – with a different front fascia and larger air vents at the rear of the car for improved brake cooling. The seven-speed dual-clutch transmission is the same as used in the standard LP 610–4. The base level LP 580-2 costs US$201,100, about US$40,000 less than the base level LP 610–4. A convertible variant of the Huracán LP 580-2 was unveiled at the Los Angeles Auto Show on 16 November 2016. The 5.2-litre naturally-aspirated V10 engine is the same as in the coupé, and generates a maximum power output of 572 bhp/580 PS. 0 to 100 km/h (62 mph) takes 3.6 seconds and the top speed is 320 km/h (199 mph). A track oriented variant of the Huracán, called the Performante, was unveiled at the 2017 Geneva Motor Show. The Performante underwent various exterior changes with the most noticeable being the front and rear bumpers. Carbon fibre is used for the bumpers and the side skirts. An adjustable carbon fibre rear wing has been added to increase downforce. The position of the exhaust has also been changed, and is now just a bit above the rear diffuser. The interior also underwent noticeable changes, now sporting new seats and a new digital speedometer (similar to that of the Aventador SV’s speedometer). The Performante’s 5.2-litre V10 has been tuned to have a power output of 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The weight has also decreased by 40 kg (88 lb), courtesy of the forged aluminium and forged carbon fibre body components (first used in the construction of the Sesto Elemento). All the new aero components on the car have active aerodynamic capability and help keep the car stable at high speeds. The Performante is capable of accelerating from 0–100 km/h (0–62 mph) in 2.9 seconds, 0–200 km/h (0–124 mph) in 8.9 seconds. It also has a theoretical top speed of 325 km/h (200 mph). The car has been stiffened by 10% with new springs, roll bars, and radial axial arm bushings. The magnetorheological suspension has been reworked to give a driver a serious track experience. The Lamborghini Dynamic Steering has been re-calibrated. The Performante utilises Lamborghini’s new ALA (Aerodinamica Lamborghini Attiva) system, which is said to be 80% lighter than regular sports car hydraulic systems. According to Lamborghini, ALA is also said to provide 750% more downforce than the standard Huracán. The Lamborghini Huracán Performante Spyder was unveiled at the 2018 Geneva Motor Show. It takes much of the styling inspiration from the coupé and the outgoing LP 610-4 Spyder. The Spyder is identical to the coupé from performance and technological standpoint, but the acceleration time from 0–60 mph has risen by one-tenth of a second and stands at 3.1 seconds while the 0–200 km/h (0–124 mph) has risen by four-tenths of a second and stands at 9.3 seconds. Due to the loss of the roof, the Spyder weighs 125 kg (276 lb) more than the coupé due to chassis reinforcing components. Top speed remains the same as well and stands at 325 km/h (202 mph). Deliveries of the Spyder began in the fourth quarter of 2018. The Huracán received a mid-cycle update in 2019, now being called the Huracán Evo. It now shares its engine and some of the technology with the Performante variant. The updated version of the Huracán has a more aggressive design language, the new front bumper has integrated aeroblades for improved downforce along with the rear styling inspired by the Performante variant, having the same rear diffuser, exhaust pipe position and radiators. A new ducktail spoiler improves downforce by 5 times as compared to the outgoing model. The engine is shared with the Performante and generates 631 bhp/640 PS at 8,000 rpm and 601 Nm (443 lb/ft) of torque at 6,500 rpm. The exhaust system is more refined and has titanium intake valves. This allows the car to achieve a 0–60 mph) acceleration time of 2.9 seconds, 0–200 km/h (0–124 mph) acceleration time of 9 seconds and a top speed of 325 km/h (202 mph). The car has a braking distance from 100–0 km/h (62–0 mph) of 104 ft (32 m). The Huracán Evo has a rear-wheel steering system for improved handling and a torque vectoring system. A new central processing unit controls the various functions of the car and monitors various settings. The control system is controlled by the new infotainment system (via an 8.4 inch touchscreen) dubbed the Lamborghini Dinamica Veicolo Integrata which has integrated both Apple CarPlay and Android Auto. The infotainment system predicts the driving modes by a feed forward logic. The feed forward logic works by sensors monitoring the lateral, longitudinal and vertical accelerations, as well as roll, pitch and yaw rate to predict the best possible driving mode for the driver. The magnetorheological suspension is also revised and now uses electromagnetic current to adjust the suspension system in accordance with the driving mode. The transmission system from the outgoing model is retained which transfers power to all four wheels. A new Ego mode allows the driver to change driving settings to their own preference. The Huracán Evo Spyder was introduced online in February 2019. The Spyder has the same enhancements as the coupé but is 100 kg (220 lb) heavier due to the addition of chassis reinforcement components owing to the loss of the roof. The car has the same canvas folding soft top as the outgoing model which takes 17 seconds for operation and is operable at speeds up to 50 km/h (31 mph). The Spyder can accelerate to 100 km/h (62 mph) in 3.1 seconds from a standstill, to 200 km/h (124 mph) in 9.3 seconds and can attain a top speed of 325 km/h (202 mph). A rear-wheel drive variant of the Evo debuted in January 2020, replacing the LP 580–2. The front splitter has been reshaped and generates more airflow, which is directed to the revised diffuser. Unique to the RWD model is P-TCS (Performance Traction Control System) that ensures that torque is not cut off abruptly; Lamborghini claims this increases oversteer by 30 percent compared to the LP 580–2. The engine is detuned and is now rated at 602 bhp/610 PS. Due to the detuned engine, the car is slower than the standard Huracán Evo accelerating to 100 km/h (62 mph) in 3.3 seconds while having the same top speed. The car also receives a unique paint option, Giallo Belenus, along with a matching interior upholstered in leather and microsuede. A convertible version of the rear-wheel drive variant of the Evo was showcased in May 2020, replacing the LP 580-2 Spyder. Like the Coupé variant, the convertible has a power output of 602 bhp/610 PS. The convertible has a 0– 60 mph acceleration time of 3.5 seconds and has a claimed top speed of 323 km/h (201 mph). Unveiled on April 12, 2022, The Huracán Tecnica sits between the EVO RWD and the track-focused STO. It is 6.1 cm (2.4 in) longer than the EVO, but is the same height and width. It uses the naturally-aspirated V10 engine from the STO and has a top speed of 325 km/h (202 mph) and an acceleration time of 0–100 km/h (0–62 mph) in 3.2 seconds. According to Lamborghini, the Tecnica’s aerodynamic changes increase downforce 35 percent and reduce drag by 20 percent compared to the EVO. It is expected that production will end in 2024.
LAND ROVER
The Land Rover was conceived by the Rover Company in 1947 during the aftermath of World War II. Before the war Rover had produced luxury cars which were not in demand in the immediate post-war period and raw materials were strictly rationed to those companies building construction or industrial equipment, or products that could be widely exported to earn crucial foreign exchange for the country. Also, Rover’s original factory in Coventry had been bombed during the war, forcing the company to move into a huge “shadow factory” built just before the war in Solihull near Birmingham, previously used to construct Bristol Hercules aircraft engines. This factory was now empty but starting car production there from scratch would not be financially viable. Plans for a small, economical car known as the M Type were drawn up, and a few prototypes made, but would be too expensive to produce. Maurice Wilks, Rover’s chief designer came up with a plan to produce a light agricultural and utility vehicle, of a similar concept to the Willys Jeep used in the war, but with an emphasis on agricultural use. He was possibly inspired by the Standard Motor Company, who faced similar problems and were producing the highly successful Ferguson TE20 tractor in their shadow factory in Coventry. More likely, he used his own experience of using an army-surplus Jeep on his farm in Anglesey, North Wales. His design added a power take-off (PTO) feature since there was a gap in the market between jeeps and tractors (which offered the feature but were less flexible as transport). The original Land Rover concept (a cross between a light truck and a tractor) is similar to the Unimog, which was developed in Germany during this period. The first prototype had a distinctive feature — the steering wheel was mounted in the middle of the vehicle. It hence became known as the “centre steer”. It was built on a Jeep chassis and used the engine and gearbox out of a Rover P3 saloon car. The bodywork was handmade out of an aluminium/magnesium alloy called Birmabright, to save on steel, which was closely rationed. The choice of colour was dictated by military surplus supplies of aircraft cockpit paint, so early vehicles only came in various shades of light green. The first pre-production Land Rovers were being developed in late 1947 by a team led by engineer Arthur Goddard. Tests showed this prototype vehicle to be a capable and versatile machine. The PTO drives from the front of the engine and from the gearbox to the centre and rear of the vehicle allowed it to drive farm machinery, exactly as a tractor would. It was also tested ploughing and performing other agricultural tasks. However, as the vehicle was readied for production, this emphasis on tractor-like usage decreased and the centre steering proved impractical in use. The steering wheel was mounted off to the side as normal, the bodywork was simplified to reduce production time and costs and a larger engine was fitted, together with a specially designed transfer gearbox to replace the Jeep unit. The result was a vehicle that didn’t use a single Jeep component and was slightly shorter than its American inspiration, but wider, heavier, faster and still retained the PTO drives. The Land Rover was designed to only be in production for two or three years to gain some cash flow and export orders for the Rover Company so it could restart up-market car production. Once car production restarted, however, it was greatly outsold by the off-road Land Rover, which developed into its own brand that remains successful today. Many of the defining and successful features of the Land Rover design were in fact the result of Rover’s drive to simplify the tooling required for the vehicle and to use the minimum amount of rationed materials. As well as the aluminium alloy bodywork (which has been retained throughout production despite it now being more expensive than a conventional steel body due to its ideal properties of light weight and corrosion resistance) other examples include the distinctive flat body panels with only simple, constant-radius curves (originally used because they could be cut and formed by hand from aluminium sheet on a basic jig) and the sturdy box-section ladder chassis, which on series vehicles was made up from four strips of steel welded at each side to form a box, thus cutting down on the complex operations required when making a more conventional U- or I-section frame. Land Rover entered production in 1948 with what has later been termed the Series I. This was launched at the Amsterdam Motor Show. It was designed for farm and light industrial use, with a steel box-section chassis and an aluminium body. Originally the Land Rover was a single model offering, which from 1948 until 1951 used an 80-inch wheelbase and a 1.6-litre petrol engine producing around 50 bhp. The four-speed gearbox from the Rover P3 was used, with a new two-speed transfer box. This incorporated an unusual four-wheel-drive system, with a freewheel unit (as used on several Rover cars of the time). This disengaged the front axle from the manual transmission on the overrun, allowing a form of permanent 4WD. A ring-pull mechanism in the driver’s footwell allowed the freewheel to be locked to provide more traditional 4WD. This was a basic vehicle: tops for the doors and a roof (canvas or metal) were optional extras. In 1950, the lights moved from a position behind the grille to protruding through the grille. From the beginning it was realised that some buyers would want a Land Rover’s abilities without the spartan interiors. In 1949, Land Rover launched a second body option called the “Station Wagon”, fitted with a body built by Tickford, a coachbuilder known for their work with Rolls-Royce and Lagonda. The bodywork was wooden-framed and had seating for seven people. Tickford was well equipped in comparison with the standard Land Rover, having leather seats, a heater, a one-piece laminated windscreen, a tin-plate spare wheel cover, some interior trim and other options. The wooden construction made them expensive to build. The Tickford was taxed as a private car, which attracted high levels of Purchase Tax unlike the original Land Rover. As a result, fewer than 700 Tickfords were sold, and all but 50 were exported. In 1952 and 1953, a larger 2.0-litre petrol engine was fitted. This engine has Siamese bores, meaning that there are no water passages for cooling between the cylinders. During 1950, the unusual semi-permanent 4WD system was replaced with a more conventional setup, with drive to the front axle being taken through a simple dog clutch. Around this time the Land Rover’s legal status was also clarified. As mentioned above, the Land Rover was originally classed as a commercial vehicle, meaning it was free from purchase tax. However, this also meant it was limited to a speed of 30 mph on British roads. After an appeal to the Law Lords after an owner was charged with exceeding this limit, the Land Rover was classified as a “multi-purpose vehicle” which was only to be classed as a commercial vehicle if used for commercial purposes. The 1954 model year brought major changes. The 80-inch wheelbase model was replaced by an 86-inch wheelbase model, and a 107-inch wheelbase “pick up” version was introduced. The extra wheelbase was added behind the cab area to provide additional load space. In mid-1954 the “spread bore” petrol engine was introduced (from engines 5710xxxx), allowing better cooling between the cylinders. This had been introduced in the Rover car the year before. The engine was modified again in 1955 (from engine 1706xxxxx), sometimes known as the ‘later’ spread bore. September 1955 saw the introduction of the first five-door model, on the 107-inch chassis known as the “station wagon” with seating for up to ten people. The 86-inch station wagon was a three-door, seven-seater. The new station wagons were very different from the previous Tickford model, being built with simple metal panels and bolt-together construction instead of the complex wooden structure of the older Station Wagon. They were intended to be used both as commercial vehicles as people-carriers for transporting workmen to remote locations, as well as by private users. Like the Tickford version, they came with basic interior trim and equipment such as roof vents and interior lights. The Station Wagons saw the first expansion of the Land Rover range. Station Wagons were fitted with a “Safari Roof” which consisted of a second roof skin fitted on top of the vehicle. This kept the interior cool in hot weather and reduced condensation in cold weather. Vents fitted in the roof allowed added ventilation to the interior. While they were based on the same chassis and drivetrains as the standard vehicles, Station Wagons carried different chassis numbers, special badging, and were advertised in separate brochures. Unlike the original Station Wagon, the new in-house versions were highly popular. In mid-1956 the wheelbases were extended by 2 inches to 88 inches and 109 inches and the front chassis cross-member was moved an inch forward, to accommodate the new diesel engine, to be an option the following year. This change was made to all models with the exception of the 107 Station Wagon, which would never be fitted with a diesel engine, and would eventually be the last series I in production. These dimensions were to be used on all Land Rovers for the next 25 years. In 1957 a brand new 2.0-litre diesel engine was introduced that, despite the similar capacity, was not related to the petrol engines used. The petrol engines of the time used the rather out-dated inlet-over-exhaust valve arrangement; the diesel used the more modern overhead valve layout. This diesel engine was one of the first high-speed diesels developed for road use, producing 52 hp at 4,000 rpm.
LOTUS
It is now over 20 years since Lotus launched the Elise, a model which showed a return to the core values of simplicity and light-weight which were cornerstones of Colin Chapman’s philosophy when he founded the marque in 1955. The first generation Elise was produced for just over 4 years, with a replacement model, the Series 2 arriving in October 2000. It came about as the Series 1 could not be produced beyond the 2000 model production year due to new European crash sustainability regulations. Lacking the funding to produce a replacement, Lotus needed a development partner to take a share of investment required for the new car. General Motors offered to fund the project, in return for a badged and GM-engined version of the car for their European brands, Opel and Vauxhall. The result was therefore two cars, which although looking quite different, shared much under the skin: a Series 2 Elise and the Vauxhall VX220 and Opel Speedster duo. The Series 2 Elise was a redesigned Series 1 using a slightly modified version of the Series 1 chassis to meet the new regulations, and the same K-series engine with a brand new Lotus-developed ECU. The design of the body paid homage to the earlier M250 concept, and was the first Lotus to be designed by computer. Both the Series 2 Elise and the Opel Speedster/Vauxhall VX220 were built on the same production line, in a new facility at Hethel. Both cars shared many parts, including the chassis, although they had different drive-trains and power-plants. The VX220 carried the Lotus internal model identification Lotus 116, with the code name Skipton for the launch 2.2 normally aspirated version and Tornado for the 2 litre Turbo which came out in 2004. Fitted with 17 inch over the Elise’s 16 inch front wheels, the Vauxhall/Opel version ceased production in late 2005 and was replaced by the Opel GT for February 2007, with no RHD version for the United Kingdom. The Elise lived on. and indeed is still in production now, some 15 years later, though there have been countless different versions produced in that time. Whilst the first of the Series 2 cars came with the Rover K-Series engine, and that included the 111S model which had the VVC engine technology producing 160 hp, a change came about in 2005 when Lotus started to use Toyota engines. This was initially due to Lotus’ plans to introduce the Elise to the US market, meaning that an engine was needed which would comply with US emissions regulations. The selected 1.8 litre (and later 1.6 litre) Toyota units did, and the K-series did not. that MG-Rover went out of business in 2005 and engine production ceased confirmed the need for the change. Since then, Lotus have offered us track focused Elise models like the 135R and Sport 190, with 135 bhp and 192 bhp respectively, as well as the 111R, the Sport Racer, the Elise S and Elise R. In 2008 an even more potent SC model, with 218 bhp thanks to a non-intercooled supercharger was added to the range. In February 2010, Lotus unveiled a facelifted version of the second generation Elise. The new headlights are now single units; triangular in shape they are somewhat larger than the earlier lights. The cheapest version in Europe now has a 1.6 litre engine to comply with Euro 5 emissions, with the same power output as the earlier 1.8 136bhp car. Lotus has been through some difficult times in recent years, but things are looking more optimistic again, with production numbers having risen significantly in the last couple of years, after a period when next to no cars were made.
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 late in 2021 when production of the model ceased after 25 years.
Also here were a number of examples of Lotus’ latest sports car, the Emira.
MASERATI
After producing BiTurbo based cars for 17 years, Maserati replaced their entire range with a new model in July 1998, the 3200 GT. This very elegant 2+2 grand tourer was styled by Italdesign, whose founder and head Giorgetto Giugiaro had previously designed, among others, the Ghibli, Bora and Merak. The interior design was commissioned to Enrico Fumia. Its name honoured the Maserati 3500 GT, the Trident’s first series production grand tourer. Sold mainly in Europe, the 3200 GT was powered by the twin-turbo, 32-valve, dual overhead cam 3.2-litre V8 engine featured in the Quattroporte Evoluzione, set up to develop 370 PS (365 hp). The car was praised for its styling, with the distinctive array of tail-lights, consisting of LEDs, arranged in the shape of boomerang being particularly worthy of comment. The outer layer of the ‘boomerang’ provided the brake light, with the inner layer providing the directional indicator. The car was also reviewed quite well by the press when they got to drive it in early 1999, though it was clear that they expected more power and excitement. That came after 4,795 cars had been produced, in 2001, with the launch of the 4200 models. Officially called the Coupé and joined by an open-topped Spyder (Tipo M138 in Maserati speak), these models had larger 4.2 litre engines and had been engineered so the cars could be sold in America, marking the return to that market for Maserati after an 11 year gap. There were some detailed styling changes, most notable of which were the replacement of the boomerang rear lights with conventional rectangular units. Few felt that this was an improvement. The cars proved popular, though, selling strongly up until 2007 when they were replaced by the next generation of Maserati. Minor changes were made to the model during its six year production, but more significant was the launch at the 2004 Geneva Show of the GranSport which sported aerodynamic body cladding, a chrome mesh grille, carbon fibre interior trim, and special 19-inch wheels. It used the Skyhook active suspension, with a 0.4 inch lower ride height, and the Cambiocorsa transmission recalibrated for quicker shifts. The exhaust was specially tuned to “growl” on start-up and full throttle. The GranSport was powered by the same 4244 cc, 90° V8 petrol engine used on the Coupé and Spyder, but developing 400 PS (395 hp) at 7000 rpm due primarily to a different exhaust system and improvements on the intake manifolds and valve seats. A six-speed paddle shift transmission came as standard. The GranSport has a claimed top speed of 180 mph (290 km/h) and a 0–62 mph (0–100 km/h) time of 4.8 seconds.
The only other Maserati here was my Ghbili.
MAZDA
The MX-5 was unveiled at the Chicago Auto Show on February 10, 1989, with a price tag of US$14,000. The MX-5, with production code NA, was made available for delivery to buyers worldwide in the following dates: May 1989 (as a 1990 model) in the US and Canada; September 1, 1989 in Japan; and 1990 in Europe. An optional hardtop was made available at the same time, in sheet moulding compound (SMC). Demand initially outstripped production, fueled by enthusiastic press reviews. In Japan, the car was not badged as a Mazda, as the company was in the process of launching different marques for deluxe models, similar to Nissan’s Infiniti, Honda’s Acura and Toyota’s Lexus. Instead, the Mazda MX-5 was sold as the Eunos Roadster, and was joined by the MX-3/AZ-3/Eunos Presso (based on Japanese Mazda dealerships). The exterior dimensions and the engine displacement were also in compliance with Japanese Government compact car regulation. The body shell of the NA was all-steel with a lightweight aluminium bonnet. Overall dimensions were 3,970 mm (156 in) in length, 1,675 mm (65.9 in) in width, and 1,235 mm (48.6 in) in height. Without options, the NA weighed only 980 kg (2,160 lb). It had a drag coefficient of Cd=0.38. Suspension was an independent double wishbone on all four wheels, with an anti-roll bar at the front and rear. Four-wheel disc brakes, ventilated at the front, were behind alloy wheels with 185/60HR14 radial tyres. The base model came with stamped steel wheels from the then-current 323/Protege.The original MX-5, with standard manual transmission, came with a 1.6 L DOHC inline four-cylinder engine, producing 115 bhp at 6,500 rpm, and 136 Nm (100 lb/ft) of torque at 5,500 rpm. The engine employs an electronic fuel injection system using a vane-type air flow meter and an electronic ignition system with a camshaft angle sensor instead of a distributor. This engine, codenamed B6ZE(RS), was specifically designed for the MX-5 and featured a lightened crankshaft, flywheel, and aluminium sump with cooling fins. An MX-5 with the optional automatic transmission had its 1.6L engine tuned to develop peak torque at lower rpm’s (136 Nm, 100 lb/ft at 4000 rpm) to better mate with the automatic transmission gearing and torque requirements. This tuning resulted in a lower peak power of 105 bhp at 6500 rpm. The standard transmission was a five-speed manual, derived from the one used in the Mazda 929/Luce (also rear-wheel drive) The gear shift was the subject of close attention during development, with engineers told to make it shift in as small a gear pattern as possible and with minimal effort. In Japan and the US, an optional automatic transmission was also offered. The Japanese and American markets also received an optional viscous limited-slip differential, although it was only available for cars with a manual transmission. To achieve the low introductory price, the base model was stripped. It had steel wheels, manual steering, roll-up windows, and no stereo or air-conditioning. Power steering, air-conditioning, and stereo were added as standard equipment in later years. The NA could reach 60 mph in 8.3 seconds and had a top speed of 203 km/h (126 mph) although Japanese market Eunos models were limited to 180 km/h (110 mph). This first generation of Miata (often referred to as the NA) included a special Limited Edition of 2000 examples in 1991, produced in British racing green with the first use of tan interior, to celebrate the highly successful launch of the MX-5 in the UK.[citation needed] These have a numbered brass plaque on the Windshield Frame and on the front of the Owners Book, and are fitted with alloy wheels from MSW (Mazda Sports Workshop) which are often mistaken for BBS, but which are entirely unique to this model. The NA with an automatic transmission reached 60 mph in 9.9 seconds and had a top speed of 181 km/h (112 mph). In 1993, 1,500 LE (Limited Edition) cars were produced. This model featured red leather interior, upgraded stereo, Nardi shift knob, leather-wrapped steering wheel, cruise control, limited-slip differential, power windows, power mirrors, power steering, air conditioning, BBS wheels, Bilstein shocks, front and rear spoilers, ABS brakes, stainless sill plates, and Harley style peanut tank door speaker trim. All 1993 LE cars came in black. For the 1994 model year, the first-generation MX-5 was freshened with the introduction of the more powerful 1,839 cc BP-ZE engine, dual airbags placed in a redesigned dashboard, the addition of a Mazda badge on the front fascia in the US and a limited-slip differential in some markets. The chassis was substantially braced to meet new side-impact standards, most visibly by adding a “track bar” between the seatbelt towers inside the car, but also to the front and rear subframes. Also, 1994 and 1995 were the only years in which Mazda offered a light metallic blue paint (Laguna Blue Mica), making these cars rare collectors cars to some. 1994 also saw the introduction of the “R” package, a sport-themed package with Bilstein shocks, stiffer sway bars, retuned springs, subtle front and rear underbody spoilers, and a Torsen LSD. Air conditioning was optional, but the “R” package was not available with power steering, leather, or an automatic transmission. It can also be identified by a red Miata badge on the rear instead of the usual black. No body style changes were made, however. Halfway through the 1997 model year the hazard light button was changed to a black button with red symbol as opposed to the earlier red button with white symbol. The new 1,839 cc engine produced 129 bhp at 6,500 rpm and 149 Nm (110 lb/ft) of torque at 5,500 rpm, which was then increased to 133 bhp at 6,500 rpm and 155 Nm (114 lb/ft) of torque at 5,500 rpm for the 1996 model year. The base weight increased to 990 kg (2,180 lb). Performance was thus improved slightly, because the additional weight was more than offset by the extra power. In some markets such as Europe, the 1.6 L engine continued to be available as a lower-cost option, but was detuned to 89 bhp. This lower-powered model did not receive all the additional chassis bracing of the new 1.8 L. Japanese and U.S. models offered an optional Torsen LSD, which was far more durable than the previous viscous differential. There were a number of trim levels and special editions available, determined by local Mazda marketing departments. In the US, the base model was offered for US$13,995 at launch and was very basic, with manual windows, steel wheels, and without air conditioning or power steering. The “A Package” offered power steering, a leather-wrapped steering wheel, aluminium alloy wheels and cassette stereo. The “B Package” added power windows, along with cruise control and headrest speakers, while the “C Package” included a tan interior and top with leather seats. The “R Package” was for racing, and the annual special editions were formalized as “M Editions”. These included all of the luxury options from the “C Package” as well as special paint and, sometimes, special wheels. The first generation MX-5 was phased out after the 1997 model year (with the exception of 400 limited edition Berkeley models sold only in the UK in 1998 to mark the end of the NA), with the final 1,500 NAs produced for the US market being the “STO” (“Special Touring Option”) versions.
McLAREN
The MP4 12C was the first ever production car wholly designed and built by McLaren, and their first production road car produced since the McLaren F1, which ended production in 1998. McLaren started developing the car in 2007 and secretly purchased a Ferrari 360 to use as a test mule. The mule called MV1 was used to test the 3.8-litre twin-turbocharged V8 engine. The car also featured side vents for additional cooling which were later incorporated in the final production model. Later in the year, the company purchased an Ultima GTR to test the braking system and suspension components, that mule was called the MV2. The space frame and body of that car were modified in order to accommodate the new components. Later another prototype was purchased which was another Ferrari 360 dubbed the MV3 which was used to test the exhaust system. McLaren then built two prototypes themselves called CP1 and CP2 incorporating the Carbon Monocell monocoque which were used for testing the heat management system and performance. The MP4-12C features a carbon fibre composite chassis, and is powered by a longitudinally-mounted Rear mid-engine, rear-wheel-drive layout McLaren M838T 3.8 litre twin-turbocharged V8 engine, developing approximately 600 PS (592 bhp) at 7500 rpm and around 600 N⋅m (443 lbf⋅ft) of torque at 5600 rpm. The car makes use of Formula 1-sourced technologies such as “brake steer”, where the inside rear wheel is braked during fast cornering to reduce understeer. Power is transmitted to the wheels through a seven-speed dual-clutch transmission. The entire drivetrain is the first to be entirely designed and produced in house by McLaren. The chassis is based around a F1 style one-piece carbon fibre tub, called the Carbon MonoCell, weighing only 80 kg (176 lb). The MonoCell is made in a single pressing by using a set of patented processes, using Bi-Axial and Tri-Axial carbon fibre multi-axial fabrics produced by Formax UK Ltd. with the MonoCell manufactured by Carbo Tech in Salzburg, Austria. This has reduced the time required to produce a MonoCell from 3,000 hours for the F1 and 500 hours for the Mercedes-Benz SLR McLaren, to 4 hours for the MP4-12C. The McLaren MP4-12C utilizes a unique hydraulic configuration to suspend the vehicle as opposed to more traditional coil springs, dampers and anti-roll bars. What McLaren has called “ProActive Chassis Control,” the system consists of an array of high and low pressure valves interconnected from both left to right and front to back, and the typical anti-roll bars were omitted entirely. When high pressure meets high pressure under roll conditions, stiffness results; and subsequently when high pressure meets low under heave and warp, more give is allowed, ultimately providing a firmer, competent suspension setup in spirited driving, and a very plush, compliant and comfortable ride when moving at slower, constant speeds. The car has a conventional two side-by-side seating arrangement, unlike its predecessor the McLaren F1 which featured an irregular three seat formation (front centre, two behind either side). To make up for this however, the car’s central console is narrower than in other cars, seating the driver closer to the centre. Interior trim and materials can be specified in asymmetric configuration – known as “Driver Zone”. The final car was unveiled to the public on 9 September 2009 before the company’s launch in 2010. A convertible version of the car called the MP4-12C Spider, as added to the range in 2012. The name’s former prefix ‘MP4’ has been the chassis designation for all McLaren Formula 1 cars since 1981. ‘MP4′ stands for McLaren Project 4 as a result of the merger between Ron Dennis’ Project 4 organisation with McLaren. The ’12’ refers to McLaren’s internal Vehicle Performance Index through which it rates key performance criteria both for competitors and for its own cars. The criteria combine power, weight, emissions, and aerodynamic efficiency. The coalition of all these values delivers an overall performance index that has been used as a benchmark throughout the car’s development. The ‘C’ refers to Carbon, highlighting the application of carbon fibre technology to the future range of McLaren sports cars. At the end of 2012, the name of the MP4-12C was reduced to 12C – that name is usually used when referring to the coupe. The open-top version now being called the 12C Spider.
Sitting below the 720 in the range are the 540 and 570 models. The first of these were revealed at the 2015 New York Auto Show, going on sale towards the end of that year. These were labelled as part of McLaren’s Sports Series. This mid-engine sportscar features the lightweight carbon fibre MonoCell II chassis, and a highly efficient 3.8-litre twin turbo V8 engine generating 562bhp and 443lb/ft of torque. Although the model has been conceived with a greater focus on day-to-day usability and refinement, but it is still very much a pure McLaren, boasting a class-leading power-to-weight ratio of 434PS per tonne, and electrifying performance. The 570S Coupé accelerates from 0 to 100km/h in just 3.2 seconds, reaches 200km/h (124mph) in 9.5 seconds, and on to a top speed of 204mph. Pricing for the 570S Coupé started at £143,250, though like all cars of this type, that figure can quickly rise once you raid the options list.
MERCEDES-BENZ
With prices of the classic Pagoda model having risen to unaffordable for most people attention has started to switch to it successor, the R107 SL range, which had a long production life, being the second longest single series ever produced by the automaker, after the G-Class. The R107 and C107 took the chassis components of the mid-size Mercedes-Benz W114 model and mated them initially to the M116 and M117 V8 engines used in the W108, W109 and W111 series. The SL variant was a 2-seat convertible/roadster with standard soft top and optional hardtop and optional folding seats for the rear bench. The SLC (C107) derivative was a 2-door hardtop coupe with normal rear seats. The SLC is commonly referred to as an ‘SL coupe’, and this was the first time that Mercedes-Benz had based a coupe on an SL roadster platform rather than on a saloon, replacing the former saloon-based 280/300 SE coupé in Mercedes lineup. The SLC was replaced earlier than the SL, with the model run ending in 1981, with a much larger model, the 380 SEC and 500SEC based on the new S class. Volume production of the first R107 car, the 350 SL, started in April 1971 alongside the last of the W113 cars; the 350 SLC followed in October. The early 1971 350SL are very rare and were available with an optional 4 speed fluid coupling automatic gearbox. In addition, the rare 1971 cars were fitted with Bosch electronic fuel injection. Sales in North America began in 1972, and cars wore the name 350 SL, but had a larger 4.5L V8 with 3 speed auto (and were renamed 450 SL for model year 1973); the big V8 became available on other markets with the official introduction of the 450 SL/SLC on non-North American markets in March 1973. US cars sold from 1972 through 1975 used the Bosch D Jetronic fuel injection system, an early electronic engine management system. From July 1974 both SL and SLC could also be ordered with a fuel-injected 2.8L straight-6 as 280 SL and SLC. US models sold from 1976 through 1979 used the Bosch K Jetronic system, an entirely mechanical fuel injection system. All US models used the 4.5 litre engine, and were called 450 SL/SLC. In September 1977 the 450 SLC 5.0 joined the line. This was a homologation version of the big coupé, featuring a new all-aluminium five-litre V8, aluminium alloy bonnet and boot-lid, and a black rubber rear spoiler, along with a small front-lip spoiler. The 450SLC 5.0 was produced in order to homologate the SLC for the 1978 World Rally Championship. Starting in 1980, the 350, 450 and 450 SLC 5.0 models (like the 350 and 450 SL) were discontinued in 1980 with the introduction of the 380 and 500 SLC in March 1980. At the same time, the cars received a very mild makeover; the 3-speed automatic was replaced by a four-speed unit, returning to where the R107 started in 1971 with the optional 4 speed automatic 350SL. The 280, 380 and 500 SLC were discontinued in 1981 with the introduction of the W126 series 380 and 500 SEC coupes. A total of 62,888 SLCs had been manufactured over a ten-year period of which just 1,636 were the 450 SLC-5.0 and 1,133 were the 500 SLC. Both these models are sought by collectors today. With the exception of the SL65 AMG Black Series, the SLC remains the only fixed roof Mercedes-Benz coupe based on a roadster rather than a sedan. Following the discontinuation of the SLC in September 1981, the 107 series continued initially as the 280, 380 and 500 SL. At this time, the V8 engines were re-tuned for greater efficiency, lost a few hp and consumed less fuel- this largely due to substantially higher (numerically lower) axle ratios that went from 3.27:1 to 2.47:1 for the 380 SL and from 2.72:1 to 2.27:1 for the 500 SL. From September 1985 the 280 SL was replaced by a new 300 SL, and the 380 SL by a 420 SL; the 500 SL continued and a 560 SL was introduced for certain extra-European markets, notably the USA, Australia and Japan. Also in 1985, the Bosch KE Jetronic was fitted. The KE Jetronic system varied from the earlier, all mechanical system by the introduction of a more modern engine management “computer”, which controlled idle speed, fuel rate, and air/fuel mixture. The final car of the 18 years running 107 series was a 500 SL painted Signal red, built on August 4, 1989; it currently resides in the Mercedes-Benz museum in Stuttgart.
Designed in 1984, and launched in 1989, the R129 was based on the shortened floorpan of the Mercedes-Benz W124 and featured many innovative details for the time, for instance electronically controlled damping (Adaptive Damping System ADS, optional) and a hidden, automatically extending roll-over bar. The R107’s somewhat dated rear suspension with semi-trailing arms gave way to a modern multi-link axle. The number of standard features was high, with electric action for the windows, mirrors, seats and hydraulic convertible top. This car has the distinction of being the first passenger vehicle to have seat belts integrated into the seats as opposed to anchoring to the floor, B-pillar, and transmission tunnel. Initially, there were three different engines available: 300 SL with a M103 3.0 L 12-valve SOHC I6 (188 bhp), a 300 SL-24 with a M104 3.0 L 24-valve DOHC I6 (228 bhp) and the 500 SL with a M119 5.0 L 32-valve DOHC V8 (322 bhp) . These were joined in July 1992 by the 600 SL with a M120 6.0 L 48-valve DOHC V12 (389 bhp). There was a choice of 5-speed manual or 4–5 speed automatic for the six-cylinder cars; the V8 and V12 could only be ordered with a 4-speed automatic gearbox. In autumn 1993 Mercedes-Benz rearranged names and models. Also, the 300 SL and 300 SL-24 were respectively replaced by: SL 280 with a M104 2.8 L 24-valve DOHC I6 (190 bhp) and the SL 320 with a M104 3.2 L 24-valve DOHC I6 (228 bhp). Only the 280 was available with a manual gearbox. SL 500 and 600 continued with their respective engines. Starting in 1993, the cars were re-designated. For example, 500 SL became SL 500. Starting in model year 1994, Mercedes-Benz offered special SL models from time to time, such as the Mille Miglia edition cars of model year 1994 or the SL edition of model year 2000. 1994 cars had minor updates for the car and then in 1995 there was a minor facelift for the car, with the front fender vents updated to only 2 rounded slots, rather than 3 squared slots, and bumpers in body colour. The V8 and V12s were upgraded to 5 speed electronic transmission, the previous transmission was hydraulic 4-speed. A second facelift occurred in 1998 with many detailed changes applied, including new external mirrors, 17″ wheels and new bumpers. Also new were the engines, a SL 280 with a M112 2.8 L 18-valve SOHC V6 (201 bhp); SL 320 with a M112 3.2 L 18-valve SOHC V6 (221 bhp) and a SL 500 with a M113 5.0 L 24-valve SOHC V8 (302 bhp). The V12 engine remained unchanged. The car was replaced by the R230 generation SL in 2001, after 213,089 had been built.
The only other Mercedes of note was this example of the AMG GT.
MEYERS MANX
The Meyers Manx dune buggy is a small recreationally-oriented automobile, designed initially for desert racing by Californian engineer, artist, boat builder and surfer Bruce F. Meyers. It was produced by his Fountain Valley, California company, B. F. Meyers & Co. from 1964 to 1971, in the form of car kits applied to shortened chassis of Volkswagen Beetles. The car line dominated dune racing in its time, breaking records immediately, and was eventually also released in street-oriented models, until the company’s demise due to tax problems after Meyers’s departure. New vehicles inspired by the original Manx buggy have been produced by Meyers’s re-founded operation, Meyers Manx, Inc., since 2000. The name and cat logo of the brand derives from the Manx cat, by virtue of the tailless breed’s and the shortened vehicle’s truncated “stubbiness”. Drawing on his experience in sailboat construction, Meyers modeled and built his first dune buggy, “Old Red”, a shortened VW Beetle with a monocoque, fiberglass shell and Chevrolet pickup truck (trailing arm style) suspension, in late 1963 to May 1964 in his garage in Newport Beach, California. The first known street-legal fiberglass dune buggy, it featured a unibody shell that fused body, fenders and frame, retaining just the engine, transmission and other mechanicals of the VW, and with no top and no hood. The use of compound curves throughout provided great rigidity. The fenders were arched high, to make room for large, knobby dirt-racing wheels. The “Manx” name for the shortened, taller-wheeled, more maneuverable VW Beetle mods refers to and derives from the comparably stubby Manx cat breed, colloquially called “stubbins”; they are short-spined and stub-tailed-to-tailless, long-legged, and known for their turning ability while chasing. The Meyers Manx logo prominently features a Manx cat. The tailless cat in the logo, as featured on the hood ornament, is stylized after a passant heraldic lion, its right forepaw brandishing a sword. The name also suggests racing fitness, as the already globally renowned, British-manufactured Norton Manx motorcycle dominated the Isle of Man TT, Manx Grand Prix and other Isle of Man-based (i.e. Manx) international races from the 1940s to the early 1970s. The Meyers Manx has no direct connection to the Isle of Man. Meyers produced kits later in 1964 and into 1965, marketed under the name Meyers Manx. Although this early design was critically acclaimed, even featured on the April 1967 cover of Car & Driver magazine, and drew much attention, it proved too expensive to be profitable; ultimately only 12 kits of the monocoque Manx were produced. Meyers and a friend (both amateur racers) broke by over four hours the Ensenada – La Paz run’s record of 39 hours, until then held by a pro racer. According to James Hale, compiler of the Dune Buggy Handbook, this feat ushered in an era of Meyers Manx “domination in off-road events … and the formation of NORRA (National Off-Road Racing Association)”. The commercially manufactured Meyers Manx Mk I featured an open-wheeled fiberglass bodyshell, coupled with the Volkswagen Beetle H4 flat-four engine (1.2 L, 1.3 L, 1.5 L and 1.6 L, in different models) and a modified, RR-layout Beetle frame. It is a small car, with a wheelbase 14¼ inches (36.2 cm) shorter than a Beetle automobile for lightness and better maneuverability. For this reason, the car is capable of very quick acceleration and good off-road performance, despite not being four-wheel drive. The usually street-legal car redefined and filled a recreational and competitive niche that had been essentially invented by the first civilian Jeep in 1945, and which was later to be overtaken by straddle-ridden, motorcycle-based all-terrain vehicles (introduced in 1970) and newer, small and sporty (but usually four-wheel-drive), off-road automobiles. The commercial Meyers Manx received widespread recognition when it defeated motorcycles, trucks and other cars to win the inaugural 1967 Mexican 1000 race (the predecessor of the Baja 1000). It crossed automotive press genre lines, being selected as the cover story in the August 1966 issue of Hot Rod magazine. Approximately 6,000 of the original Meyers Manx dune buggies were produced, but when the design became popular many copies (estimated at a quarter of a million worldwide) were made by other companies. Although already patented, Meyers & Co. lost in court to the copiers, the judge rescinding his patent as unpatentable, opening the floodgates to the industry Meyers started.[citation needed] Since then, numerous vehicles of the general “dune buggy” or “beach buggy” body type, some VW-based, others not, have been and continue to be produced. An early example was the Imp by EMPI (1968–1970), which borrowed stylistic elements from the Chevrolet Corvette but was otherwise Manx-like. A later 1970s Manx clone was the Dune Runner from Dune Buggy Enterprises in Westminster, California. The Meyers company attempted to stay ahead of this seemingly unfair competition with the release of the distinctive, and harder-to-copy, Meyers Manx Mk II design. B. F. Meyers & Co. also produced other Beetle-based vehicles, including the May 1970 Car & Driver magazine cover sporty Manx SR variant (street roadsters, borrowing some design ideas from the Porsche 914), the Meyers Tow’d (sometimes referred to as the “Manx Tow’d”, a non-street-legal racing vehicle designed to be towed to the desert or beach), the Meyers Tow’dster (a street-legal hybrid of the two, and Meyers Resorter a.k.a. Meyers Turista (a small recreational or “resort” vehicle inspired by touring motorcycles). The Manx SR2 was a modified SR that was only produced by later manufacturers including Karma Coachworks, Heartland Motors and Manx Motors of MD. While the Tow’d was a minimal off-road racer and the SR/SR2 was a showy roadster, the Tow’dster was a compromise between a dune-capable vehicle and a more utilitarian street rod, and “paved the way for the rail-type buggy that was to dominate the buggy scene following the demise of the traditional Manx-type buggy.” The company ceased operation in 1971, after financial troubles, including with the Internal Revenue Service and Bruce Meyers himself had already left his own company by then.
MG
Final version of the popular T Series sports car was the TF, launched on the 15 October 1953. Although it looked quite a bit different, this was really just a facelifted TD, fitted with the TD Mark II engine, headlights faired into the wings, a sloping radiator grille concealing a separate radiator, and a new pressurised cooling system along with a simulated external radiator cap. This XPAG engine’s compression ratio had been increased to 8.1:1 and extra-large valves with stronger valve springs and larger carburettors increased output to 57.5 bhp at 5,500 rpm. In mid-1954 the engine capacity was increased by 17 per cent to 1466 cc and designated XPEG. The bore was increased to 72 mm and compression raised to 8.3:1 giving 63 bhp at 5,000 rpm and a 17 per cent increase in torque. The car was now designated TF1500, and externally distinguished by a cream background enamel nameplate on both sides of the bonnet, placed just to the rear of the forward bonnet-release buttons. Production ended at chassis number TF10100 on 4 April 1955 after 9,602 TFs had been manufactured, including two prototypes and 3,400 TF1500s. A number of replica models have been built in more recent years, with the Naylor of the mid 1980s being perhaps the best known.
Launched in October 1962, the MGB 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, but due to a high demand, 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 MGC was produced as a sort of replacement for the Big Healey, though apart from sharing that car’s 3 litre straight six C Series engine, the reality is that the car was quite different and generally appealed to a different sort of customer. Or, if you look at the sales figures, you could say that it did not really appeal to anyone much, as the car struggled to find favour and buyers when new. More of a lazy grand tourer than an out and out sports car, the handling characteristics were less pleasing than in the B as the heavy engine up front did the car no favours. The market now, finally, takes a different view, though and if you want an MGC, in Roadster or the MGC GT form the latter of which was to be seen here, you will have to dig surprisingly deeply into your pocket.
Sitting alongside the MGB in the MG range was the smaller Midget, and there were a couple of these cars here, a Series 3 model and one of the later rubber-bumpered cars. The 1961 Midget resurrected the name that was used by MG for their smallest car, the M Type, in the late 20s, was the Midget announced in 1961, and was essentially a slightly more expensive badge-engineered version of the MkII Austin-Healey Sprite. The original ‘Frogeye’ Sprite had been introduced specifically to fill the gap in the market left by the end of production of the MG T-type Midget as its replacement, the MGA had been a significantly larger and more expensive car with greater performance. Many existing MG enthusiast and buyers turned to the Sprite to provide a modern low-cost sports car and so a badge-engineered MG version reusing the Midget name made sense. The new Midget differed from the Sprite only in its grille design, badging, colour options and having both leather seats and more external chrome trim as standard to justify its higher purchase price. Mechanically the car was identical to its Austin-Healey counterpart, retaining the rear suspension using quarter-elliptic leaf springs and trailing arms from the ‘Frogeye’. The engine was initially a 948 cc A-Series with twin SU carburettors producing 46 hp at 5500 rpm and 53 lb/ft at 3000 rpm. Brakes were 7″ drums all round. A hard top, heater, radio and luggage rack were available as factory-fitted extras. In October 1962 the engine was increased to 1098 cc, raising the output to 56 hp at 5500 rpm and 62 lb/ft at 3250 rpm, and disc brakes replaced the drums at the front. Wire spoked wheels became available. The doors had no external handles or locks and the windows were sliding Perspex side-screens. A heater was still an optional extra. The car sold well, with 16,080 of the small-engined version and 9601 of the 1098 being made before the arrival in 1964 of the Mark II. Externally the main changes were to the doors, which gained wind-up windows, swivelling quarter lights, external handles and separate locks. The windscreen also gained a slight curvature and was retained in a more substantial frame. The hood, though modified, continued to have a removable frame that had to be erected before the cover was put on. The rear springs were replaced by more conventional semi-elliptic types which gave a better ride. The engine block was strengthened and larger main bearings were fitted, increasing the power to 59 hp at 5750 rpm and torque to 65 lbf·ft at 3500 rpm. A total of 26,601 were made. 1967 saw the arrival of the Mark III. The engine now grew to 1275 cc using the development seen on the Mini-Cooper ‘S’. Enthusiasts were disappointed that this was a detuned version of the 76-bhp Cooper ‘S’ engine, giving only 65 hp at 6000 rpm and 72 lbf·ft at 3000 rpm. A reduced compression ratio of 8.8:1 was used instead of the 9.75:1 employed on the Cooper S engine. The Midget used the 12G940 cylinder head casting that was common to other BMC 1300 cars, whereas the Cooper ‘S’ had a special head with not only larger inlet, but also larger exhaust valves; however, these exhaust valves caused many ‘S’ heads to fail through cracking between the valve seats. The detuned engine was used for reasons of model range placement – with the Cooper ‘S’ spec engine, the Midget would have been faster than the more expensive MGB. The hydraulic system gained a separate master cylinder for the clutch. The hood was now permanently attached to the car, with an improved mechanism making it much easier to use. Minor facelift changes were made to the body trim in late 1969 with the sills painted black, a revised recessed black grille, and squared off taillights as on the MGB. The 13″ “Rostyle” wheels were standardised, but wire-spoked ones remained an option. The square-shaped rear wheel arches became rounded in January 1972 and later that year a Triumph steering rack was fitted, giving a gearing that was somewhat lower than earlier Midgets. A second exhaust silencer was also added in 1972. Alternators were fitted instead of dynamos from 1973 onwards. Many consider the round-arch Midgets with chrome bumpers produced for model years 1972 and 1974 to be the most desirable. These round-arch cars started leaving the Abingdon factory in late 1971. Between 1966 and the 1969 face lift, 22,415 were made, and a further 77,831 up to 1974.
MG re-entered the sports car market in 1995 with the launch of the MGF Two versions of this mid-engined and affordable rival to the Mazda MX5 were offered: both of which used the 1.8 litre K-Series 16-valve engine. The cheaper of the two put out 118 hp and the more costly VVC model (by dint of its variable valve control) had 143 hp. Rover Special Projects had overseen the development of the F’s design and before finalising the styling bought-in outside contractors to determine the most appropriate mechanical configuration for the new car. Steve Harper of MGA Developments produced the initial design concept in January 1991 (inspired by the Jaguar XJR-15 and the Ferrari 250LM), before Rover’s in house design team refined the concept under the leadership of Gerry McGovern. The MGF used the Hydragas suspension, a system employing interconnected fluid and gas displacers, which gave the car a surprisingly compliant ride and which could be tuned to provide excellent handling characteristics. The MG F quickly shot to the top of the affordable sports car charts in Britain and remained there until the introduction of the MG TF in 2002. The MG F underwent a facelift in Autumn of 1999 which gave the car a revised interior as well as styling tweaks and fresh alloy wheels designs. There was also the introduction of a base 1.6 version and a more powerful 160 hp variant called the Trophy 160, which had a 0-60 mph time of 6.9 seconds. It was only produced for a limited time. An automatic version with a CVT called the Steptronic was also introduced. A comprehensive update in 2002 resulted in the MG TF, named after the MG TF Midget of the 1950s. Based upon the MG F platform but heavily redesigned and re-engineered, the most significant mechanical changes were the abandonment of Hydragas suspension in favour of conventional coil springs, the new design of the air-induction system that along with new camshafts produces more power than in MG F engines, and the torsional stiffness of the body increased by 20%. Various cosmetic changes included a revised grille, redesigned front headlights, bumpers, side air-intake grills and changes to the rear boot,. The car continued to sell well. Production was suspended when MG-Rover went out of business, but resumed again in 2007 when Nanjing built a number more.
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, the MG ZT 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
The Mini was marketed under BMC’s two main brand names, Austin and Morris, until 1969, when it became a marque in its own right. The Morris version was known to all as “the Mini” or the “Morris Mini-Minor”. This seems to have been a play on words: the Morris Minor was a larger, well known, and successful car that continued in production, and minor is Latin for “lesser”, so an abbreviation of the Latin word for “least” – minimus – was used for the new even smaller car. One name proposed for the almost identical Austin version was Austin Newmarket, but it was sold as the Austin Seven (sometimes written as SE7EN in early publicity material – with the ‘7’ using the letter V rotated anticlockwise so it approximated the number 7), which recalled the popular small Austin 7 of the 1920s and 1930s. Until 1962, the cars appeared in North America and France as the Austin 850 and Morris 850, and in Denmark as the Austin Partner (until 1964) and Morris Mascot (until 1981). It was introduced in Australia as Morris 850 only (not “Austin”), and then later as Morris Cooper and Morris Cooper S versions, as well. The Morris name Mini (Mini-Minor) was first used for Austin’s version by BMC in 1961 when the Austin Seven was rebranded as the Austin Mini, somewhat to the surprise of the Sharp’s Commercials car company (later known as Bond Cars), who had been using the name Minicar for their three-wheeled vehicles since 1949. However, legal action was somehow averted, and BMC used the name “Mini” thereafter. In 1964, the suspension of the cars was replaced by another Moulton design, the hydrolastic system. The new suspension gave a softer ride, but it also increased weight and production cost. In 1971, the original rubber suspension reappeared and was retained for the remaining life of the Mini. From October 1965, the option of the unique Automotive Products designed four-speed automatic transmission became available. Cars fitted with this became the Mini-Matic. Slow at the outset, Mark I sales strengthened across most of the model lines in the 1960s, and production totalled 1,190,000. Ford purchased a Mini and dismantled it to see if they could offer an alternative. Ford determined that the BMC must have been losing around £30 per car, so decided to produce a larger car – the Cortina, launched in 1962 – as its competitor in the budget market. BMC insisted that the way company overheads were shared out, the Mini always made money. Larger profits came from the popular De Luxe models and from optional extras such as seat belts, door mirrors, a heater, and a radio, which would be considered necessities on modern cars, as well as the various Cooper and Cooper S models. The Mini entered into popular culture in the 1960s with well-publicised purchases by film and music stars.
The Mini continued to evolve, quite gradually, so this mid 1970s model does not look that different from the earlier car.
The Mini was the model that refused to die, with sales continuing after the launch of the Metro in 1980, and gathering momentum again in the 1990s, thanks in no small part to interest from Japan and because Rover Group decided to produce some more Cooper models. The first series of Cooper cars had been discontinued in 1971, replaced by the cheaper to build 1275GT, but when a limited edition model was produced in 1990, complete with full endorsement from John Cooper, the model was a sell out almost overnight, which prompted the decision to make it a permanent addition to the range. A number of refinements were made during the 90s, with fuel injection adding more power, a front mounted radiator and more sound deadening making the car quieter and new seats adding more comfort and a new dash making the car look less spartan inside.
The Mini Moke is a small, front-wheel-drive utility and recreational convertible, conceived and manufactured as a lightweight military vehicle by British Motor Corporation (BMC), and subsequently marketed for civilian use under the Austin, Morris, Leyland, and Moke brands. The name “Mini Moke” combines mini with moke, an archaic term for a mule. The Moke is known for its simple, straightforward, doorless design; and for its adaptability. BMC’s Cowley plant started building Mokes in January 1964, with 14,518 produced in the UK between 1964 and 1968; 26,000 were manufactured in Australia between 1966 and 1981; and 10,000 in Portugal between 1980 and 1993 when, after a nearly 30-year run, production ended. The original Moke was designed by Sir Alec Issigonis and John Sheppard. When Issigonis designed the Mini, he planned another vehicle to share the Mini’s mechanical parts, but with a more rugged body shell. This was an attempt to take a portion of the military vehicle business from Land Rover. Issigonis had previously designed the Nuffield Guppy in a failed attempt to break into that market. By 1959, BMC had working prototypes of what was codenamed “The Buckboard”, later to become the Mini Moke. These prototypes were shown to the British Army as a parachute-droppable vehicle, but poor ground clearance and a low-powered engine did not meet the most basic requirements for an off-road vehicle. Only the Royal Navy showed any interest in the Buckboard, as a vehicle for use on the decks of aircraft carriers. Early promotional material made much of the lightness of the vehicle, showing four soldiers travelling in the Moke off-road, then picking it up by its tubular bumpers and carrying it when (inevitably) its low ground-clearance proved inadequate. In a further attempt to make a viable military vehicle, a few four-wheel drive Mokes were made. This was accomplished by the addition of a second engine and transmission at the back of the vehicle with linked clutches and gear shifters, which did nothing for the ground-clearance problems. This vehicle was called “The Twini” and was shown to the US Army—again with no success. The added mechanical complexity and lack of interest by the military discouraged development beyond the prototype stage. Three of these vehicles were used by the Brazilian Army after being captured during the 1969 Rupununi Rebellion from Guyanese rebels, who had crossed the border into Brazil. During the Rhodesian Bush War there was an attempt by the Rhodesian Security Forces to create an Armoured Moke as an improvised fighting vehicle, which was seemingly unsuccessful. Originally prototyped using the engine, transmission and suspension parts from the Mini Van, the design’s small wheels and low ground clearance made it unsuitable as an off-road military vehicle. The design was subsequently adapted and sold globally for general use as a low-cost, easily maintained, lightweight recreational and utility vehicle. When BMC gave up on the idea of selling the Moke to the military, in 1963 they marketed it as a civilian vehicle, targeting farmers and light commercial applications. Several prototypes were built in 1963, one of which is still known to exist in Pinner just outside London, England. The Moke was launched onto the British market in 1964. The British Customs and Excise department decided that the Moke should be classified as a passenger car rather than as a commercial vehicle, which meant that it attracted purchase tax, reducing sales in its intended commercial market. British-made Mokes were fitted with a low-end 848 cc transverse inline-four engine, detuned to use low-octane fuel. They used the same suspension, gearbox and 10 inch wheels as the standard Mini. Originally, passenger seats, grab handles, heater, windscreen washer and a removable canvas top were optional equipment, installed by the owner. The base price was £ 405. The “Mk I” Mokes had a single windscreen wiper and a floor-mounted headlight dip switch, and the only colour available was “Spruce Green”. In 1967, the “Mk II” Moke added a passenger-side wiper. Horn and headlight controls were moved onto the indicator stalk. These later British Mokes were also available in white. The John Player & Sons cigarette company ran a team of Mokes in autocross competitions on grass tracks through 1968. These vehicles were equipped with rollover protection and used the Mini Cooper S 1275 cc engine. Despite the lack of success in selling the Mini Moke to the British Armed Forces, an unknown number (unlikely to have been more than a handful) of examples were apparently used by Land Forces Falkland Islands during the Falklands War and its immediate aftermath; the source of these vehicles is unclear. At least one commandeered civilian Mini Moke was also used by the Argentinian Forces during their occupation of the islands. The original Moke was made in Britain until 1968. Starting in 1966 the Moke was built in Australia where it was originally marketed as the Morris Mini Moke, and from 1973 as the Leyland Moke. Initially Australian Mokes had the same 10-inch wheels as British Mokes and Mini saloons but in 1968 these were replaced by 13-inch wheels with longer rear trailing arms, which made them more practical for gentle off-road or beach use than the British version. There was also a widening piece welded to the wheel arches, front and rear to allow for wider tyres and rims. The solid metal seats of the British Mokes were replaced with tubular-framed “deck-chair” seats. This variant started with a 998 cc engine, which was switched mid-production to 1,098 cc. In 1976, with the advent of new anti-pollution requirements (Australian Design Rule 27A), the locally manufactured 1,098 cc motor was replaced by an imported version of the 998 cc motor with an air pump and exhaust gas recirculation, which had been developed to meet UK (US?) anti-pollution requirements. For a brief period around 1971, Leyland Australia produced a variant referred to in Leyland literature as “Moke, special export”, but commonly called a “Californian”, which had a 1,275 cc engine and was fitted with side marker lamps and different rear lights to conform to US FMVSS standards. The fuel tank from the Austin Sprite or MG Midget was fitted beneath the rear load area, replacing the standard tank mounted in the left sidebox. The export Californian was readily recognisable by its roof and seats, trimmed in “Op-pop verve” black and white tiger-striped vinyl or “Orange Bali” vinyl, which looked rather like a fruit salad, and was briefly marketed to the “flower power” culture in the United States. The name “Californian” and the 1275 cc motor were resurrected in 1977 for Australian market Mokes with denim seat covers, more comfortable seats (which concealed the same basic frame within), spoked wheels and complex tubular bumpers (known as “roo bars”). Australian Mokes were exported to many countries and pioneered large-scale exports of Australian-made vehicles. Leyland Australia made much of these exports in its advertising. The use of Australian-made Mokes by the Israeli Army (complete with a machine-gun tripod mounted in the rear) attracted controversy and media attention. From 1975, a pickup version of the Moke was produced, with a 1.45 x 1.50 metre (55 x 59 in) drop-sided bed which protruded behind the back of the vehicle, and a cloth top over the cab area. At least two four-wheel drive Moke prototypes were manufactured by Leyland Australia in the late 1970s, but unlike the British version, these used just one engine. Leyland were planning to market this version, but Moke production in Australia ended in 1981 and all that remains of the project is one of the prototypes which is now owned by an enthusiast in Western Australia and a modified differential crownwheel with gearteeth cut in the side to drive the rear tailshaft, in the personal collection of a Melbourne Mini specialist. In 1977 a 1275 cc Cooper S-engined Moke (sponsored by Coca-Cola) was entered into the Singapore Airlines London-Sydney Marathon. The car was driven over 30,000 km (19,000 miles) over 30 days and finished in 35th place. Australian production of the Moke ended in 1981. As Australian Moke production wound down, manufacturing was transferred to British Leyland’s subsidiary in Portugal, which made 8,500 of the “Californian” Mokes in the Setúbal IMA plant between 1980 and 1984. In 1984 production was transferred to the Vendas Novas plant. Initially these Mokes were identical to late-model Australian Mokes; very soon, however, they were altered to use then-current British production Mini saloon components, including the standard-length Mini rear trailing arms and the 12–in wheels with modern low-profile tyres, which the saloon had acquired during the Moke’s absence from Europe. In April 1990, British Leyland (by then called Rover Group) sold the “Moke” name to Cagiva, a motorcycle manufacturer in Bologna, Italy. Production continued in Portugal under Cagiva’s auspices until 1993, when Cagiva transferred the tooling to their own factory in Varese, Italy with the intention of restarting production there in 1995 — which they never did, although some unfinished cars were assembled in Italy. Cagiva was made to pay a considerably higher price for the Rover-made parts than had BL’s Portuguese subsidiary, and the enterprise never made financial sense. The Cagiva-built Mokes have a new top with C-shaped openings, as well as plastic curve handles at the rear longitudinal elements of the rollover bar. Since Cagiva did not own the “Mini” name, the 2071 cars they built were sold simply as “Mokes”. This brought the total production run of Mokes and Moke derivatives to about 50,000. In 2013, in a joint venture with Jaguar Land Rover, Chinese automaker Chery Automobile started production in China of a new car called Moke. This evocation of the design is assembled and distributed by a number of companies in several countries including England, France, and the US, although ownership of the Moke trademark is disputed.
MORGAN
H.F.S. Morgan’s first car design was a single-seat three-wheeled runabout, which was fabricated for his personal use in 1908, with help from William Stephenson-Peach, the father of friends, and the engineering master at Malvern College. Powered by a 7 hp Peugeot twin cylinder engine (from an abandoned motorcycle project), the car had a backbone chassis, an idea retained for all following Morgan three-wheelers, and used as little material and labour as Morgan could manage. A single-seat three-wheeler with coil-spring independent front suspension, unusual at the time, the driveshaft ran through the backbone tube to a two-speed transmission (with no reverse), and chain drive to each of the rear wheels. The steering was by tiller, and it had band brakes. It also had no body. With financial help from his father and his wife, the car was put into production at premises in Pickersleigh Road, Malvern Link. Three single-seater cars were exhibited at the 1910 Motor Show at Olympia in London. This is a replica of that car.
In 1912, Morgan set out to win the trophy offered by The Light Car & Cyclecar for greatest distance covered in an hour, at Brooklands. The single-seater covered 55 mi (89 km), only to be narrowly beaten by a GWK; Morgan returned later the same year, reaching nearly 60 miles. Morgan established its reputation via competition such as winning the 1913 Cyclecar Grand Prix at Amiens in France, driven by W. G. McMinnies, with an average speed of 42 mph (68 km/h) for the 163 miles. This became the basis for the ‘Grand Prix’ model of 1913 to 1926, from which evolved the ‘Aero’, and ‘Sports’ models. Morgan himself won the “very tough” ACU Six Days’ Trial in 1913, in the sidecar class. The same year, the company entered the MCC reliability trial, which it continued to do until 1975. Racing success led to demand the company proved unable to meet. These models used air-cooled or liquid-cooled variations of motorcycle engines. The engine was placed ahead of the axis of the front wheels in a chassis made of steel tubes brazed into cast lugs. After the First World War, the company introduced an easily changed rear wheel, which customers had been seeking for several years. The 1921 Popular, powered by an 8 hp JAP and bodied in poplar, sold for £150. It was a sales success, the price dropping to £128, and the name changing to Standard, by 1923, when a Blackburne engine was also available.The Grand Prix was priced £155, and the Family (with two notional child seats behind the front bench, setting a standard 2+2s would follow for generations) was £148 with air-cooled engine, or £158 with water-cooled engine. The Anzani-powered Aero was also available, for £148. MAG engines were also optional. Morgan’s racing efforts suffered a blow in 1924, when E. B. Ware’s JAP-engined car rolled at the JCC 200 miles at Brooklands; Ware was seriously hurt, leading to a ban on three-wheelers competing as cars.Electric headlamps were made available in 1924, at an £8 cost. The Popular, powered by a 976 cc engine, sold for £110, the 1,098 cc (67 cu in) Aero for £148, and the one-seater £160. Like motorcycles, Morgans had hand throttles, Bowden-wire control mechanisms, and drip lubrication. Racing Morgans included Harold Beart’s 1,096 cc Blackburne-engined special, with 3.33:1 top gear and a 43 lb (20 kg) streamlined body, which covered 91.48 miles in a one-hour trial at Brooklands, with a peak speed of over 100 mph. In 1925, the Standard’s price had dropped to £95, and the Aero £130, compared to £149 for an Austin Chummy. Electric lighting by dynamo became standard that year. Front-wheel brakes and electric start (a £10 option) became available in 1927, while the Standard’s price fell to £89, complete with a double-thickness windscreen and “electric hooter”. By year’s end, the Standard was even cheaper, £85, while the new Super Sports debuted, with an overhead valve JAP 10/40 water-cooled vee-twin, priced £155. The 10/40 engine was also available in the Aero, at £132, while a more sedate air-cooled JAP-powered Aero went for £119. The Family was priced at £102 (air-cooled) or £112 (water-cooled). These new, lower prices persisted through 1928. They would be lower still in 1929: the Standard and Family at £87 10s, the Aero £110, and the Super Sports £145. In 1933, the Family was priced at only £80. Morgan’s racing programme in 1927 earned the marque eleven gold medals and three silvers from fourteen entrants at MCC’s London-Edinburgh Trials alone. The team was joined by Clive Lones and C. T. Jay, who won the 1929 Cyclecar Grand Prix at Brooklands, driving a 750 cc (46 cu in) Morgan-JAP, with an average speed of 64.7 mph. And in 1930, Gwenda Stewart turned in a speed of 113 mph in a race-tuned Super Sports. Morgan three-wheelers benefitted from an annual tax of just £4, half the tax on the Austin 7, provided they remained under 8 cwt. Morgans were also licence-built in France by Darmont. By 1930, however, inexpensive four-wheeled cars were proliferating, led by the £100 Ford Popular. Morgan, and partner George Goodall, countered by putting the 8 hp 933 cc and 10 hp 1,172 cc Ford engine in their own cars. Morgan’s last vee-twins were powered by Matchless engines displacing 990 cc; they were delivered to Australia after the Second World War. The vee-twin models were not returned to production after World War II. The Three Wheeler returned in 2012 in a modern re-interpretation and it has proved a huge success.
There were plenty of examples of what we think of as the “regular” shaped Morgan in Plus 4 and Plus 8 guises.
Also here was an Aero 8. The Morgan Aero 8 sports car was built by Morgan Motor Company at its factory in Malvern Link from 2000 until 2018. The Aero 8 shape evolved in the traditional Morgan way of form following function and the main players were Chris Lawrence, Charles Morgan and other members of the Morgan Engineering Team, and Norman Kent of Survirn Engineering Ltd – especially for the tooling of the Aero wings.The AeroMax, Aero Supersports and Aero Coupe were designed by the firm’s designer Matthew Humphries. Matthew sent the basic design of it to Charles Morgan when he was at Coventry University and joined Morgan on a KTP programme. Radshape were heavily involved in the chassis (Graham Chapman, the current MMC Development Director was working for them at that time) and Superform with much of the body panels, both companies eventually producing for MMC when the car was launched. The Aero 8 is notable for several reasons, primarily because it is the first new Morgan design since 1964’s +4+. It was touted as Morgan’s first supercar and undertook a comprehensive development programme including endurance testing at BMW’s huge proving grounds L’Autodrome de Miramas. It does not use anti-roll bars, an oddity in a modern sporting car. It is also the first Morgan vehicle with an aluminium chassis and frame as opposed to traditional Morgan vehicles (“trads”) that have an aluminium skinned wooden body tub on a steel chassis. The engine first powering the Aero 8 was a 4.4 L BMW M62 V8 mated to a 6-speed Getrag transmission. In 2007, the Series 4 Aero 8 was released which had an upgraded 4.8 L BMW N62 V8 with an optional ZF automatic transmission. All Aero 8s are assembled at Morgan’s Malvern Link factory, where they are able to produce up to 14 cars a week (Aeros and trads). It has been criticised for its “crosseyed” look which originally was justified by the manufacturers as conferring aerodynamic benefits.The third iteration of the Aero was largely around adding the new style Mini headlamps with changes to the wings and front panels resolving the famous squint of the earlier cars. It retained the interior and mechanical platform of the Series 2. This new front design went on to be used on the new AeroMax and subsequent Aero models. Approximately 200 Series 3 models were produced. Version 4 of the Morgan Aero 8 has seen the 3rd new engine in the life of the vehicle; the BMW 4.4 V8 has been replaced with the BMW 4.8 V8 (N62B48) with 362 bhp (270 kW) and 370 lb/ft of torque. This 13% power increase over the previous Aero gives the new Series 4 Aero 8 a power to weight ratio of 315 bhp per tonne. While heavier BMW saloons were unable to meet emissions regulations with the 4.8l V8 the lighter Aero did meet the Euro 6 emissions standard. BMW produced a short run of engines on a prototype line for Morgan. A first for the Aero 8 also comes in the form of an optional automatic transmission; Morgan state: – ZFs 6 HP26 six speed gives even better performance than a manual gearbox due to its special lock up clutch, low power loss design and instant change characteristic. The automatic is usable either as a full automatic for more relaxed driving or in sport manual mode when the bespoke gear lever will hold the engine revs up to the maximum in each gear, increase change speed and blip the throttle to smooth down changes. In addition to these technical changes, a repositioned fuel tank (to improve the weight distribution), revised instrumentation (from cream dials with blue numerals to black with white), an increase in luggage space, revised air vents, a move to a conventional handbrake lever and air intakes and exits on the front wings distinguish the Series 4 Aero 8 from previous models.
First referred to in 2011, and launched in production spec in 2012, the Three Wheeler has been a huge success for Morgan, and for a while the company simply could not build them fast enough. Relatively affordable, compared to the other products in the range, this fun machine has a 2 litre S&S engine coupled to an MX-5 gearbox, and a weight of 550 kg, which is enough to give it a top speed of around 115 mpg and a 0- 60 time of less than 5 seconds.
That model was superceded by a thoroughly re-engineered Super 3 and there were a couple of these here, too.
MORRIS
No surprise to see the evergreen Morris Minor here as this is a very popular classic. The Minor was conceived in 1941. Although the Nuffield Organization was heavily involved in war work and there was a governmental ban on civilian car production, Morris Motors’ vice chairman, Miles Thomas, wanted to prepare the ground for new products to be launched as soon as the war was over. Vic Oak, the company’s chief engineer, had already brought to Thomas’ attention a promising junior engineer, Alec Issigonis, who had been employed at Morris since 1935 and specialised in suspension design but he had frequently impressed Oak with his advanced ideas about car design in general. Issigonis had come to Oak’s particular attention with his work on the new Morris Ten, which was in development during 1936/7. This was the first Morris to use unitary construction and was conceived with independent front suspension. Issigonis designed a coil-sprung wishbone system which was later dropped on cost grounds. Although the design would later be used on the MG Y-type and many other post-war MGs the Morris Ten entered production with a front beam axle. Despite his brief being to focus on the Ten’s suspension Issigonis had also drawn up a rack and pinion steering system for the car. Like his suspension design this was not adopted but would resurface in the post-war years on the MG Y-type, but these ideas proved that he was the perfect candidate to lead the design work on a new advanced small car. With virtually all resources required for the war effort, Thomas nonetheless approved the development of a new small family car that would replace the Morris Eight. Although Oak (and Morris’ technical director, Sidney Smith) were in overall charge of the project it was Issigonis who was ultimately responsible for the design, working with only two other draughtsmen. Thomas named the project ‘Mosquito’ and ensured that it remained as secret as possible, both from the Ministry of Supply and from company founder William Morris (now Lord Nuffield), who was still chairman of Morris Motors and, it was widely expected, would not look favourably on Issigonis’ radical ideas. Issigonis’ overall concept was to produce a practical, economical and affordable car for the general public that would equal, if not surpass, the convenience and design quality of a more expensive car. In later years he summed up his approach to the Minor; that he wanted to design an economy car that “the average man would take pleasure in owning, rather than feeling of it as something he’d been sentenced to” and “people who drive small cars are the same size as those who drive large cars and they should not be expected to put up with claustrophobic interiors.” Issigonis wanted the car to be as spacious as possible for its size and comfortable to drive for inexperienced motorists. Just as he would with the Mini ten years later, he designed the Mosquito with excellent roadholding and accurate, quick steering not with any pretence of making a sports car, but to make it safe and easy to drive by all. As work proceeded, there were plenty of battle to overcome, to get Issigonis’ ideas approved, and not all of them were. The production car, called the Minor was launched at the British Motor Show at Earls Court in London on October 27, 1948. At the same show Morris also launched the new Morris Oxford and Morris Six models, plus Wolseley variants of both cars, which were scaled-up versions of the new Minor, incorporating all the same features and designed with Issigonis’ input under Vic Oak’s supervision. Thus Issigonis’ ideas and design principles underpinned the complete post-war Morris and Wolseley car ranges. The original Minor MM series was produced from 1948 until 1953. It included a pair of four-seat saloons, two-door and (from 1950) a four-door, and a convertible four-seat Tourer. The front torsion bar suspension was shared with the larger Morris Oxford MO, as was the almost-unibody construction. Although the Minor was originally designed to accept a flat-4 engine, late in the development stage it was replaced by a 918 cc side-valve inline-four engine, little changed from that fitted in the 1935 Morris 8, and producing 27.5 hp and 39 lbf·ft of torque. This little engine pushed the Minor to just 64 mph but delivered 40 mpg. Brakes were four-wheel drums. Early cars had a painted section in the centre of the bumpers to cover the widening of the production car from the prototypes. This widening of 4 inches is also visible in the creases in the bonnet. Exports to the United States began in 1949 with the headlamps removed from within the grille surround to be mounted higher on the wings to meet local safety requirements. In 1950 a four-door version was released, initially available only for export, and featuring from the start the headlamps faired into the wings rather than set lower down on either side of the grille. The raised headlight position became standard on all Minors in time for 1951. From the start, the Minor had semaphore-type turn indicators, and subsequent Minor versions persisted with these until 1961 An Autocar magazine road test in 1950 reported that these were “not of the usual self-cancelling type, but incorporate[d] a time-basis return mechanism in a switch below the facia, in front of the driver”. It was all too easy for a passenger hurriedly emerging from the front passenger seat to collide with and snap off a tardy indicator “flipper” that was still sticking out of the B-pillar, having not yet been safely returned by the time-basis return mechanism to its folded position. Another innovation towards the end of 1950 was a water pump (replacing a gravity dependent system), which permitted the manufacturer to offer an interior heater “as optional equipment”. When production of the first series ended, just over a quarter of a million had been sold, 30 per cent of them the convertible Tourer model. In 1952, the Minor line was updated with an Austin-designed 803 cc overhead valve A-series engine, replacing the original side-valve unit. The engine had been designed for the Minor’s main competition, the Austin A30, but became available as Austin and Morris were merged into the British Motor Corporation. The new engine felt stronger, though all measurements were smaller than the old. The 52 second drive to 60 mph was still calm, with 63 mph as the top speed. Fuel consumption also rose to 36 mpg. An estate version was introduced in 1952, known as the Traveller (a Morris naming tradition for estates, also seen on the Mini). The Traveller featured an external structural ash (wood) frame for the rear bodywork, with two side-hinged rear doors. The frame was varnished rather than painted and a highly visible feature of the body style. Commercial models, marketed as the Morris Quarter Ton Van and Pick-up were added in May 1953. Rear bodies of the van versions were all steel. The 4-seat convertible and saloon variants continued as well. The car was again updated in 1956 when the engine was increased in capacity to 948 cc. The two-piece split windscreen was replaced with a curved one-piece one and the rear window was enlarged. In 1961 the semaphore-style trafficators were replaced by the flashing direction indicators, these were US-style red at the rear (using the same bulb filament as the brake lamp) and white at the front (using a second brighter filament in the parking lamp bulb) which was legal in the UK and many export markets at the time (such as New Zealand). An upmarket car based on the Minor floorpan using the larger BMC B-Series engine was sold as the Riley One-Point-Five/Wolseley 1500 beginning in 1957: versions of this Wolseley/Riley variant were also produced by BMC Australia as the Morris Major and the Austin Lancer. In December 1960 the Morris Minor became the first British car to sell more than 1,000,000 units. To commemorate the achievement, a limited edition of 350 two-door Minor saloons (one for each UK Morris dealership) was produced with distinctive lilac paintwork and a white interior. Also the badge name on the side of the bonnet was modified to read “Minor 1,000,000” instead of the standard “Minor 1000”. The millionth Minor was donated to the National Union of Journalists, who planned to use it as a prize in a competition in aid of the union’s Widow and Orphan Fund. The company, at the same time, presented a celebratory Minor to London’s Great Ormond Street Hospital for Sick Children, but this car was constructed of cake. The final major upgrades to the Minor were made in 1962. Although the name Minor 1000 was retained, the changes were sufficient for the new model to be given its own ADO development number. A larger version of the existing A-Series engine had been developed in conjunction with cylinder head specialist Harry Weslake for the then new ADO16 Austin/Morris 1100 range. This new engine used a taller block than did the 948 cc unit, with increased bore and stroke bringing total capacity up to 1,098 cc. Although fuel consumption suffered moderately at 38 mpg, the Minor’s top speed increased to 77 mph with noticeable improvements in low-end torque, giving an altogether more responsive drive. Other changes included a modified dashboard layout with toggle switches, textured steel instrument binnacle, and larger convex glove box covers. A different heater completed the interior upgrade, whilst the larger combined front side/indicator light units, common to many BMC vehicles of the time, were fitted to the front wings. These now included a separate bulb and amber lens for indicators while larger tail lamp units also included amber rear flashers. During the life of the Minor 1000 model, production declined. The last Convertible/Tourer was manufactured on 18 August 1969, and the saloon models were discontinued the following year. Production of the more practical Traveller and commercial versions ceased in 1972, although examples of all models were still theoretically available from dealers with a surplus of unsold cars for a short time afterwards. 1,619,857 Minors of all variants were ultimately sold
NISSAN
The second generation 240SX was released in the spring of 1994 as a 1995 model. The hatchback and convertible body styles were eliminated, leaving only the coupe. The wheelbase of the car grew 2 in (51 mm) and the track width was also increased, while the overall length of the vehicle was slightly shorter than the previous generation. The curb weight of the vehicle increased by about 80 lb (36 kg) relative to the 1994 model. Dual air bags were added and the automatic seatbelts were replaced with common manual type. The pop-up headlights were replaced with fixed headlamps. The cupholders were also removed in this generation of the Nissan 240SX. Though the general layout remained the same, almost all parts were redesigned to the extent that very few parts are interchangeable. The chassis was changed slightly to increase stiffness (Nissan claimed 50% torsional, 100% bending rigidity increase) and utilized higher rear strut mounts. The fuel tank, previously located at the rear end under the trunk floor, now sits in front of the rear suspension and behind the rear seats. The second generation carries over the naturally aspirated DOHC KA24DE engine from the first generation, producing the same 155 bhp at 5,600 rpm and 160 lb/ft (217 Nm) of torque at 4,400 rpm, but features internal revisions for improved throttle response and reduced shake and vibration. When tested by MotorWeek, the 240SX achieved a 0-60 mph time of 7.3 seconds and a quarter mile time of 15.5 seconds at 89 mph (143 km/h). Upon its launch, Nissan said the primary target demographic for the new 240SX was single women with no children, stating that women already made up 61% of 240SX buyers, and that they hoped to increase that number. The base model had 4-lug, 15-inch wheels, a softer suspension, and no rear sway bar. The base model had several options and features available to be fitted to the car such as leather seats, ABS, and a viscous limited-slip differential. SE and LE models came equipped with 5-lug, 16-inch alloy wheels, a stiffer suspension than the base model, and a rear sway bar. The LE was basically an upgraded SE model, but with more standard equipment such as leather seats, keyless entry, an anti-theft system, and a CD player. Anti-lock brakes and a viscous limited-slip differential could be had as an optional package to both base and SE/LE models. In 1996, the 1997 model year 240SX received minor updates. The different looks of the S-Chassis are referred to as before change “Zenki” and after change “Kouki”. Changes were mostly aesthetic, including new projector headlights, front bumper, hood, fenders, and revised taillights and center panel. Side skirts became standard on the SE and LE trim level. 1998 marked the end of production for the Nissan 240SX, with no further variations released in North America. This generation of the 240SX suffered in sales due to competition from other car manufacturers and consumers at the time choosing more practical vehicles, such as SUVs. In this generation, every 240SX was built in Kyūshū, Japan. The last 240SX rolled off the assembly line on July 23, 1998.
Another of those cars that you expect to see here is the Skyline or GT-R and sure enough there was this R35 version, a still current model which goes back to a 2007 launch in Japan. The car has changed a lot in detail since then, but visually, it does not look that different. It is also a lot more expensive than it used to be. European sales have dropped to a low number now but in the early years quite a few were sold.
PEUGEOT
Before the 205, Peugeot was considered the most conservative of France’s “big three” car manufacturers, producing large saloons such as the 504 and 505, although it had entered the modern supermini market in 1973 with the Peugeot 104. The genesis of the 205 lay within Peugeot’s takeover in 1978 of Chrysler’s European divisions Simca and the former Rootes Group, which had the necessary expertise in making small cars including the Simca 1100 in France and Hillman Imp in Britain. It was around this time that Peugeot began to work on the development of a new supermini for the 1980s. It was launched on 24 February 1983, and was launched in right-hand drive form for the UK market in September that year. Shortly after its launch, it was narrowly pipped to the European Car of the Year award by the similar sized Fiat Uno, but ultimately (according to the award organizers) it would enjoy a better image and a longer high market demand than its Italian competitor. It was one of five important small cars to be launched onto the European market within a year of each other: the other four were the Uno, the second generation Ford Fiesta, the original Opel Corsa (sold as the Vauxhall Nova on the British market) and the original Nissan Micra. Its launch also closely followed that of the Austin Metro and Volkswagen Polo Mk2. The styling of the 205 is often thought to be a Pininfarina design, although Gerard Welter claims that it is an in-house design; Pininfarina only styled the Cabriolet. It is often credited as the car that turned Peugeot’s fortunes around. The fully independent suspension used the now standard PSA Peugeot Citroën layout that had debuted in the Peugeot 305 estate. A key ingredient of the success of the 205, it had MacPherson struts at the front and trailing arms with torsion bars at the rear. The rear suspension was very compact, designed to minimise suspension intrusion into the boot, giving a wide flat loadspace, while providing excellent ride and handling. Early 205s used the X petrol engine [n 1] from the older Peugeot 104, although these were later (1987–1988) replaced with the newer XU and TU-series engines, which were of PSA design. Engines ranged in displacement from 954 cc to 1905 cc, in carburettor or fuel injected versions. The diesel models employed the PSA XUD engine, lifted from the Citroën BX which was introduced in September 1982. These engines had a capacity of 1769 cc (XUD7) and 1905 cc (XUD9) and are closely related to the XU5 and XU9 petrol engines in the BX16 and BX19 of the time. The diesel engines were world-beating and so petrol-like that many buyers were won over by petrol car performance combined with diesel economy. For instance, the 205 GRD (1.8 Diesel, 59 bhp, 78 lb/ft (105.8 Nm)) was as fast as, yet smoother than, the 205 GR (1.4 Petrol, 59 bhp, 78 lb/ft (105.8 Nm)), due to the engine developing peak torque at much lower rpm, while using much less fuel. There were various versions intended for commercial use, such as the two-seater XA-series. There was also the “205 Multi”, a tall-bodied special version on XA or XE-basis built by independent coachbuilders like Gruau and Durisotti. Gruau called their XA-based two-seater version the “VU”, while the five-seat XE-based version was called the “VP”. Durisotti began building the 205 Multi in 1986; it was called the “205 Multi New Look”. The 205 was an instant hit, and its styling was echoed in every Peugeot model that was to follow. The exterior styling was never facelifted or significantly altered in its 15-year production run. There was a dashboard redesign for the 1988 model year, and in late 1990 the 205 received new door design and cards, clear front indicators, new ‘smoked’ rear light clusters, single point petrol injection and catalytic converters were introduced, to meet the new 1992 pollution limits. These updates came at a crucial time, as 1990 also saw the arrival of a completely new French competitor, the Renault Clio, while the Rover Metro and Volkswagen Polo were also heavily updated, and Ford had already replaced its Fiesta with a third generation model. Still, the 205 was still widely regarded in the motoring press as the benchmark car in this sector by 1990. At the beginning of 1993, Peugeot launched the 306, which officially replaced the 309; the arrival of this car also diminished the 205’s role (and its sales figures) in the Peugeot range, as had the arrival of the smaller 106 in September 1991 – although the final demise of the 205 was still some years away. The engines were continuously updated, with the new TU engines introduced in 1988. In 1991, the 205 dTurbo was launched with a powerful turbocharged version of the 1,769 cc xud diesel engine. After several years of gradually declining sales, the Peugeot 205 was discontinued in the United Kingdom in 1996. The Peugeot 205 was still offered in the “Sacré Numéro” and “Génération” models until the end of the production in 1998. The last models were GLD 1.8 configuration and were sold in Argentina. Most of the later European versions were only sold in France. Due to the pressure from the market, with buyers wanting a Peugeot supermini in the mould of the 205 again, the company finally built a direct replacement in the 206, which was launched in 1998. 5,278,050 Peugeot 205s have been sold, and a significant percentage of them were still in circulation as of 2009. By 2014, there were still as many as 14,000 on the road in the United Kingdom, compared to the peak high of 374,773 in 1994. With potentially as many 400,000 sales in the UK, it became the best selling car ever sold by Peugeot in the UK – although its success was emulated a few years later by the larger 306 and later by the 206. It also helped boost the popularity of the Peugeot brand there, and was at least a factor in Peugeot’s decision to phase out the Talbot brand in the mid 1980s when launching new models to be built at the former Rootes Group plant near Coventry and the former Simca plant at Poissy.
Mindful of the success of the Golf GTi, in the class above, and how a small car with good handling could take more power, as the Mini Cooper had proved, Peugeot came up with the GTi in early 1984. The first models had a 1.6 litre XU5J engine, producing 105 PS, which was uprated in 1987 with a cylinder head with larger valves thus becoming XU5JA, which took the power output up to 115 bhp. Visually the car retained the good looks of the 3 door version of the regular models, but it featured plastic wheel arch extensions and trim, beefier front and rear bumper valances and judicious use of red badging and trim. The shell also underwent some minor changes, including larger wheel arches (to suit the larger wheels , and the suspension was redesigned and sat lower on the GTI with stiffer springs, different wishbones and a drop-linked anti-roll bar. Red was a dominant colour inside. The car was an instant hit. At the end of 1986, Peugeot followed up with a more potent model, the 1.9 GTi, whose XU9JA engine produced 128 PS. Internally the engine of this car and the 1.6 model are very similar, the main differences on 1.9 litre versions being the longer stroke, oil cooler, and some parts of the fuel injection system. The shorter stroke 1.6 litre engine is famed for being revvy and eager, while the 1.9 litre feels lazier and torquier. Outside the engine bay the main differences between the 1.6 GTi and the 1.9 GTi are half-leather seats on the 1.9 GTi vs. cloth seats and disc brakes all-round (1.9 GTi) vs. discs at the front and drum brakes at the back; as well as the 14-inch Speedline SL201 wheels on the 1.6 GTi vs. 15 inch Speedline SL299 alloys on the 1.9 GTi. The 205 is still often treated as a benchmark in group car tests of the newest GTI models or equivalent. Peugeot itself has never truly recreated this success in future GTI models, although they came very close with the highly regarded GTI-6 variant of the Peugeot 306.
Launched in September 1991, the 106 was Peugeot’s entry level offering throughout its production life, and was initially sold only as a three door hatchback, with a five door hatchback joining the range in the beginning of 1992. The “10” line of Peugeot superminis had commenced in 1972 with the launch of the 104, one of the first modern European superminis. The 104 was effectively replaced by the Peugeot 205 in 1983, but remained in production for some markets until 1988. There was no “105”. The 106 was introduced as a three door hatchback in continental Europe in September 1991, and two months later in the United Kingdom. The initial engine range had 1.0, 1.1 and 1.4 petrol engines, as well as a 1.5 diesel. The early 1.0 and 1.1s were carburetted, but were replaced with fuel injection after a year due to EC emissions requirements. The 106 was updated in July 1996, with changes including the introduction of side impact bars and availability of driver and passenger airbags for the first time, with the new 1.6 GTI joining the range as the spiritual successor to the hugely popular and highly regarded 205 GTI, which had been discontinued in 1994. In January 1996, the Peugeot 106 also formed the basis for the near identical looks and size Citroën Saxo. Marketed as having “fewer frills, more thrills”, the Rallye version had trademark steel wheels painted white. Power steering, central locking, and electric windows were omitted to keep the weight down to 825 kilograms. There were pre and post facelift versions of the 106 Rallye known to enthusiasts as S1 and S2 models, with the latter having a 103bhp 1.6 litre (TU5J2) engine in place of the original high revving Rallye specific 1.3 100bhp (TU2J2) engine fitted to pre facelift cars. Contrary to some sources, the S1 models did not share the same engine with the 205 Rallye and AX Sport, which used a carburettor TU24 engine. The dimensions of the aluminium S1 block resemble those of the 1.4 iron block with slightly lowered capacity to comply with the rules of the lower French rally classes at the time.(Under 1.300cc) The S1 (TU2J2)and S2 (TU5J2) were fuel injected, employing Magneti Marelli multi point fuel injection systems. The S1 Rallye were designed as a homologation special to compete in the 1300cc rally class. It featured a four cylinder, 8 valve, high compression engine with an aggressive cam profile designed to come ‘on song’ between 5400 and the 7200rpm redline. This engine coupled to a short ratio five speed gearbox made the 1.3 more of a sprinter than a cruiser. 70mph on the motorway was a noisy 4,000rpm in fifth gear, but given enough tarmac, the little 1.3 would redline in top gear at 115mph. The 106 was competitive in racing, but also made a practical small family car. All cars had steel wheels, and Rallye decals and seat coverings featuring a one or three colour flash, which again varied between early and late cars. With facelift came new top model named Peugeot 106 GTI with 1.6 litre 16 valves engine that produce 120hp. It came with new exterior body kit and new wheels. On some markets in Europe, it was badged S16 or Rallye. Production ceased in 2003. The 106’s successor, the Peugeot 107, along with rebadged versions, Citroën C1 and Toyota Aygo, was launched two years later in June 2005, as a joint venture with Toyota.
PLYMOUTH
This is a 1937 Plymouth de Luxe. Plymouth entered the light truck market in 1937. It was an aggressive move considering that Plymouth had also spent considerable resources on tooling and production of two almost totally new lines of passenger cars. Parent Chrysler made the commitment to take additional market share from others with the growing popularity of the Plymouth brand. The gamble worked and the marque’s reputation for durability, economy, and reliability helped propel Plymouth to third in the industry in passenger car sales for 1937. The Plymouth Model P4 received several changes to its dimensions in 1937, including having a slightly shorter wheelbase and a larger overall length. Along with several exterior design changes, the interior was given ‘Safety Styling’ which included the removal of all protruding known from the instrument panel and relocated to a safer location. The front seatbacks gained padding to help prevent injury to rear occupants. The instrument gauges were placed directly in front of the driver. The mechanical components remained mostly unchanged. Power was from a six-cylinder engine that had a 201.3 cubic-inch displacement and just over 80 horsepower. The engine was mated to a three-speed floor shift sliding gear transmission and hydraulic brakes were on all four corners. Sales of the 1937 Plymouth were strong, setting a new overall production record despite a labour dispute. With over half a million units produced, this production record would last until 1951. 1937 would be the final year for the opening windshields for ventilation.
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.
During the 1990s, Porsche was facing financial troubles and rumours of a proposed takeover were being spread. The signature air-cooled flat-6 of the 911 was reaching the limits of its potential as made evident by the 993. Stricter emissions regulations world wide further forced Porsche to think of a replacement of the air-cooled unit. In order to improve manufacturing processes, Porsche took the aid of leading Japanese car manufacturer Toyota whose consultants would assist in the overhaul of the Zuffenhausen manufacturing facility introducing mass production techniques which would allow Porsche to carry out production processes more efficiently. Porsche had realised that in order to keep the 911 in production, it would need radical changes. This led to the development of the 996. The sharing of development between the new 911 and the entry level Boxster model allowed Porsche to save development costs. This move also resulted in interchangeable parts between the two models bringing down maintenance costs. The Porsche 996 was a new design developed by Pinky Lai under Porsche design chief Harm Lagaay from 1992 to 1994; it was the first 911 that was completely redesigned, and carried over little from its predecessor as Porsche wanted the design team to design a 911 for the next millennium. Featuring an all new body work, interior, and the first water-cooled engine, the 996 replaced the 993 from which only the front suspension, rear multi-link suspension, and a 6-speed manual transmission were retained in revised form. The 996 had a drag coefficient of Cd=0.30 resulting from hours spent in the wind tunnel. The 996 is 185 mm (7 in) longer and 40 mm (2 in) wider than its predecessor. It is also 45% stiffer courtesy of a chassis formed from high-strength steel. Additionally, it is 50 kg (110 lb) lighter despite having additional radiators and coolant. All of the M96 engines offered in the 996 (except for the variants fitted to the Turbo and GT2/GT3 models) are susceptible to the Porsche Intermediate Shaft Bearing issue which can potentially cause serious engine failure if not addressed via a retrofit. The 996 was initially available in a coupé or a cabriolet (Convertible) bodystyle with rear-wheel drive, and later with four-wheel drive, utilising a 3.4 litre flat-6 engine generating a maximum power output of 296 bhp. The 996 had the same front end as the entry-level Boxster. After requests from the Carrera owners about their premium cars looking like a “lower priced car that looked just like theirs did”, Porsche redesigned the headlamps of the Carrera in 2002 similar to the high performance Turbo’s headlamps. The design for the initial “fried egg” shaped headlamps could be traced back to the 1997 911 GT1 race car. In 2000, Porsche introduced the 996 Turbo, equipped with a four-wheel-drive system and a 3.6-litre, twin-turbocharged and intercooled flat-six engine generating a maximum power output of 420 bhp, making the car capable of accelerating from 0–60 mph in 4.2 seconds. An X50 option which included larger turbochargers and intercoolers along with revised engine control software became available from the factory in 2002, increasing power output to 451 bhp. In 2005, Porsche introduced the Turbo S, which had the X50 option included as standard equipment, with the formerly optional Carbon fibre-reinforced Silicon Carbide (C/SiC) composite ceramic brakes (PCCB) also included as standard. In 2000, power output on the base Carrera model was increased to 300 bhp. 2001 marked the final year of production for the base Carrera 4 Coupé in narrow body format. In 2002, the standard Carrera models underwent the above-mentioned facelift. In addition, engine capacity was also increased to 3.6-litres across the range, yielding gains of 15 bhp for the naturally aspirated models. 2002 also marked the start of the production of the 996 based Targa model, with a sliding glass “green house” roof system as introduced on its predecessor. It also features a rear glass hatch which gave the driver access to the storage compartment. Also in 2002, the Carrera 4S model was first introduced.
The 996 was replaced with the 997 in 2005. It retains the 996’s basic profile, with an even lower 0.28 drag coefficient, but draws on the 993 for detailing. In addition, the new headlights revert to the original bug-eye design from the teardrop scheme of the 996. Its interior is also similarly revised, with strong links to the earlier 911 interiors while at the same time looking fresh and modern. The 997 shares less than a third of its parts with the outgoing 996, but is still technically similar to it. Initially, two versions of the 997 were introduced— the rear-wheel-drive Carrera and Carrera S. While the base 997 Carrera had a power output of 321 hp from its 3.6 L Flat 6, a more powerful 3.8 L 350 hp Flat 6 powers the Carrera S. Besides a more powerful engine, the Carrera S also comes standard with 19 inch “Lobster Fork” style wheels, more powerful and larger brakes (with red calipers), lowered suspension with PASM (Porsche Active Suspension Management: dynamically adjustable dampers), Xenon headlamps, and a sports steering wheel. In late 2005, Porsche introduced the all-wheel-drive versions to the 997 lineup. Carrera 4 models (both Carrera 4 and Carrera 4S) were announced as 2006 models. Both Carrera 4 models are wider than their rear-wheel-drive counterparts by 1.76 inches (32 mm) to cover wider rear tyres. The 0–100 km/h (62 mph) acceleration time for the Carrera 4S with the 350 hp engine equipped with a manual transmission was reported at 4.8 seconds. The 0–100 km/h (62 mph) acceleration for the Carrera S with the 350 hp was noted to be as fast as 4.2 seconds in a Motor Trend comparison, and Road & Track has timed it at 3.8 seconds. The 997 lineup includes both 2- and 4-wheel-drive variants, named Carrera and Carrera 4 respectively. The Targas (4 and 4S), released in November 2006, are 4-wheel-drive versions that divide the difference between the coupés and the cabriolets with their dual, sliding glass tops. The 997 received a larger air intake in the front bumper, new headlights, new rear taillights, new clean-sheet design direct fuel injection engines, and the introduction of a dual-clutch gearbox called PDK for the 2009 model year. They were also equipped with Bluetooth support. The change to the 7th generation (991) took place in the middle of the 2012 model year. A 2012 Porsche 911 can either be a 997 or a 991, depending on the month of the production.
The 991 introduced in 2012 is an entirely new platform, only the third since the original 911. Porsche revealed basic information on the new Carrera and Carrera S models on 23 August 2011. The Carrera is powered by a 350 hp 3.4-litre engine. The Carrera S features a 3.8-litre engine rated at 400 hp. A Power Kit (option X51) is available for the Carrera S, increasing power output to 430 hp. The new 991’s overall length grows by 56 mm (2.2 in) and wheelbase grows by 99 mm (3.9 in) (now 96.5 in.) Overhangs are trimmed and the rear axle moves rearward at roughly 76 mm (3 in) towards the engine (made possible by new 3-shaft transmissions whose output flanges are moved closer to the engine). There is a wider front track (51 mm (2 in) wider for the Carrera S). The design team for the 991 was headed by Michael Mauer. At the front, the new 991 has wide-set headlights that are more three-dimensional. The front fender peaks are a bit more prominent, and wedgy directionals now appear to float above the intakes for the twin coolant radiators. The stretched rear 3/4 view has changed the most, with a slightly more voluminous form and thin taillights capped with the protruding lip of the bodywork. The biggest and main change in the interior is the center console, inspired by the Carrera GT and adopted by the Panamera. The 991 is the first 911 to use a predominantly aluminium construction. This means that even though the car is larger than the outgoing model, it is still up to 50 kilograms (110 lb) lighter. The reduced weight and increased power means that both the Carrera and Carrera S are appreciably faster than the outgoing models. The 0–60 mph acceleration time for the manual transmission cars are 4.6 seconds for the Carrera and 4.3 seconds for the Carrera S. When equipped with the PDK transmission, the two 991 models can accelerate from 0–97 km/h in 4.4 seconds and 4.1 seconds. With the optional sports chrono package, available for the cars with the PDK transmission, the 991 Carrera can accelerate from 0–97 km/h in as little as 4.2 seconds and the Carrera S can do the same in 3.9 seconds. Apart from the reworked PDK transmission, the new 991 is also equipped with an industry-first 7-speed manual transmission. On vehicles produced in late 2012 (2013 model year) Rev Matching is available on the 7-speed manual transmission when equipped with the Sport Chrono package. Rev-Matching is a new feature with the manual transmission that blips the throttle during downshifts (if in Sport Plus mode). Also, the 7th gear cannot be engaged unless the car is already in 5th or 6th gear. One of Porsche’s primary objectives with the new model was to improve fuel economy as well as increase performance. In order to meet these objectives, Porsche introduced a number of new technologies in the 911. One of the most controversial of these is the introduction of electromechanical power steering instead of the previous hydraulic steering. This steering helps reduce fuel consumption, but some enthusiasts feel that the precise steering feedback for which the 911 is famous is reduced with the new system. The cars also feature an engine stop/start system that turns the engine off at red lights, as well as a coasting system that allows the engine to idle while maintaining speed on downhill gradients on highways. This allows for up to a 16% reduction in fuel consumption and emissions over the outgoing models. The new cars also have a number of technologies aimed at improving handling. The cars include a torque vectoring system (standard on the Carrera S and optional on the Carrera) which brakes the inner wheel of the car when going into turns. This helps the car to turn in quicker and with more precision. The cars also feature hydraulic engine mounts (which help reduce the inertia of the engine when going into turns) as part of the optional sports chrono package. Active suspension management is standard on the Carrera S and optional on the Carrera. This helps improve ride quality on straights while stiffening the suspension during aggressive driving. The new 991 is also equipped with a new feature called Porsche Dynamic Chassis Control (PDCC). Porsche claims that this new feature alone has shaved 4 seconds off the standard car’s lap time around the Nürburgring. PDCC helps the car corner flat and is said to improve high-speed directional stability and outright lateral body control, but according to several reviews, the car is more prone to understeer when equipped with this new technology. In January 2013, Porsche introduced the all-wheel-drive variants of the Carrera models. The ‘4’ and ‘4S’ models are distinguishable by wider tyres, marginally wider rear body-work and a red-reflector strip that sits in between the tail-lights. In terms of technology, the 4 and 4S models are equipped with an all-new variable all-wheel-drive system that sends power to the front wheels only when needed, giving the driver a sense of being in a rear-wheel-drive 911. In May 2013, Porsche announced changes to the model year 2014 911 Turbo and Turbo S models, increasing their power to 513 hp on the ‘Turbo’, and 552 hp on the ‘Turbo S’, giving them a 0–97 km/h acceleration time of 3.2 and 2.9 seconds, respectively. A rear-wheel steering system has also been incorporated on the Turbo models that steers the rear wheels in the opposite direction at low speeds or the same direction at high speeds to improve handling. During low-speed manoeuvres, this has the virtual effect of shortening the wheelbase, while at high speeds, it is virtually extending the wheelbase for higher driving stability and agility. In January 2014, Porsche introduced the new model year 2015 Targa 4 and Targa 4S models. These new models come equipped with an all-new roof technology with the original Targa design, now with an all-electric cabriolet roof along with the B-pillar and the glass ‘dome’ at the rear. In September 2015, Porsche introduced the second generation of 991 Carrera models at the Frankfurt Motor Show. Both Carrera and Carrera S models break with previous tradition by featuring a 3.0-litre turbocharged 6-cylinder boxer engine, marking the first time that a forced induction engine has been fitted to the base models within the 911 range
The RS version of the 991 GT3 was launched at the 2015 Geneva Motor Show, and featured in first drive articles in the press a few weeks later, with cars reaching the UK in the summer and another series of universally positive articles duly appearing. It had very big shoes to fill, as the 997 GT3 RS model was rated by everyone lucky enough to get behind the wheel, where the combination of extra power and reduced weight made it even better to drive than the standard non-RS version of the car. A slightly different approach was taken here, with the result weighing just 10kg less than the GT3. It is based on the extra wide body of the 991 Turbo. Compared to the 991 GT3, the front wings are now equipped with louvres above the wheels and the rear wings now include Turbo-like intakes, rather than an intake below the rear wing. The roof is made from magnesium a bonnet, whilst the front wings, rear deck and rear spoiler all in carbonfibre-reinforced plastic (CFRP), the rear apron is in a new polyurethane-carbonfibre polymer and polycarbonate glazing is used for the side and rear windows. The wider body allows the RS’s axle tracks to grow, to the point where the rear track is some 72mm wider than that of a standard 3.4-litre Carrera and the tyres are the widest yet to be fitted to a road-going 911. A long-throw crankshaft made of extra-pure tempered steel delivers the 4mm of added piston stroke necessary to take the GT3’s 3.8-litre flat six out to 3996cc . The engine also uses a new induction system, breathing through the lateral air intakes of the Turbo’s body rather than through the rear deck cover like every other 911. This gives more ram-air effect for the engine and makes more power available at high speeds. It results in an output of 500 bhp and 339 lb/ft of torque. A titanium exhaust also saves weight. The suspension has been updated and retuned, with more rigid ball-jointed mountings and helper springs fitted at the rear, while Porsche’s optional carbon-ceramic brakes get a new outer friction layer. Which is to say nothing of the RS’s biggest advancement over any other 911: downforce. The rear wing makes up to 220kg of it, while the front spoiler and body profile generates up to 110kg. In both respects, that’s double the downforce of the old 997 GT3 RS 4.0. The transmission is PDK only. The result is a 0-62 mph time of just 3.3 seconds, some 0.6 seconds quicker than the 997 GT3 RS 4.0 and 0-124 mph (0-200kmh) in 10.9 seconds. The 991 GT3 RS also comes with functions such as declutching by “paddle neutral” — comparable to pressing the clutch with a conventional manual gearbox –- and Pit Speed limiter button. As with the 991 GT3, there is rear-axle steering and Porsche Torque Vectoring Plus with fully variable rear axle differential lock. The Nürburgring Nordschleife time is 7 minutes and 20 seconds. The interior includes full bucket seats (based on the carbon seats of the 918 Spyder), carbon-fibre inserts, lightweight door handles and the Club Sport Package as standard (a bolted-on roll cage behind the front seats, preparation for a battery master switch, and a six-point safety harness for the driver and fire extinguisher with mounting bracket). Needless to say, the car was an instant sell out, even at a starting price of £131,296.
Also here was the GT3 version of the latest 992 model.
Much rumoured for some time, the Cayman GT4 was officially launched at the 2015 Geneva Show, positioned to sit between the Cayman GTS and the 911 GT3. By the time of the official unveiling, the car was supposedly sold out many times over, though more recently it has become apparent that at least some Porsche dealers have been holding onto cars claiming that the first purchaser changed their mind, and then offering them to those who did not get one of the allocation a year ago, at vastly inflated prices. If true, this is very sharp practice indeed, but seems to be the sort to tricks that are becoming increasingly common as enthusiasts are being fleeced in the name of extra profit. For a starting price of around £65,000 in the UK, the lucky customer would get a car which used used a stiffened and strengthened Cayman bodyshell as a starting point, but lowered by 30mm . Porsche say that in fitting as many GT parts as possible, they did not make it out of a Cayman GTS, but rather they produced an entry-level mid-engined GT3 car. That sounds like PR spin to me, as of course the car does use an awful lot of parts from the regular Cayman. However, plenty is changed, too. There is a reworked version of the Carrera S’s 3.8-litre flat six engine, producing 380bhp at 7400rpm and 310lb ft at 4750-6000rpm, hooked up to a modified version of the Cayman GTS’s six-speed manual gearbox. A PDK dual-clutch automatic was considered but rejected, meaning the Cayman GT4 is manual only. This is enough to mean that the 0-62mph sprint takes 4.4sec and the top speed is 183mph, with combined fuel economy of 27.4mpg and CO2 emissions rated at 238g/km. The front axle and suspension are borrowed from the 911 GT3 and the rear axle and forged aluminium double wishbone suspension are completely new. Dampers are taken from the 911 GT3. The electric steering system from the 911 GT3 does make it onto the Cayman GT4 but is given new software. Stopping power is provided by standard steel brakes, or optional carbon-ceramics from the 911 GT3. The forged 20in alloy wheels were new and are shod with Michelin Pilot Sport Cup 2 tyres. The rear 295/30 ZR20 tyres are bespoke, but the front 245/35 ZR20s were borrowed from the 911 GT3 as they were “a perfect match”. design-wise, the goal was to create a “zero lift car”, but thanks to the extensive aerodynamic and cooling package on the car – which includes a front splitter, a larger front grille and increased frontal air intakes, side air intakes, not one but two rear spoilers and a fully functional diffuser – the Cayman GT4 produces as much downforce at speed (100kg) as the 911 GT3. Every single part on the Cayman GT4 has a functional use. Other design features include “cool” black glass on the front and rear lights, blackened twin central exhausts and quality stitching on the twin lightweight bucket seats, taken from the 918 Spyder, as small details adding to that ‘want factor’.Despite all the extra equipment, the Cayman GT4 weighs no more than a Cayman GTS, tipping the scales at 1340kg dry. You could delete items such as the sat-nav and air-con to save weight, but few customers did, just as with the 911 GT3 RS were just 2% of buyers deleted the air-con. Inside, the steering wheel was new. The sports seats were trimmed in both leather and Alcantara. Standard equipment included bi-xenon headlights, a sports exhaust system, a Sport Chrono Package with dynamic engine mounts, the Porsche Torque Vectoring system, a mechanical limited-slip differential at the rear and the Porsche Stability Management system. On the options list were items such as carbonfibre-reinforced, plastic-backed seats for the two-seat interior. These weigh just 15kg each and were inspired by the 918 Spyder. A customised version of the Sport Chrono Package was offered, as is a Club Sport Package. Initially it was declared that production would be very limited, but Porsche soon relented and far more were built than had originally been declared.
The 718 Cayman GT4 and 718 Spyder (previously named the Boxster Spyder) were revealed in June 2019. Both are differentiated from less powerful models by more aggressive bodywork, including a lower stance, new front bumper, a large new diffuser, and exhaust pipes that are spaced farther apart. The GT4 also features larger side intakes and an adjustable wing, the latter of which helps it generate up to 150 kg (330 lb) of downforce, 50 percent more than its predecessor. Both have a naturally aspirated 4.0-litre flat-6 derived from the 992’s 3.0-litre 9A2EVO engine, which is rated at 414 bhp/420 PS at 7,600 rpm and 420 Nm (310 lb/ft) of torque at 5,000–6,800 rpm. The engine has cylinder deactivation, a first for Porsche. Porsche claims a top speed of 304 km/h (189 mph) for the GT4, and 301 km/h (187 mph) for the Spyder. The front suspension and brakes are borrowed from the 911 GT3, and the adaptive dampers, ABS and stability-control programming are borrowed from the 911 GT3 RS. The anti-roll bar end links, camber and toe can be manually adjusted, but the ride height–3 cm (1.2 in) lower than a standard 718–is fixed. Both are around 15 kg heavier than the GTS models. Sales commenced in the spring of 2020. For the 2021 model year, the GT4 and Spyder became available with the 7-speed PDK dual-clutch transmission as an option. It reduces the acceleration time of 0-60 mph (97 km/h) from 4.3 seconds to 3.7 seconds. In March of 2023, Porsche announced that 718 GT4 and Spyder Models would cease production as of the 2024 model year.
There was also an example of the current 982-generation Boxster here.
RENAULT
Attracting a lot of interest was this immaculate looking 4CV. There seem to be several different accounts surrounding the conception of the car, one being that it was originally conceived and designed covertly by Renault engineers during the World War II German occupation of France, when the manufacturer was under strict orders to design and produce only commercial and military vehicles, in defiance of the direction of the boss, Louis Renault, whereas another version says that in 1940, he had directed his engineering team to “make him a car like the Germans’. Regardless, the truth is that work did go on during the war, with the occupying Germans who were keeping a watch on the company turning a blind eye to what came to be known as Project 106E. Certainly those working on the project were looking closely at the Volkswagen and their new car had a similar overall architecture to that, while recalling the modern designs of the fashionable front-engined passenger cars produced in Detroit during the earlier 1940s. The first prototype had only two doors and was completed in 1942, and two more prototypes were produced in the following three years. An important part of the 4CV’s success was due to the new methodologies used in its manufacture, pioneered by Pierre Bézier, who had begun his 42-year tenure at Renault as a tool setter, moving up to tool designer and then becoming head of the Tool Design Office. As Director of Production Engineering in 1949, he designed the transfer lines (or transfer machines) producing most of the mechanical parts for the 4CV. The transfer machines were high-performance work tools designed to machine engine blocks. While imprisoned during World War II, Bézier developed and improved on the automatic machine principle, introduced before the war by GM. The new transfer station with multiple workstations and electromagnetic heads (antecedents to robots), enabled different operations on a single part to be consecutively performed by transferring the part from one station to another. The 4CV was ultimately presented to the public and media at the 1946 Paris Motor Show and went on sale a year later. Volume production was said to have commenced at the company’s Billancourt plant a few weeks before the Paris Motor Show of October 1947, although the cars were in very short supply for the next year or so. Renault’s advertising highlighted the hundreds of machine-tools installed and processes adopted for the assembly of the first high volume car to be produced since the war, boasting that the little car was now no longer a prototype but a reality. On the 4CV’s launch, it was nicknamed “La motte de beurre” (the lump of butter); this was due to the combination of its shape and the fact that early deliveries all used surplus paint from the German Army vehicles of Rommel’s Afrika Korps, which were a sand-yellow colour. Later it was known affectionately as the “quatre pattes”, “four paws”. The 4CV was initially powered by a 760 cc rear-mounted four-cylinder engine coupled to a three-speed manual transmission. In 1950, the 760 cc unit was replaced by a 747 cc version of the “Ventoux” engine producing 17 hp. Despite an initial period of uncertainty and poor sales due to the ravaged state of the French economy, the 4CV had sold 37,000 units by mid-1949 and was the most popular car in France. Across the Rhine 1,760 4CVs were sold in West Germany in 1950, accounting for 23% of that country’s imported cars, and ranking second only to the Fiat 500 on the list. The car remained in production for more than another decade. Claimed power output increased subsequently to 21 hp as increased fuel octanes allowed for higher compression ratios, which along with the relatively low weight of the car (620 kg) enabled the manufacturers to report a 0–90 km/h (0–56 mph) time of 38 seconds and a top speed barely under 100 km/h (62 mph) The engine was notable also for its elasticity, the second and top gear both being usable for speeds between 5 and 100 km/h (3 and 62 mph); the absence of synchromesh on first gear would presumably have discouraged use of the bottom gear except when starting from rest. The rear mounting of the engine meant that the steering could be highly geared while remaining relatively light; in the early cars, only 2¼ turns were needed from lock to lock. The unusually direct steering no doubt delighted some keen drivers, but road tests of the time nonetheless included warnings to take great care with the car’s handling on wet roads. In due course, the manufacturers switched from one extreme to the other, and on later cars 4½ turns were needed to turn the steering wheel from lock to lock. Early in 1953, Renault launched a stripped-down version of the 4CV bereft of anything which might be considered a luxury. Tyre width was reduced, and the dummy grille was removed from the front of the car along with the chrome headlamp surrounds. The seats were simplified and the number of bars incorporated in the steering wheel reduced from three to two. The only colour offered was grey. The car achieved its objective of retailing for less than 400,000 Francs. With the Dauphine already at an advanced stage of development it may have made sense to try and expand the 4CV’s own market coverage downwards in order to open up a clearer gap between the two models which would be produced in parallel for several years, but reaction to the down-market 4 CV, branded as the “Renault 4CV Service”, must have disappointed Renault as this version disappeared from the Renault showrooms after less than a year. The poor sales performance may have been linked to the growing popularity of the Citroën 2CV: although at this stage powered by an engine of just 375 cc and offering sclerotic performance, the 2CV was bigger than the Renault and in 1952 came with a starting price of just 341,870 francs The 4CV’s direct replacement was the Dauphine, launched in 1956, but the 4CV in fact remained in production until 1961. The 4CV was replaced by the Renault 4 which used the same engine as the 4CV and sold for a similar price.
RENAULT-ALPINE
Events like this tend to have at least one example of the current A110 present, and this one was no exception.
ROVER
In December 1994 the revised R6 model appeared. In the United Kingdom, Rover finally scrapped the Metro nameplate, replacing it with a new name, Rover 100, which had been adopted on continental Europe on the Rover Metro’s launch in 1990, due to the weakness of the Austin marque in Europe. The mechanics of the car remained much the same with 1.1 and 1.4 petrol engines and Hydragas suspension, but there was now the option of a Peugeot-sourced 1.5 diesel rather than the previous 1.4. The exterior was altered in an attempt to disguise the car’s age, meet the increased cooling requirements of the Peugeot motor and offer a reduced-format Rover family grille. This was achieved through fitment of new front and rear bumpers, sill covers, rear boot handle and headlamps, bonnet and grille. A variety of bolder paint colours and the use of chrome trim helped give a more upmarket appearance. The interior trim was revised to give a greater impression of quality and luxury, but since the basic architecture had remained unchanged since the original 1980 car it was considered by many as being short on space and outdated in comparison to its most modern rivals (most of which had been replaced with all-new models since the launch of the Rover Metro, and in the cases of the Ford Fiesta and Vauxhall Nova/Corsa, replaced with all-new models twice) It was criticised by the press for its lack of equipment, with front electric windows only available on the range-topping 114 GSi. Rear electric windows were never an option on the 100. Neither were Anti-Lock Brakes, Power Steering or a rev-counter (except the GTa and later manual 114 GSi models) One saving grace for the 100 was the option of full leather trim, a rarity in a small car and coupled with the standard wood veneer dashboard inserts, a tinted glass sunroof and the optional wood veneer door cappings, the 114 GSi made for traditional luxury motoring; an image Rover was trying to retain. The only safety efforts came in the form of an optional drivers airbag, an alarm, a passive engine immobiliser, a removable radio keypad, central locking and side intrusion beams. Overall, the 100 series was considered a rather typical facelift of a car which had been a class leader on launch some years earlier, only to be overtaken by newer cars including the Renault Clio, Fiat Punto and Volkswagen Polo. It was launched only a year before a heavily revised Ford Fiesta. A ‘warm’ version of the 100 called the 114 GTa was available from launch. The main differences over the 114 SLi three-door – which has the same engine – were sports seats, red seatbelts, a rev-counter, sports suspension, a slightly higher top speed, faster acceleration, GSi alloy wheels and GTa badging. It was only available as a three-door. In 1997, the Rover 100 gave a poor performance in Euro NCAP crash tests (despite the improved safety features, including side impact bars in the doors and an optional driver’s airbag, the 1970s design was showing its age) – it was at the time the only car tested to receive a one-star Adult Occupant Rating. Other small cars tested at the same time received 2 or 3 stars out of five. The passenger compartment was subjected to severe structural damage in the frontal-offset test and results showed a high risk of injury to all body regions for the driver. Meanwhile, the side impact test also showed high injury risks. The Rover 100’s dismal safety showing was not its only problem by 1997. It was fast falling behind the best cars in its sector when it came to design, build quality, refinement and specification, although it remained strong in terms of fuel economy and affordability. Unlike the Ford Fiesta, Volkswagen Polo and Vauxhall Corsa, the Rover 100 could still provide sub-£7,000 motoring. Facing a complete collapse of sales, Rover withdrew the 100 from production – marking the end of nearly 18 years of production. There was no direct replacement for the Metro/100, although the 1995 Rover 200 had been developed inside Rover Cars to serve as a replacement for the 100 as well as the previous 200 model, which was slightly larger. The 100 and 200 were sold concurrently until 1998, when the 100 was withdrawn. When the Rover 200 was facelifted in late 1999 and rebadged as the Rover 25, Rover marketed this as a supermini reflecting the continued, steady, growth of all car classes. The plan was for both the 100 and the 25 to be on the market until the launch of the true replacement for the Metro in the shape of the MINI. However, BMW’s sale of Rover put an end to those plans. BMW kept the MINI design and MG Rover’s notional successor to the Metro was the Rover 25 and its MG ZR relative. The gap left by the Metro as a true Rover city car was not filled until late 2003, when the Rover CityRover was launched – it was a 1.4 engined city car built in India alongside the Tata Indica. This model was nowhere near as popular as the Metro or even the Rover 100, and was not included in the revived product range by Nanjing Automobile following MG Rover’s bankruptcy in 2005.
TOYOTA
Needing little introduction, perhaps, is this car, a 2nd generation MR2. Toyota proved that the market for small affordable sports cars was far from dead when they launched the first generation MR2 in 1984. As was the trend at the time among Japanese manufacturers, models were replaced on quite a regular 4/5 year cycle, so it was little surprise when a second generation car appeared in 1989. However, this one would go on to be produced for 10 years, The overall design changed little in that time, but there were lots of small details that were refined during that time. The car was generally well received, with its “mini Ferrari” looks proving quite an attraction, as were the willing engines and the entertaining handling. There are not that many nice clean examples left now, though.
This is an example of the sixth, and penultimate generation Celica. Launched in October 1993, the styling of this version was quite different from the car it replaced. Initially it was offered in notchback coupe or liftback form, with a convertible coming later, though the 2 door Coupe was not sold in the UK. ST and GT trims were offered, with the former using a new 1.8 litre 4 cylinder engine and the latter using the larger 2.2 litre that had been in its predecessor. There was also a GT-Four version, the most powerful Celica to date, which produced 239 hp in export versions from an updated 3S-GTE engine. Influenced strongly by Toyota Team Europe, Toyota’s factory team in the World Rally Championship, the final version of the GT-Four included improvements such as an all-aluminium bonnet to save weight, four-channel ABS (with G-force sensor), an improved turbocharger (incorrectly known by enthusiasts as the CT20B), and Super Strut Suspension. The 2500 homologation cars built to allow Toyota to enter the GT-Four as a Group A car in the World Rally Championship also sported extras such as all of the plumbing required to activate an anti-lag system, a water spray bar for the Intercooler’s front heat exchanger, a water injection system for detonation protection, a hood spoiler mounted in front of the windscreen to stop hood flex at high speed and the standard rear spoiler mounted on riser blocks. The car proved to be quite competitive in the 1995 World Championship. However, the team was banned from competition for a year after the car’s single victory due to turbocharger fixing – a device that meant there was no air path restriction on the intake – when the jubilee clip was undone this would flick back into place so as to go un-noticed by inspectors. Toyota has always claimed that they knew nothing of the fix – but opponents say it was one very cleverly engineered device. In some respects this car was a true sports car; in order to qualify for rallying it has a lot of special features and a unique strut arrangement. A minor facelift was applied for 1996, with new bumpers, a smaller air dam and revised rear spoiler. This version of the Celica was replaced in 1999 by the last car to bear the name.
TRIUMPH
Based on the chassis and mechanicals of the Triumph Herald, the Spitfire was conceived as a rival to the Austin-Healey Sprite and MG Midget, which were launched a year earlier. The Triumph soon found a strong following, with many preferring it to the BMC cars which in time would become in-house stablemates. Mark II models arrived in 1965 and a more comprehensive facelift in 1967 with the distinctive “bone in mouth” front grille necessitated by US bumper height regulations also brought changes, but it was with the Mark IV that the greatest number of alterations would come about. The Mark IV featured a completely re-designed cut-off rear end, giving a strong family resemblance to the Triumph Stag and Triumph 2000 models, both of which were also Michelotti-designed. The front end was also cleaned up, with a new bonnet pressing losing the weld lines on top of the wings from the older models, and the doors were given recessed handles and squared-off glass in the top rear corner. The interior was much improved: a proper full-width dashboard was provided, putting the instruments ahead of the driver rather than over the centre console. This was initially black plastic however was replaced with wood in 1973. An all-new hardtop was also available, with rear quarter-lights and a flatter rear screen. By far the most significant change, however, was to the rear suspension, which was de-cambered and redesigned to eliminate the unfortunate tendencies of the original swing-axle design. The Triumph GT6 and Triumph Vitesse had already been modified, and the result on all these cars was safe and progressive handling even at the limit. The 75 hp engine was now rated at 63 hp (for UK market employing the 9:1 compression ratio and twin SU HS2 carburettors; the less powerful North American version still used a single Zenith Stromberg carburettor and an 8.5:1 compression ratio) due to the German DIN system; the actual output was the same for the early Mark IV. However, it was slightly slower than the previous Mark III due to carrying more weight, and employing a taller 3.89:1 final drive as opposed to the earlier 4.11:1. The engine continued at 1296 cc, but in 1973 was modified with larger big-end bearings to rationalise production with the TR6 2.5 litre engines, which somewhat decreased its “revvy” nature; there was some detuning, to meet new emissions laws, which resulted in the new car being a little tamer. With the overall weight also increasing to 1,717 lb (779 kg) the performance dropped as a consequence, 0 to 60 mph now being achieved in 15.8 seconds and the top speed reducing to 90 mph. The overall fuel economy also dipped to 32mpg. The gearbox gained synchromesh on its bottom gear. The Mark IV went on sale in the UK at the end of 1970 with a base price of £735. In 1973 in the United States and Canada, and 1975 in the rest of the world, the 1500 engine was used to make the Spitfire 1500. Although in this final incarnation the engine was rather rougher and more prone to failure than the earlier units, torque was greatly increased by increasing the cylinder stroke to 87.5 mm, which made it much more drivable in traffic. While the rest of the world saw 1500s with the compression ratio reduced to 8.0:1, the American market model was fitted with a single Zenith-Stromberg carburettor and a compression ratio reduced to 7.5:1 to allow it to run on lower octane unleaded fuel, and after adding a catalytic converter and exhaust gas recirculating system, the engine only delivered 53 bhp with a slower 0–60 time of 16.3 seconds. The notable exception to this was the 1976 model year, where the compression ratio was raised to 9.1:1. This improvement was short-lived, however, as the ratio was again reduced to 7.5:1 for the remaining years of production. In the UK the 9:1 compression ratio, less restrictive emissions control equipment, and the Type HS2 SU carburettors now being replaced with larger Type HS4 models, led to the most powerful variant to date. The 1500 Spitfire now produced 71hp (DIN) at 5500 rpm, and produced 82 lb/ft of torque at 3000 rpm. Top speed was now at the magical 100 mph mark, and 0 to 60 mph was reached in 13.2 seconds. Fuel economy was reduced to 29mpg. Further improvements to the suspension followed with the 1500 included longer swing axles and a lowered spring mounting point for more negative camber and a wider rear track. The wider, lower stance gave an impressive skid pad result of 0.87g average. This put the Spitfire head and shoulders over its competition in handling. The American market Spitfire 1500 is easily identified by the big plastic over-riders and wing mounted reflectors on the front and back wings. The US specification models up to 1978 still had chrome bumpers, but on the 1979 and 1980 models these were replaced by black rubber bumpers with built-in over-riders. Chassis extensions were also fitted under the boot to support the bumpers. Detail improvements continued to be made throughout the life of the Mark IV, and included reclining seats with “chequered brushed nylon centre panels” and head restraints, introduced for domestic market cars early in 1977 along with a new set of column stalk operated minor controls (as fitted already in the TR7) replacing the old dashboard mounted knobs and switches. Also added for the model’s final years were a wood dash, hazard flashers and an electric screen washer, in place of the previous manual pump operated ones. Options such as the hard top, tonneau cover, map light and overdrive continued to be popular, but wire wheels ceased to be available. The 1980 model was the last and the heaviest of the entire run, weighing 1,875 lb (850.5 kg). Base prices for the 1980 model year was £3,631 in the UK. The last Spitfire, an Inca Yellow UK-market model with hardtop and overdrive, rolled off the assembly line at Canley in August 1980, shortly before the factory closed. It was never sold and is now displayed at the museum at Gaydon.
This is a late model Vitesse Mark 2 Convertible. The Triumph Vitesse was introduced on 25 May 1962, reusing a name previously used by the pre-Second World War Triumph Motor Company from 1936–38, and was an in-line 6-cylinder performance version of the Triumph Herald small saloon. The Herald had been introduced on 22 April 1959 and was a 2-door car styled by the Italian designer Giovanni Michelotti. Within two years, Triumph began to give thought to a sports saloon based on the Herald and using their 6-cylinder engine. Michelotti was again approached for styling, and he came up with a car that used almost all body panels from the Herald, combined with a new front end with a slanted 4-headlamp design. Standard-Triumph fitted a 1596 cc version of their traditional straight-6 derived from the engine used in the Standard Vanguard Six, but with a smaller bore diameter of 66.75 mm, compared with the 74.7 mm bore on the Vanguard, equipped with twin Solex B32PIH semi-downdraught carburettors. These were soon replaced by B321H carburettors, as the accelerator pumps proved a problem. The curious observer will notice a “seam” on the cylinder block between the third & fourth cylinders revealing the design beginnings from the 803 cc Standard SC engine block, first used in the Standard Eight of 1953. The gearbox was strengthened and upgraded to closer (more sporting) gear ratios, and also offered with optional Laycock De Normanville ‘D-type’ overdrive with a 20% higher ratio for the top gear (the equivalent change from 3rd to 4th in a standard transmission), giving more relaxed and economical cruising at the expense of slight oil drag from the pump in the overdrive unit. Models fitted with overdrive had a chrome badge with “Overdrive” in italic text on the left side of the boot opposite the Vitesse 6 chrome script badge on the right. Synchromesh was present on 2nd, 3rd and 4th gears. The rear axle was changed to a slightly uprated differential, but retaining the same 4.11:1 ratio and flange sizes as the Herald. Front disc brakes were standard as were larger rear brake drums, and the Herald fuel tank was enlarged, retaining the reserve feature (essentially a curved pickup pipe that could be rotated to dip into the last few centimetres of fuel) of the smaller Herald tank. The front suspension featured uprated springs to cope with the extra weight of the new engine, but the rear suspension was almost the same as on the Herald—a swing-axle transverse-leaf system which quickly proved inadequate for the relatively powerful Vitesse. The chassis looked outwardly similar to the early Heralds but in fact was substantially re-designed and strengthened, especially around the differential mountings, improvements which were immediately passed through to Herald production. The dash and instrument panel of the earliest Vitesse was the same as the Herald, with a single speedo dial featuring fuel and temperature gauge insets. The Vitesse was available in convertible and saloon forms; a coupé never got beyond the prototype stage. The separate chassis construction of the car meant that no additional strengthening to chassis or body was considered necessary for the convertible model, the only concession being additional door catches to prevent the doors opening during hard cornering. The gearboxes of all the Vitesse and GT6 models were a weak point being derived from the earlier Heralds. The increased power caused accelerated wear on the bearing and forward end of the main shaft which would eventually wear through the hardened surface, leading to large amounts of play between the input and main shafts. This was characterised by growling gear noise on acceleration and deceleration in 1st, 2nd and 3rd getting high in each gear as the torque transmission from the lay shaft moved further from the rear of the box where the bearing support was intact. Repair involved either a new mainshaft or metal spraying/stellite repair. Some engineers suggested repairs were more long lived than a new shaft as the technology 10-20 and more years after manufacture meant that the repaired mainshaft had better specifications that new old stock. The remote lever construction suffered from the same regular bushing wear as the herald spitfire etc where sloppy gearchange and rattling can be cured (easy diy job) with a kit of new parts. A handful of Vitesse estates also were assembled to special order at Standard-Triumph’s Service Depot at Park Royal in West London. The interior was much improved over the Herald; wooden door cappings were added to match the wooden dashboard and the car featured slightly better seats and door trims. Optional extras included a vinyl/fabric, (Britax Weathershield), sunroof on saloon models. Exterior trim was also improved with an elongated stainless steel trim piece which extended further down the body than the Herald, including a Vitesse specific piece of trim rearward of the petrol filler cap and satin-silver anodised alloy bumper cappings replacing the white rubber Herald items. In September 1963 the Vitesse received its first facelift, when the dashboard was revised with a full range of Smith instruments instead of the large single dial from the Herald (large speedometer and cable driven tachometer flanked by smaller 2 inch fuel and temperature gauges). From September 1965, at commission number HB27986, the twin Solex carburettors were replaced by twin Stromberg CD 150 carburettors. Power output increased from the original 70 bhp at 5,000 rpm and torque of 92.5 lb/ft (125 Nm), enough to provide a useful performance boost and making the car a more flexible performer. There was a claimed, although somewhat optimistic increase of 13–14 bhp, and the motoring magazine tested top speed rose to 91 mph (146 km/h), with the 0–80 mph (0–129 km/h) time decreasing from 46.6 seconds to just 33.6 seconds. The Vitesse 6 sold extremely well for Triumph, and was by some way the most popular Vitesse sold during the model’s lifetime. The car was well liked for its performance and reasonable fuel economy, and the well-appointed interior. The exceptionally small turning circle was also liked by users. With its ability to perform as well as many sports cars, but with room for a family, the Vitesse had few rivals for the price. The convertible in particular was virtually unique in the marketplace; another genuine four-seater sporting convertible would not reappear from a British manufacturer until the Triumph Stag several years later. In September 1966 Triumph upgraded the engine to 1998 cc, in line with the new Triumph GT6 coupé, and relaunched the Vitesse as the Vitesse 2-Litre. Power was increased to 95 bhp, endowing the new car with a claimed 0–60 mph time of just under 12 seconds, and lifting top speed to 104 mph (167 km/h). (The 2-Litre was advertised by Triumph as “The Two Seater Beater”). The performance increase was welcome, but it highlighted the deficiencies of the rear suspension. Other detail modifications for the 2-litre, included a stronger clutch, all synchromesh gearbox, larger front brakes (still without a servo), and a stronger differential with a slightly higher 3.89:1 ratio. Wider & stronger 4.5-inch wheel rims were fitted, but radial-ply tyres were still optional, at extra cost. There was a satin silver anodised aluminium-alloy cowling above the new reversing light, and badges on the side of the bonnet and in the centre of the grille read 2 litre. The Vitesse boot badge was retained as italic script but lost the 6 of the earlier model – replacing that with the rectangular 2 litre badge and with a chrome strip underlining the Vitesse badge. Cars with overdrive had a separate badge on the cowling above the number plate/reversing light. Inside the car, the seats were greatly improved, with softer (more plush) covering and a better back-rest shape which slightly improved rear-seat knee-room. A new leather-covered three-spoke steering wheel was also added. The Vitesse Mk I was sold until 1968. The Vitesse Mark 2 was launched in October 1968 as the final update to the Vitesse range. Essentially intended to be Triumph’s answer to growing criticism of the rear suspension, the Mark 2 was fitted with a redesigned layout using new lower wishbones and Rotoflex half-shaft couplings. This system, also shared with the new GT6 MKII (GT6+ in the US market), and the first GT6 MkIIIs, tamed the wayward handling and endowed the Vitesse with more firm, progressive roadholding. The solid swing axles of the Herald and earlier Vitesses had camber changes of some 15 degrees from the limits of travel. By adding the lower wishbone and the divided drive shaft whilst retaining the transverse leaf spring as the top link, this camber change was reduced to about 5 degrees. While this was a considerable improvement, it was still a system that struggled to keep up with a really good link-located live axle (such as Triumph would introduce on the Toledo, 1500TC and later Dolomite saloons). There were other improvements: the engine was tweaked once more to provide 104 bhp, cutting the 0–60 mph time to just over 11 seconds and providing a top speed of over 100 mph (160 km/h). The main changes were to the valve timing, to give earlier opening and later closing of the inlet valves compared with the earlier 2-litre engine. (38/78 btdc/atdc for the Mk2 vs 30/60 for the 2 litre). Design changes to the cylinder head allowed for increased inlet valve diameters and better porting. Another major difference in the cylinder head removed the “step” in earlier 1600 and 2 litre incarnations. This meant that in the earlier cars the head studs on the right (manifold) side were short and ended under the manifolds, necessitating unbolting the (hot) manifolds and dropping them back to retorque the studs after a head gasket replacement. The MKII head was full width so all the studs were accessible. The inlet manifolds of the mkII were shorter than the 2 litre to keep inlet tract length the same. The Stromberg carburetors were also changed from 150 CD to 150 CDS, the S referring to the use of a spring between the dashpot cover and piston. The exterior featured a new grille with 3 sets of horizontal elements that were also used (in longer form) in the herald 13/60, Rostyle wheel trims and silver painted steel rear panel, (described by Triumph as “ceramic”), and the interior was upgraded once more in order to share parts with the new Herald 13/60, although there were significant differences between the two models; the inclusion of a tachometer being an obvious one, the provision of a larger ash tray in the Vitesse not quite so obvious. A new colour range was offered for the Mark 2 models. The aluminium cowling above the reversing light gained an oblong chromed VITESSE badge, and the separate chromed Mazak TRIUMPH letters on the bonnet and the boot lid were also deleted. The badges on the bonnet sides were changed to read Mk2 instead of 2 litre. Cars with overdrive had a small badge that fitted below the new rectangular Triumph boot badge. This was the ultimate Vitesse, a saloon or convertible with performance superior to the MGB and the Sunbeam Alpine sports car (in both acceleration and top speed) but with four seats and a large boot. Contemporary testing in the UK press listed the Vitesse’s 0-70 mph[clarification needed] time as 15.0 seconds against 17.9 for both the MGBGT and the Sunbeam Alpine Series IV, and standing-quarter-mile times were 18.1, 19.5, and 19.0 respectively. The Vitesse sold well until its withdrawal in July 1971, seven months before the new Triumph Dolomite saloon entered the performance luxury sector for Triumph. Although the Vitesse was an older model, it proved to be more reliable than its replacement, due to its simpler and more proven engine design.
The 1300 Saloon a medium sized luxury car, was intended as a replacement of the popular Triumph Herald. Launched at the London Motor Show in October 1965, the 1300 was designed by Michelotti in a style similar to the larger Triumph 2000. It was Leyland’s first front-wheel drive design. Their major rival was BMC, who were at the time producing three FWD model ranges including the Mini and the best-selling Austin 1100 series; it was hoped by Leyland that some of the 1100s phenomenal success would rub off on the new Triumph. Triumph decided to adopt a different layout to BMC however, placing the engine above the gearbox in a front-back configuration (but not sharing the same oil) rather than BMC’s transverse engine layout. This resulted in a tall profile for the engine/gearbox combination which limited styling options. The engine was the same 1296 cc unit as used in the Triumph Herald 13/60. (the engine had originated in 1953 in the Standard Eight in 803 cc form) A conventional OHV four-cylinder unit, it developed 61 hp with the single Stromberg CD150 carburettor (also as used in the Herald 13/60) and was mated to a 4-speed all-synchromesh gearbox. Front suspension was by double wishbone layout, attached to a shock-absorber/spring unit, and the rear suspension by semi-trailing arms and coil springs like the 2000. The interior was particularly well-appointed with full instrumentation in a wooden dashboard, wooden door cappings, adjustable steering column and comfortable seats with ventilated PVC upholstery. There was through-flow ventilation with outlets under the rear roof lip. The car was fairly roomy, and aside from a slightly baulky gearchange, easy to drive with very reasonable performance. Standard equipment was generous and included thick carpeting but no heated backlight. Although not reclining, the front seats were remarkably versatile and could be easily adjusted for height and rake. The steering column was adjustable not only up and down but back and forth as well. From a safety angle the door handles were recessed and could not be caught on clothing and the (awkward to operate) window winders were spring-loaded and similarly recessed. The instrument panel had a speedometer, fuel gauge, temperature gauge, ammeter and a comprehensive cluster of warning lights arranged in a “pie chart” formation. The rear seat had a centre armrest which could be folded up when not in use. Although the car was costly compared to its more humdrum rivals, it did find favour, both with the press, who rated it, and the public, who bought it in decent quantity. For 1968, the 1300TC joined the basic model. The TC used the engine then fitted in the Triumph Spitfire, which featured twin SU carburettors and in this configuration provided an advertised 75 hp. The compression ratio of the TC was 9.0:1, whereas the single carb engine compression was rated 8.5:1 The car was identified by discreet “TC” badges. Top speed was significantly higher than the 1300 at a claimed 90 mph and acceleration times were cut by 11 percent to a 0–50 mph time of 11.5 seconds. A road test a few months later significantly improved on the company’s performance claims, achieving a maximum speed of 93 mph and 0–50 mph time of 10.5 seconds. With the car then retailing for a recommended UK price of £909, the road test concluded that “the 1300 TC costs only £41 more than the original model, and is a very good bargain indeed”. An estate version of the 1300 reached the concept stages, but was never produced due to budgetary constraints, so all 1300s are four door saloons. In August 1970 the 1300 and 1300TC were replaced by the Triumph 1500. The engine was enlarged to 1493 cc, providing a useful increase in torque, but a decrease in overall power and increased fuel consumption. The front end was cleaned up considerably, and the rear redesigned with longer tail, providing a useful increase in boot space. Production of the FWD Triumphs came to an end in 1973. 113,00 examples of the regular 1300 were made and 35,342 1300TCs, but there are surprisingly few left now.
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
The T350 cars were made from 2002 to 2006. They were based on the TVR Tamora, and powered by TVR’s Speed Six engine in 3.6 litre form, producing 350 hp. The T350 was available in coupe and targa versions, the coupe version being known as the T350C, and the targa version the T350T. The T350 later formed the base of the TVR Sagaris. Function dominates form evident by the car’s aero-dynamic design which has been created for maximum downforce and minimal drag. The smooth frontal nose and the sharp rear cut tail allows the car to be aerodynamically efficient while reducing drag. The sloping rear line of the car ensures that the car generates minimum lift at high speeds. The car takes many components from the entry level Tamora such as the interior, multi-function display and analogue metres. The optional Sport package adds extra options in the multi-functional display such as lap-times, oil temperature and water temperature. The fastback design of the car gives the customer an advantage of increased boot space. The powerful Speed Six engine is a proven race winning unit and very responsive suiting the car’s aggressive character with a 0 – 100 km/h time of just 4.4 seconds.
VAUXHALL
The front-wheel drive Opel Corsa was first launched in September 1982. It went on sale first in France, Italy, and Spain – markets where small cars represented from 34 to 43 percent of sales. Built-in Zaragoza, Spain, the first Corsas were three-door hatchback and two-door saloon models, with four-door and five-door versions arriving in 1984. In certain markets, commercial “van” models were also sold, with or without rear windows depending on local requirements. In mainland Europe, the saloon versions were known as the “Corsa TR” until May 1985 and received an egg-crate grille rather than the four slits used on hatchbacks. The saloons were intended to appeal to customers of the Opel Kadett C and its sister the Vauxhall Chevette who still desired a traditional 3-box sedan shape – but it did not sell particularly well in most of Europe but were popular in Spain and Portugal, among other markets. While only taking ten percent of French Corsa sales during the car’s first half-year, the TR represented half of all Corsas sold in Spain. The basic trim level was called just the Corsa, which was followed by the Corsa Luxus, Corsa Berlina, and the sporty Corsa SR. The SR receives a spoiler which surrounds the rear window, alloy wheels, checkered sport seats, and a somewhat more powerful 70 PS engine. Six years later, the Corsa received a facelift, which included a new front fascia and some other minor changes. The models were called LS, GL, GLS, and GT. The Corsa A was known in the United Kingdom market as the Vauxhall Nova (as it was considered that Corsa sounded too much like “coarser”), where it was launched in April 1983, following a seven-month-long union dispute due to British workers being angry about the car not being built there, in contrast to the rival Ford Fiesta, Austin Metro and Talbot Samba. In addition, there was also a dispute about the disparity of import tariffs, as while cars exported from Spain to the European Community were subject to tariffs of only 4.4 per cent, those exported in the other direction were subject to tariffs as high as 36.7 per cent. Power first came from 1.0 L 45 hp, 1.2 L 55 hp, and 1.3 L 70 hp petrol engines. (The first engines were all equipped with carburettors; fuel injection came later, but never for the 1.0.) The engines were based on the well proven Family II design, except for the 1.0 L and early 1.2 L engines, which were based on the OHV unit from the Kadett C. There was also an Isuzu-built, 67 PS 1.5 L turbo diesel engine available, which was also used in the Isuzu Gemini at around the same time. The diesel joined the line up in May 1987, at the Frankfurt Motor Show, along with the sporty GSi. The engines and most of the mechanical componentry were derived from those used in the Astra/Kadett. In September 1987 the Corsa received a light facelift, with a new grille that was now the same on hatchbacks and sedans, an updated interior, and other slight changes. For the 1989 model year, the 1.3 was bored out to 1.4 litres. Power remained the same, although torque increased. A rare “Sport” model was produced in 1985 to homologate for the sub 1,300 cc class of Group A for the British Rally Championship. These Sport models were white and came with unique vinyl decals, a 13SB engine with twin Weber 40 DCOE carburettors, an optional bespoke camshaft, a replacement rear silencer, and few luxuries. This gave 93 hp and a top speed of 112 mph (180 km/h) with a 0–60 mph time of 8.9 seconds. These are by far the rarest models (500 produced) and thus acquire a high market price if one does become available. A 1.6 L multi point fuel-injected engine with 101 PS at 5600 rpm (98 PS in the catalysed version) and capable of 186 km/h (116 mph) was added to the Corsa/Nova at the 1987 Frankfurt Motor Show, giving decent performance and being badged as a GSi (“Nova GTE” in pre-facelift models in the United Kingdom, later models were all called GSi). The GSi’s engine mapping had been carried out by Opel tuning specialists Irmscher. A model with the 82 PS 1.4 L multi-point fuel-injected engine, which was otherwise mechanically identical to the GSi, also became available as the Nova SRi in the United Kingdom. In January 1988, a turbocharged version of the Isuzu diesel engine was introduced, with power increased to 67 PS. The design was freshened in September 1990, with new bumpers, headlights, grille, and interior, but it was clearly recognisable as a gentle makeover of an early 1980s design when it had to compete with the latest two all-new superminis in Europe – the Peugeot 106 and the Renault Clio. The car was finally replaced in the spring of 1993. Nearly 500,000 Novas were sold in Britain over its ten years on sale. In its best year, 1989, it was Britain’s seventh best selling car with more than 70,000 sales, but by February 2016, only 1,757 were still on the road.
The VX220 is the only true sports car that the marque has produced in the last 90 years. Quite unlike any Vauxhall that had ever come before it, the VX220 was the result of a deal between GM and Lotus, struck to generate enough funding for the latter to be able to develop a replacement for their Elise model, something forced on them owing to changes in European crash safety regulations for the 2000 model year. Lotus agreed to develop and produce a 2 seater sports car for GM, on the new Series 2 Elise chassis, with a concept version of the proposed GM model being shown at the Geneva Motor Show in 1999. Although the body styling was different, clearly the economies would only work if as much else could be shared, and that presented a challenge as it was planned to use a 1.8-litre Toyota engine, similar to that found in the Toyota Celica, in the second generation Elise, whereas the GM cars clearly had to use a GM engine, namely the 2.2-litre GM Ecotec engine from the Astra. As neither engine had been used in the original Elise, which had been fitted with a 1.8-litre Rover K-Series engine, this simply became one of the many design challenges .In order to accommodate the production of the new cars, Lotus expanded its Hethel factory to a capacity of 10,000 cars, with around 3,500 slots allocated to Speedster production. Production of the Speedster commenced in 2000. The car was hailed by the motoring press as a great drivers’ car and won several accolades, including Top Gear’s Car of the Year in 2003. The lesser naturally aspirated 2.2 version was considered easier to drive than the potent Turbo model, and some journalists suggested that the Opel/Vauxhall car was better value for money than the Lotus, among them one Jeremy Clarkson in his 2003 DVD Shoot Out. However, the market did not really agree, and sales were limited. The car was deleted in 2005, with no successor.
VOLKSWAGEN
Needing no introduction, despite it being over 40 years since European sales stopped was this classic Beetle.
A popular classic now, this was a nice example of the first generation Golf GTi. The model was first seen at the Frankfurt Motor Show in 1975. The idea behind it was rather straightforward – take a basic-transportation economy car and give it a high-performance package, making it practical and sporty. It was one of the first small cars to adopt mechanical fuel injection, which meant that the 1588cc engine put out 110 bhp, a big increase on what was available in the regular Golf models, which, in conjunction with a light weight of just 810 kg, gave it a top speed of around 100 mph and a 0 – 60 time of 9 seconds, impressive figures in their day. Volkswagen initially built the GTI only for the home market of West Germany, but launched it onto the British market in 1977 in left-hand drive form, with a right-hand drive version finally becoming available in 1979 as demand and competition increased. Many regard the Golf GTI Mk1 as the first “hot hatch” on the market, it was in fact preceded by the Autobianchi A112 Abarth in 1971, although it would prove to be far more popular than the earlier car in the UK market since the A112 Abarth was never available in RHD. It also competed with a number of quick small saloons including the Ford Escort RS2000. When the Escort switched to front-wheel drive and a hatchback for the third generation model in 1980, Ford launched a quick XR3 model which was comparable to the Golf GTI in design and performance. The Golf GTI was among the first “hot hatch” with mass market appeal, and many other manufacturers since have created special sports models of their regular volume-selling small hatchbacks. Within a few years of its launch, it faced competitors including the Fiat Ritmo, Ford Escort XR3/XR3i, Renault 5 GT Turbo and Vauxhall Astra/Opel Kadett GTE. A five speed gearbox became available in 1981 and in 1982, the engine was enlarged to 1780cc, which increased the available power a little. The car proved popular in the UK from the outset, with over 1500 being sold in 1979. Although the subsequent recession saw new car sales fall considerably during 1980 and 1981, sales of the Golf GTI reached nearly 5,000 in 1981. This also came in spite of the arrival of a popular new British-built competitor – the Ford Escort XR3. By 1983, the GTI accounted for more than 25% of total Golf sales (some 7,000 cars).
VW had enjoyed considerable success with the Scirocco, a front wheel drive Hatch that was based on the Golf, and offered a stylish modern alternative to the Ford Capri and Opel Manta. the second generation car did not quite the same favour as the first, but even so there was eager anticipation of what was initially thought would be the third generation car. But as VW looked to push the model further upmarket, they opted for a new name, choosing Corrado for the car, which debuted in 1988. Although the new car’s floorpan was based on that of the Mark 2 Golf/Jetta, there had been a plan that the model would actually replace the Porsche 944. That idea came to nought and the car, built by Karmann, as the Scirocco had been, took its place in the VW range, alongside the Scirocco which remained in production for a further three years. All Corrados were front-wheel drive and featured petrol engines, the car debuting with two engine choices: a 1.8 litre 16-valve inline-four with 136 hp and a troublesome supercharged 1.8 litre eight-valve inline-four, marketed as the G60 and delivering 160 hp. The Corrado G60 was named for the G-Lader with which it was equipped, a scroll supercharger whose interior resembles the letter “G”. Volkswagen introduced two new engines for 1992. The first was a naturally-aspirated 2.0 litre 16-valve 136 bhp inline-four, basically a further development of the 1.8 litre engine; this engine was not made available to the North American market. The second was the 12-valve VR6 engine, which came in two variants: a 2.8 litre 179 bhp model for the US and Canadian markets and a 2.9 litre 187 bhp version for the European market. Upon revising the engine, VW updated the styling with a new front grille and foglamps. With the introduction of the VR6 engine, the G60 engine disappeared from the North American market after 1992 and European market in 1993. The VR6 engine provided a compromise between both V-shaped and straight engines by placing the two cylinder banks at an angle of 15° with a single cylinder head. This design allowed engineers to fit a six-cylinder engine into roughly the same space that was previously occupied by four-cylinder engines, while closely approaching the smoothness of a straight-six design. By the time it was launched, VW had updated the Golf to the Mark 3,and some elements of its A3 platform was introduced on the Corrado with the VR6 announcement, including the suspension components, the rear axle assembly and some parts of the A3’s ‘plus’ type front axle assembly. The subsequent wider front wheel-track of the Corrado VR6 necessitated the fitting of new front wings with wider wheel arches and liners along with a new front bumper assembly. Together with a new raised-style bonnet to accommodate the VR6 engine, these body improvements were carried across the model range. A 2.0 litre eight-valve model with 115 hp was produced in Europe in 1995. A UK-only limited production model, the Corrado Storm, was also sold. Some discreet “Storm” badging, a colour-keyed front grille, an additional Storm badge on the gear gaiter surround (an upgrade from the standard Karmann badge), 15 inch BBS “Solitude” alloy wheels, and standard fitment of some previously optional items (such as the leather heated front seats) were all that differentiated this model from the base Corrado VR6. Only 500 were produced: 250 in Classic Green with a cream leather interior, and 250 in Mystic Blue, a colour unique to the Storm, with a black leather interior. The Storm models are the most desirable of all these days. Production ended in 1995. Although the car was much praised for its handling, and the VR6 engine was sublime, t was costly, Karmann’s build quality was patchy and those who experienced the G60 versions had more than their fair share of reliability issues (A colleague of mine had at least 4 superchargers blow in the first 60,000 miles). All told, 97,521 Corrados were produced.
The third generation Passat was introduced in March 1988 in Europe, 1990 in North America, and 1995 in South America. The lack of a grille made the car’s front end styling reminiscent of older, rear-engined Volkswagens, such as the 411, and also doubled as a modern styling trend. The styling was developed from the 1981 aerodynamic (cd 0.25) Auto 2000 concept car. At the time, it was the first transverse engine layout Passat to be built on a Volkswagen-designed platform, rather than sharing one with an Audi saloon. The car, although designated B3 in Volkswagen’s platform nomenclature, was based largely on the A platform as used for the smaller Golf model, but was stretched in all directions, and therefore had no connection with the B3 series Audi 80, launched two years earlier. Many components are shared directly between these vehicles. This generation of Passat was sold as a four-door saloon or a five-door estate, with the Passat not being sold as a hatchback from this point onwards. It was marketed under the Passat name in all markets; in North America, this was a first. The fuel-injected petrol engines gave better performance and refinement than the carburettor units previously used. They were mounted transversely, and the floorpan was engineered to accept Volkswagen’s ‘Syncro’ four-wheel drive system. Engine options were the 2.0-litre 16-valve engine in the GL model, 1.8-litre engine in the CL model (not available in North America, all CLs, GLs, and GLSs had the 2.0 16v), The 1.8 8v 112 bhp PB engine from the Golf GTi was also used in the Passat GT model. Volkswagen’s new 2.8-litre VR6 engine (also used in the Golf and Corrado) in the GLX/GLS model (introduced in 1991 in Europe and 1992 in North America), and the G60 engine (only available on the Syncro model in Canada for the North American market). The VR6 engine gave the top-of-the-range Passat a top speed of 224 kilometres per hour (139 mph). The 1.9-litre and the 1.6-litre diesel engine were also available as options. The B3 Passat was heavily facelifted in 1993, and despite being designated B4, it was not an all-new model.
VOLVO
There were a number of nice examples of the Volvo 1800S here, a sports car that was manufactured by Volvo Cars between 1961 and 1973. The car was a one-time venture by the usually sober Swedish Volvo, who already had a reputation for building sensible sedans. The project was originally started in 1957 because Volvo wanted a sports car to compete in the US and European markets, despite the fact that their previous attempt, the P1900, had failed to take off with only 68 cars sold. The man behind the project was an engineering consultant to Volvo, Helmer Petterson, who in the 1940s was responsible for the Volvo PV444. The design work was done by Helmer’s son Pelle Petterson, who worked at Pietro Frua at that time. Volvo insisted it was an Italian design by Frua and only officially recognised that it was by Pelle Petterson many years later. The Italian Carrozzeria Pietro Frua design firm (then a recently acquired subsidiary of Ghia) built the first three prototypes between September 1957 and early 1958, later designated by Volvo in September 1958: P958-X1, P958-X2 and P958-X3. In December 1957 Helmer Petterson drove X1, the first hand-built P1800 prototype to Osnabrück, West Germany, headquarters of Karmann. Petterson hoped that Karmann would be able to take on the tooling and building of the P1800. Karmann’s engineers had already been preparing working drawings from the wooden styling buck at Frua. Petterson and Volvo chief engineer Thor Berthelius met there, tested the car and discussed the construction with Karmann. They were ready to build it and this meant that the first cars could hit the market as early as December 1958. But in February, Karmann’s most important customer, Volkswagen forbade Karmann to take on the job, as they feared that the P1800 would compete with the sales of their own cars, and threatened to cancel all their contracts with Karmann if they took on this car. This setback almost caused the project to be abandoned. Other German firms, NSU, Drautz and Hanomag, were contacted but none was chosen because Volvo did not believe they met Volvo’s manufacturing quality-control standards. It began to appear that Volvo might never produce the P1800. This motivated Helmer Petterson to obtain financial backing from two financial firms with the intention of buying the components directly from Volvo and marketing the car himself. At this point Volvo had made no mention of the P1800 and the factory would not comment. Then a press release surfaced with a photo of the car, putting Volvo in a position where they had to acknowledge its existence. These events influenced the company to renew its efforts: the car was presented to the public for the first time at the Brussels Motor Show in January 1960 and Volvo turned to Jensen Motors, whose production lines were under-utilised, and they agreed a contract for 10,000 cars. The Linwood, Scotland, body plant of manufacturer Pressed Steel was in turn sub-contracted by Jensen to create the unibody shells, which were then taken by rail to be assembled at Jensen in West Bromwich. In September 1960, the first production P1800 left Jensen for an eager public. The engine was the B18, an 1800cc petrol engine, with dual SU carburettors, producing 100 hp. This variant (named B18B) had a higher compression ratio than the slightly less powerful twin-carb B18D used in the contemporary Amazon 122S, as well as a different camshaft. The ‘new’ B18 was actually developed from the existing B36 V8 engine used in Volvo trucks at the time. This cut production costs, as well as furnishing the P1800 with a strong engine boasting five main crankshaft bearings. The B18 was matched with the new and more robust M40 manual gearbox through 1963. From 1963 to 1972 the M41 gearbox with electrically actuated overdrive was a popular option. Two overdrive types were used, the D-Type through 1969, and the J-type through 1973. The J-type had a slightly shorter ratio of 0.797:1 as opposed to 0.756:1 for the D-type. The overdrive effectively gave the 1800 series a fifth gear, for improved fuel efficiency and decreased drivetrain wear. Cars without overdrive had a numerically lower-ratio differential, which had the interesting effect of giving them a somewhat higher top speed of just under 120 mph, than the more popular overdrive models. This was because the non-overdrive cars could reach the engine’s redline in top gear, while the overdrive-equipped cars could not, giving them a top speed of roughly 110 mph. As time progressed, Jensen had problems with quality control, so the contract was ended early after 6,000 cars had been built. In 1963 production was moved to Volvo’s Lundby Plant in Gothenburg and the car’s name was changed to 1800S (S standing for Sverige, or in English : Sweden). The engine was improved with an additional 8 hp. In 1966 the four-cylinder engine was updated to 115 PS, which meant the top speed increased to 109 mph. In 1969 the B18 engine was replaced with the 2-litre B20B variant of the B20 giving 118 bhp, though it kept the designation 1800S. For 1970 numerous changes came with the fuel-injected 1800E, which had the B20E engine with Bosch D-Jetronic fuel injection and a revised camshaft, and produced 130 bhp without sacrificing fuel economy. Top speed was around 118 mph and acceleration from 0–62 took 9.5 seconds. In addition, the 1970 model was the first 1800 with four-wheel disc brakes; till then the 1800 series had front discs and rear drums. Volvo introduced its final P1800 variant, the 1800ES, in 1972 as a two-door station wagon with a frameless, all-glass tailgate. The final design was chosen after two prototypes had been built by Sergio Coggiola and Pietro Frua. Frua’s prototype, Raketen (“the Rocket”), is located in the Volvo Museum. Both Italian prototypes were considered too futuristic, and instead in-house designer Jan Wilsgaard’s proposal was accepted. The ES engine was downgraded to 125 bhp by reducing the compression ratio with a thicker head gasket (engine variant B20F); although maximum power was slightly down the engine was less “peaky” and the car’s on-the-road performance was actually improved. The ES’s rear backrest folded down to create a long flat loading area. As an alternative to the usual four-speed plus overdrive manual transmission, a Borg-Warner three-speed automatic was available in the 1800ES. With stricter American safety and emissions standards looming for 1974, Volvo did not see fit to spend the considerable amount that would be necessary to redesign the small-volume 1800 ES. Only 8,077 examples of the ES were built in its two model years.
Popular in its day. but certainly rare now was this Volvo 340, a model introduced in 1976. DAF had already begun development of this car as a replacement for the Volvo (previously DAF) 66. It was fitted with a 1.4 litre Renault engine in the front and DAF’s radical Variomatic continuously variable transmission unusually mounted in the rear, helping weight distribution. To add to the appeal of the car and boost its sales, Volvo adapted the M45 manual transmission from the 200 series to fit in place of the CVT, and was sold alongside the CVT models from 1979. The CVT continued to be offered but sold in ever more marginal numbers; down to 200 per year in Sweden in the late 1980s. A five-door model, the 345, was added in August 1979. The extra doors added 30 kg (66 lb); other modifications included better brakes, a slightly larger track due to wider rims, and interval wipers. During 1980 larger wrap around bumpers were introduced. In 1981 another engine option was added to the range, the Volvo designed B19, only available with the manual transmission. A revised bonnet, grille and front lamp arrangement and slightly different wings signalled a facelift in summer 1981, which also gave the car a new dashboard and revised interior. From having been mostly a DAF design, the dashboard gradually became more aligned with the design of other Volvos over the years. The overall length crept up to 4,300 mm (169 in). The third digit designating the number of doors was dropped from model designations in 1983. The more powerful 360 arrived that year with two 2.0 litre engine choices, the 95 PS B19A and the 115 PS B19E, also from Volvo. These were four-cylinders and not sixes as implied by the name; it was used to “give the new model a stronger profile in the Volvo range.” This 2-litre 360 model was available in five-door and three-door hatchback form, with four-door saloon models added in 1984. Trim levels were GL, GLE, or GLT, depending on output and specifications. In 1985, the 300 Series received a major facelift. Amongst other small changes, (optionally body coloured) wrap-around bumpers with the indicator repeaters attached to them were fitted. The taillights were also redesigned. Instrumentation changed from Smiths units to VDO. The older Volvo redblock engines in the 360 were upgraded to the low friction B200 unit. Capacities and outputs remained much the same. The carburettor version was designated B200K and the Bosch LE-Jet fuel injected version is known as the B200E. From 1987 on, incremental improvements in features and emissions control were made. The newly designed power steering from the new Volvo 480 became available as an option for the 1988 model year, while rust protection was improved with increased use of galvanized steel. Production of the 360 came to an end in 1990, while the 340 was discontinued in 1991, despite the fact it had supposedly been replaced by the Volvo 440 in 1987. The last ever car of the Volvo 300 series (a white Volvo 340) rolled off the production line on 13 March 1991, three years after the launch of the 400-series. Sales began at a low level, not helped by the absence of a manual transmission option, but gradually increased as the lineup expanded. 300-series cumulative production broke the 100,000 barrier on 12 December 1983, with the total reaching 102,000 before the end of the year. The 100,000th car, finished in white, was donated to the Dutch Red Cross. 66,207 360 sedans were built in total, along with 79,964 340 sedans, for a total of 146,171 four-door sedans in the 300-series.
MORGAN SHOWROOM and MUSEUM
Although the factory is closed for the evening by the time this event takes place, visitors can still take in the rest of what is called the Morgan Experience. There is a new building which contains a showroom as well as cafe and shop selling Morgan related products.
Among the cars on show were examples of the new Super 3, a second generation of the popular three-wheeler of the modern era. There have been a lot of engineering changes to make this is quite different from its successful predecessor.
You can also rent a Morgan for anything from a day or more at prices which seem quite reasonable, something I definitely need to schedule. The fleet of cars that are available, all recent models from the current range, live here and you could see them parked up.
This proved to be a most enjoyable evening, as ever. It’s a shame that are fewer events being held here than in 2022 but the problem is space, because like so many other venues, interest in attending continued to grow until there is no more room to get people in, and limits on the number of tickets have to be imposed. That was certainly the case on this occasion, as the site was full. There is, though. one further evening event scheduled for early September and I do hope to be able to attend that one.