The UK weather is notoriously unpredictable. We all know that. When planning Car events, the only possible course of action is to assume that it will not be so bad as to imperil the event and accept the fact that just occasionally, it will do just that. Usually only once or twice a season is it so bad that cancellation is the only prudent course of action, though there are a few more occasions when things can be chilly, or even plain cold, and damp or just wet. That can happen in the middle of the year just as much as in the winter months. But generally, once spring arrives, although the day in question may be less than ideal, weather-wise, at least the ground tends to have dried out and be usable. That is the thinking behind the monthly Queen Square Breakfast club meets which switch from the winter location, at Easter Compton Farm Shop, with the covered brans and all cars parked on hard-standing to the more photogenic Eastwood Park from the March meet. But as we found out at another event scheduled at that location just a week before this one, a very wet winter and a very late spring means that the ground had not dried out as much as usual and the combined IAMC/QS South Western Auto Concorso had to park all the cars on hard-standing with consequent limitations on space. A few dry days after that certainly helped, but when the second Sunday of the month, the one allotted for the monthly QS meet dawned, and the sun shone, it looked as if hard-standing would not suffice. Thankfully, the ground had dried out enough that much of the grass was now usable and that proved to be a really Good Thing, as all morning cars continued to pour into the site, making this the busiest ever QS meet at the venue. Soon, all the usual parking areas were full and cars were being crammed into the visitor car park and wherever there was room, and yet more kept coming. Finally, it seemed Spring had come (though it would prove short-lived!) and there was a lot to see, much of it cars that had were emerging after their winter hibernation. Here is what I saw:
ABARTH
There were only a few Abarths here, all of them 500-based models. This is a car that is well known in the Abarth community. Originally it belonged to the late Adam Henry, founder of the Modified Abarth group. Over the years, not only did Adam make a number of changes to his own car, but he became an amazing source of knowledge about the why, how and who of modifications. Adam was a hugely respected pillar of the Abarth world, and acted as mentor to many not just on matters Abarth but more widely. Sadly, he became ill and despite putting a brave face on it, his illness was terminal and he passed away in September 2023. A while before that, Adam sold his car to Stuart Pugh, who lives in South Wales, so it was perhaps not a surprise that he brought it here.
What is known as the Series 4 version of the familiar 595 reached the markets in the middle of 2016. After rumours had circulated all winter following the launch of the facelifted Fiat 500 last year, Abarth finally unveiled the Series 4 at the end of May 2016. Initially, we were told that the cars would not be available in the UK until September, but that came forward somewhat, with dealers all receiving demo cars in June, and the first customers taking delivery in July. Three regular production versions of both the closed car and the open-topped C were initially available, all badged 595, and called Custom, Turismo and Competizione, as before, though numerous limited edition models have since appeared and in most cases disappeared. The most significant changes with the Series 4 are visual, with a couple of new colours, including the much asked for Modena Yellow and a different red, called Abarth Red, which replaces both the non-metallic Officina and – slightly surprisingly – the tri-coat pearlescent Cordolo Red. as well as styling changes front and rear. The jury is still out on these, with many, me included, remaining to be convinced. At the front, the new air intake does apparently allow around 15 – 20 % more air in and out, which will be welcome, as these cars do generate quite a lot of heat under the bonnet. Competizione models for the UK retain the old style headlights, as they have Xenon lights as standard, whereas the Custom and Turismo cars have reshaped units. At the back, there are new light clusters and a new rear bumper and diffuser. Inside, the most notable change is the replacement of the Blue & Me system with a more modern uConnect Audio set up, which brings a new colour screen to the dash. Mechanically, there is an additional 5 bhp on the Custom (now 145) and Turismo (now 165 bhp) and the option of a Limited Slip Diff for the Competizione, which is likely to prove a popular option. Details of the interior trim have changed, with a filled-in glovebox like the US market cars have always had, and electric windows switches that are like the US ones, as well as a part Alcantara trim to the steering wheel in Competizione cars. There were a couple here. The yellow car is a recent acquisition by Michael Brown, replacing a white-based and visually very distinctive car he had for some time.
ALPINA
There were three different Alpina models based on the E28, the B7S Turbo and the B9 and B10 Saloons. The B9 came first, launching in November 1981, a few months after the debut of the standard E28, featuring a 3.5 litre inline 6 cylinder engine. When this unit was updated in 1985, the model designation changed to B10. 577 of these cars were made. In standard form, the BMW 3.5 litre engine delivered 218 bhp, but after the special Alpina treatment, this was upped to 245 bhp. Other changes included new springs, gas-filled dampers, uprated discs and 16″ Alpina wheels on the outside, and a leather steering wheel, Alpina upholstery and Recaro seats on the inside. The second generation B7 Turbo arrived in April 1984 and just like the E12 based B7S Turbo cars which had been built between November 1981 and May 1982, this was the fastest 4 door saloon in the world, and this latest one took performance to new levels. Using the BMW 3.5 litre engine again, as it now had a higher compression than before, boost was not quite as great as it had been, at 0.7 bar, but that and the other detailed changes Alpina made were enough to give the new B7 Turbo an output of 300 bhp and 320 bhp in the catalyst equipped models, along with 509 Nm of torque, resulting in a top speed of 265 – 270 km/h, and a 0- 100 km/h time of either 4.8 or 6.1 seconds depending on which test source you believe. The gearbox was a Getrag 5 speed manual unit that had been developed for the 745i. Uprated Bilstein suspension was fitted, with height adjustable rear dampers and the car had what for the time were huge wheels, 205/55 16″ at the front and 225/55 at the rear. Inside the car was much like the B7 Turbo but with a black roof lining. Alpina made 236 non cat and 42 catalyst cars before “production” ended in the summer of 1987.
The Alpina version of the E85 Z4 came at the 2003 Frankfurt Show and was called the Roadster S. Based on the 3 litre Z4, it used an Alpina tuned version of the older N52 engine to give 300 bhp which was coupled to a 6 speed auto box. Alpina modified the suspension and made minor tweaks to the exterior as well as applying their usual changes to the interior.
ALPINE
The Alpine A110 R (which stands for “Radical”) is a track-focused version that debuted on 4 October 2022, featuring a redesigned body kit and a more aggressive chassis setup. It has been lightened and received performance upgrades, which helps it accelerate from 0 to 100 km/h in 3.9 seconds and can reach a top speed of 285 km/h. The A110 R features a generous use of carbon fibre components, contributing to a weight reduction of 34 kilograms (75 pounds) and bringing the total weight down to 1,082 kilograms (2,385 pounds). Among the carbon fibre components are the hood with dual air ducts, the 18-inch wheels, the engine cover, and the Sabelt Track monocoque seats. Performance improvements include a 0 to 62 mph (100 km/h) sprint time of 3.9 seconds, which is three-tenths of a second faster than the A110 S, and a top speed of 177 mph (285 km/h). Additionally, the A110 R features a stiffer suspension setup with adjustable dampers, allowing the ground clearance to be lowered by 10 millimeters (0.4 inches), and Brembo brakes with improved cooling. The dual exhaust system has been upgraded with a double wall produced using 3D printing to better isolate exhaust gases. It does not come cheap – the starting price is £91,000.
There was also an example of the “regular” A110.
ARIEL
Attracting plenty of attention was this Atom. The Ariel Atom is a road-legal high performance open-wheel car made by the British Ariel Motor Company based in Crewkerne, Somerset, England, and under license in North America by TMI Autotech, Inc. at Virginia International Raceway in Alton, Virginia. The Atom began as a student project by Coventry University transport design student Niki Smart. Known then as the LSC (Lightweight Sports Car), it was developed at the university in 1996 with input and funding from various automotive industry members, including British Steel and TWR. Ariel Motor Company boss Simon Saunders was a senior lecturer whose responsibility for the project was primarily as financial manager and design critic for Smart, whom he described as “The best all-round design student I’ve ever seen.” The car was first shown publicly at the British International Motor Show at the NEC in Birmingham in October 1996. The Ariel Atom features a prominently visible chassis (i.e., an exoskeleton, no roof or windows, a small optional windscreen) and a drag coefficient of 0.40 There have been eight Ariel Atom generations to date: Ariel Atom, Ariel Atom 2, Ariel Atom 3 (including the Ariel Atom 3 Mugen Limited Edition and Honda Racing Edition – of which only one was made) Ariel Atom 3.5, Ariel Atom 3S, Ariel Spec:Race Atom, Ariel Atom 500 V8 Limited Edition (only 25 to be made), and the Ariel Atom 4. The limited production Ariel Atom 500 V8 featured a 500 bhp V8 engine. The Ariel Atom 4 uses a turbocharged 2.0 litre engine, also used in the Honda Civic Type R, with 3-stage boost.
In January 2015, Ariel introduced the Nomad, a road-legal buggy designed along the same principles as the Atom, at the Autosport International Show. The Nomad utilises a 2.4 litre Honda engine producing 235bhp
ASTON MARTIN
Follow on to the DB7 was the DB9 (there has never been a car called DB8 – supposedly because people might have assumed this meant a V8 engine), and there was a nice example here. The Aston Martin DB9, designed by Marek Reichmann and Hendrik Fisker, was first shown by Aston Martin at the 2003 Frankfurt Auto Show, in coupe form. It was widely praised for the beauty of its lines. This was the first model to be built at Aston Martin’s Gaydon facility. It was built on the VH platform, which would become the basis for all subsequent Aston models. The Aston Martin DB9 was initially launched equipped with a 6.0 litre V12 engine, originally taken from the V12 Vanquish. The engine produced 420 lbf·ft of torque at 5,000 rpm and a maximum power of 444 hp at 6,000 rpm, allowing the DB9 to accelerate from 0 to 60 mph in 4.7 seconds and a top speed of 299 km/h (186 mph). The engine largely sits behind the front-axle line to improve weight distribution. Changes to the engine for the 2013 model year increased the power to 503 hp and torque to 457 lb-ft, decreasing the 0 to 60 mph time to 4.50 seconds and with a new top speed is 295 km/h (183 mph). The DB9 was available with either a six-speed conventional manual gearbox from Graziano or a six-speed ZF automatic gearbox featuring paddle-operated semi-automatic mode. The gearbox is rear-mounted and is driven by a carbon-fibre tail shaft inside a cast aluminium torque tube. The DB9 was the first Aston Martin model to be designed and developed on Ford’s aluminium VH (vertical/horizontal) platform. The body structure is composed of aluminium and composites melded together by mechanically fixed self-piercing rivets and robotic assisted adhesive bonding techniques. The bonded aluminium structure is claimed to possess more than double the torsional rigidity of its predecessor’s, despite being 25 percent lighter. The DB9 also contains anti-roll bars and double wishbone suspension, supported by coil springs. To keep the back-end in control under heavy acceleration or braking, the rear suspension has additional anti-squat and anti-lift technology. Later versions of the car also features three modes for the tuning: normal, for every-day use, sport, for more precise movement at the cost of ride comfort, and track, which furthers the effects of the sport setting. The Aston Martin DB9 Volante, the convertible version of the DB9 coupe, followed a few months later. The chassis, though stiffer, uses the same base VH platform. To protect occupants from rollovers, the Volante has strengthened windscreen pillars and added two pop-up hoops behind the rear seats. The hoops cannot be disabled and will break the car’s rear window if deployed. In an effort to improve the Volante’s ride while cruising, Aston Martin have softened the springs and lightened the anti-roll bars in the Volante, leading to a gentler suspension. The retractable roof of the Volante is made of folding fabric and takes 17 seconds to be put up or down. The Volante weighs 59 kilograms (130 pounds) more than the coupe. The coupe and Volante both share the same semi-automatic and automatic gearboxes and engine. The car was limited to 266 km/h (165 mph) to retain the integrity of the roof. Like the coupe, the original Volante has 420 lb·ft of torque at 5,000 rpm and a maximum power of 450 hp at 6,000 rpm. The 0 to 60 mph slowed to 4.9 seconds due to the additional weight. The DB9 was facelifted in July 2008, which mainly amounted to an increase in engine power, to 476 hp and a redesigned centre console. Externally, the DB9 remained virtually unchanged. For the 2013 model year revision, Aston made minor changes to the bodywork by adapting designs from the Virage, including enlarging the recessed headlight clusters with bi-xenon lights and LED daytime strips, widening the front splitter, updating the grille and side heat extractors, updating the LED rear lights with clear lenses and integrating a new rear spoiler with the boot lid. .On newer models, like the coupe’s, the Volante’s horsepower and torque increased to 517 PS (510 hp) and 457 lb·ft respectively. As a finale for the model, a more powerful DB9 was released in 2015, called the DB9 GT. This had 540 bhp and 457 lb-ft of torque at 5500 rpm, giving a 0 to 60mph time of 4.4 seconds and 0 to 100mph in 10.2 seconds, with the standing quarter mile dispatched in 12.8 to 12.9 seconds and a top speed of 183mph. Production of the DB9 ended in 2016 being replaced by its successor, the DB11.
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. A total of 18 different versions of the car were produced during its 12 year life.
The Aston Martin DB11 is a two-door grand touring car. It was available as both a coupe and a convertible, the latter known as the “Volante”. The British carmaker Aston Martin produced the DB11 from 2016 to 2023 when it was replaced by the DB12. The DB11 succeeded the DB9, which the company made between 2004 and 2016. Designed by Marek Reichman, who became lead designer in May 2005, the DB11 debuted at the Geneva Motor Show in March 2016. The first model of Aston Martin’s “second-century plan”, the DB11—like its predecessor and its platform siblings—incorporates aluminium extensively throughout its body. Official manufacture of the DB11 began at the facility in Gaydon, Warwickshire, in September 2016. Two engine configurations of the DB11 were available: a 4.0-litre V8-engine model produced by Mercedes-AMG and a 5.2-litre V12-engine model produced by Aston Martin. The Volante version of the DB11 was introduced in October 2017. In 2018, Aston Martin and its racing division replaced the DB11 V12 with the DB11 V12 AMR, which included an increased engine output. The V8-powered model also received an enhancement in engine performance in 2021. Aston Martin began producing the DB9—a grand touring car—in January 2004 at the facility in Gaydon, Warwickshire. It was the first car built on the vertical–horizontal platform—a design in which all vehicles that used it extensively incorporated aluminium throughout their construction. This platform formed the basis of the Vantage in 2005, the DBS in 2007, the Rapide in 2010, the Vanquish in 2012 and the Lagonda Taraf in 2014. In 2015, Aston Martin announced that the DB9’s successor would be named the “DB11”. The upcoming range, known as the “second-century plan”, which the DB11 was a part of, was to introduce a refreshed design approach directed by Marek Reichman, whom Aston Martin appointed lead designer in May 2005. Insider reports indicated that this model range aimed to address critiques of the existing lineup by emphasising distinctive differences among the models, aligning them more closely with the prominent Italian luxury automobile manufacturer Ferrari. Manufacture of the DB9 officially ended in July 2016, after a twelve-year production run during which 16,500 units had been made. The DB11 debuted at the Geneva Motor Show in March 2016. Official manufacture of the DB11 began on 28 September 2016 at the facility in Gaydon, Warwickshire. To demonstrate his commitment to quality, Aston Martin’s then-CEO, Andy Palmer, personally inspected the first 1,000 cars. Similar to its predecessor, the DB11 is based upon a platform—which it shares with the 2018 model Vantage and the DBS Superleggera—that extensively incorporates aluminium throughout its construction. The chassis, in comparison to the DB9, is lighter and stiffer. Its body panels are made of both aluminium and composite materials, and the bonnet is a single-piece unit. Together, the car’s flat underbody, rear diffuser and sizable front splitter manage airflow beneath the DB11, minimising lift. The DB11 features an AeroBlade that captures high-speed air at the C-pillars and channels it through ducts under the bodywork, exiting through slots in the boot lid. This system mimics the effects of a large rear spoiler, reducing drag without added bodywork. An extendable active spoiler enhances the AeroBlade’s efficiency at high speeds. The DB11 has been described as both a sports car and a grand tourer. It is a two-door coupe that was available only in a four-passenger seating configuration. The DB11 has a rear-wheel drive layout with a front-mid-engine placement and exclusively uses a rear-mounted, eight-speed automatic transmission made by the technology manufacturing company ZF Friedrichshafen. Each DB11 was handcrafted, involving approximately 600 engineers and taking around 250 hours to complete. The Vanquish features anti-roll bars and double wishbone suspension supported by coil springs. There are three different drive modes available for both the drivetrain and chassis: normal—suitable for daily driving; sport—offering enhanced precision; and Sport+—intensifying the characteristics of the sport mode. The DB11 has a near-perfect weight distribution of 51 per cent at the front and 49 per cent at the rear. According to the magazine Motor Trend, the DB11 has a combined fuel economy figure of 17 miles per US gallon (14 L/100 km; 20 mpg‑imp). According to Auto Express, the car has a CO2 emission rating of 270 g/km. The doors of the DB11, like the DB9, are swan-hinged. The infotainment system operates on an eight-inch liquid-crystal display accessed via a rotary controller or an optional touchpad. Each DB11 comes with a 400-watt audio system, USB playback, SiriusXM satellite radio, and a Wi-Fi hotspot with iPhone integration. Upgrades were available for a 700-watt sound system or a 1,000-watt Bang & Olufsen unit. The DB11 has a boot capacity of 270 litres (9.5 cu ft). The AE31 twin-turbocharged V12 engine, with a 5,204 cc displacement, was featured in the initial version of the DB11. It produces a power output of 600 bhp at 6,500 rpm and a torque output of 700 Nm (520 lb/ft) between 1,500–5,000 rpm, sufficient to give the car a zero to 60 mph (97 km/h) acceleration of 3.6 seconds and a maximum speed of 200 miles per hour (320 km/h). Aston Martin began the development of the V12 engine in the summer of 2012 under the leadership of Brian Fitzsimons. The project progressed quickly; initial test firing began in October 2012, and it received approval for production in January 2013. The new V12 engine continues to use conventional fuel injection rather than direct injection due to concerns about the potential increase in particulate emissions associated with direct injection petrol engines. The DB11 V12 can run the quarter mile in 11.7 seconds. In May 2018, Aston Martin introduced the DB11 Aston Martin Racing (AMR) version, which succeeded the DB11 V12. The DB11 AMR offers enhanced performance capabilities compared to its predecessor. The previous DB11 V12 had been in production for eighteen months. The updated DB11 AMR produces a power output of 630 bhp at 6,500 rpm and a torque output of 700 Nm (520 lb/ft) at 1,500 rpm, sufficient to give the car a zero to 60 mph (97 km/h) acceleration of 3.7 seconds and a maximum speed of 208 mph (335 km/h). Its shift programming has been revised, its rear suspension is firmer and stiffer, and its twenty-inch forged wheels are 3.5 kilograms (7.7 lb) lighter. Aston Martin introduced a limited edition of 100 DB11 AMR Signature Edition cars at the beginning of production, featuring a Stirling Green paint scheme with lime green accents. It has a zero to 60 mph (97 km/h) acceleration of 3.5 seconds—0.2 seconds faster than the base AMR. Deliveries started in the second quarter of 2018. In July 2021, Aston Martin announced that the AMR name would no longer be used for the V12-powered DB11 as part of their updated model lineup. The original V12 model was supplemented by an entry-level V8 version in June 2017. Powered by a 4.0-litre Mercedes-Benz M177 twin-turbocharged V8 engine developed by Mercedes-AMG, this configuration achieves a weight reduction of 115 kilograms (254 lb) compared to the V12 variant, resulting in a total kerb weight of 1,760 kilograms (3,880 lb). In contrast to the V12 model, the DB11 V8 has a weight distribution of 49 per cent at the front and 51 per cent at the rear. The V8 engine delivers 503 bhp and 675 Nm (498 lb/ft), providing the car with a zero to 60 mph (97 km/h) in four seconds and a top speed of 187 mph (301 km/h). In July 2021, Aston Martin revealed an upgraded version of the DB11 V8. The power output was increased to 528 bhp, allowing the car to accelerate from zero to 60 mph (97 km/h) in 3.9 seconds and reach a higher top speed of 192 miles per hour (309 km/h). In October 2017, Aston Martin introduced the DB11 Volante, a convertible version of the DB11. The Volante has a weight distribution of 47 per cent at the front and 53 per cent at the rear, and is powered by the same 4.0-litre twin-turbocharged V8 engine as the DB11 V8 coupe, albeit with more torque, at 696 Nm (513 lb/ft). The DB11 Volante can accelerate from zero to 60 mph (97 km/h) in 4.1 seconds and possesses a maximum speed of 187 mph (301 km/h). The additional lower body strengthening and the electric roof mechanism in this version increase the weight by approximately 110 kilograms (240 lb). The DB11 received mostly positive reviews. Production of the DB11 ended at the end of June 2023. It was replaced by the DB12, which was unveiled at the 2023 Cannes Film Festival.
AUDI
The Audi R8, based on the Audi Le Mans quattro concept car (designed by Frank Lamberty and Julian Hoenig) first appeared at the 2003 International Geneva Motor Show and the 2003 Frankfurt International Motor Show. The R8 road car was officially launched at the Paris Auto Show on 30 September 2006. There was some confusion with the name, which the car shares with the 24 Hours of Le Mans winning R8 Le Mans Prototype (LMP). Initial models included the R8 4.2 FSI coupé (with a V8 engine) and R8 5.2 FSI coupé (with a V10 engine). Convertible models, called the Spyder by the manufacturer, were introduced in 2008, followed by the high-performance GT model introduced in 2011. The Motorsport variants of the R8 were also subsequently introduced from 2008 onwards. An all-electric version called the e-Tron started development but would only reach production stage when the second generation model would be introduced. 6-time 24 Hours of Le Mans winner Jacky Ickx described the R8 as “the best handling road car today” and the car was well received by everyone who drove it. The car received a facelift in 2012 and a new model called the V10 Plus was now added to the range. Production of the Type 42 ended in August 2015
This is the second generation R8. Launched 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 its 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 got 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 hp, now up to 612 hp. It remains a current model.
There were a number of other recent and current performance Audi models here as you might expect, including this RS 3 and a TT-RS.
BMW
The 1600-2, as the first “02 Series” BMW was designated, was an entry-level BMW, and was smaller, less expensive, and less well-appointed than the New Class Sedan on which it was based. BMW’s design director Wilhelm Hofmeister assigned the two-door project to staff designers Georg Bertram and Manfred Rennen. The 9.1 in shorter length and wheelbase and lighter weight of the two-door sedan made it more suitable than the original New Class sedan for sporting applications. As a result, the two door sedan became the basis of the sporting 02 Series. The 1600-2 (the “-2” meaning “2-door”) made its debut at the Geneva Show in March 1966 and was sold until 1975, with the designation being simplified to “1602” in 1971. The 1.6 litre M10 engine produced 84 hp at 5,700 rpm and 96 lb·ft. A high performance version, the 1600 TI, was introduced in September 1967. With a compression ratio of 9.5:1 and the dual Solex PHH side-draft carburettor system from the 1800 TI, the 1600 TI produced 110 hp at 6,000 rpm. Also introduced in September 1967 was a limited-production cabriolet, which would be produced by Baur from 1967 through 1971. A hatchback 1600 Touring model was introduced in 1971 but was discontinued in 1972. It was what came next which was more significant. Helmut Werner Bönsch, BMW’s director of product planning, and Alex von Falkenhausen, designer of the M10 engine, each had a two litre engine installed in a 1600-2 for their respective personal use. When they realised they had both made the same modification to their own cars, they prepared a joint proposal to BMW’s board to manufacture a two litre version of the 1600-2. At the same time, American importer Max Hoffman was asking BMW for a sporting version of the 02 series that could be sold in the United States. As per the larger coupe and 4-door saloon models, the 2.0 engine was sold in two states of tune: the base single-carburettor 2002 producing 101 hp and the dual-carburettor high compression 2002 ti producing 119 hp.In 1971, the Baur cabriolet was switched from the 1.6 litre engine to the 2.0 litre engine to become the 2002 cabriolet, the Touring hatchback version of the 02 Series became available with all engine sizes available in the 02 Series at the time and the 2002 tii was introduced as the replacement for the 2002 ti. The 2002 tii used the fuel-injected 130 hp engine from the 2000 tii, which resulted in a top speed of 185 km/h (115 mph). A 2002 tii Touring model was available throughout the run of the tii engine and the Touring body, both of which ended production in 1974. The 2002 Turbo was launched at the 1973 Frankfurt Motor Show. This was BMW’s first turbocharged production car and the first turbocharged car since General Motors’ brief offerings in the early 1960s. It produced 170 hp. The 2002 Turbo used the 2002 tii engine with a KKK turbocharger and a compression ratio of 6.9:1 in order to prevent engine knocking. Kugelfischer mechanical fuel injection was used, with a sliding throttle plate instead of the usual throttle butterfly. The 2002 Turbo was introduced just before the 1973 oil crisis, therefore only 1,672 were built. The 1802 was introduced in 1971 and was available with either the original 2-door sedan body or the 3-door Touring hatchback introduced that year. Production of the Touring model continued until 1974, with the 1802 sedan ending production the following year. The 1502, an economy model with an engine displacement of 1573 cc was introduced in 1975. This engine had a lower compression ratio of 8.0:1, therefore standard-octane petrol could be used. While the rest of the 02 Series was replaced in 1975 by the E21 3 Series, the 1502 was continued until 1977.
This is a 3.0 CSL, known as the E9 in BMW development speak. These two-door coupés were built for BMW by Karmann from 1968 to 1975 and were developed from the New Class-based BMW 2000 CS coupé. The first of the E9 coupés, the 2800 CS, replaced the 2000 C and 2000 CS in 1968. The wheelbase and length were increased to allow the engine bay to be long enough to accommodate the new straight-six engine code-named M30, and the front of the car was restyled to resemble the E3 saloon. The rear axle, however, remained the same as that used in the lesser “Neue Klasse” models and the rear brakes were initially drums – meaning that the 2800 saloon was a better performing car, as it was also lighter. The CS’ advantages were thus strictly optical to begin with The 2800 CS used the 2,788 cc version of the engine used in the E3 2800 saloon. The engine produced 170 bhp. The 2800CS was replaced by the 3.0 CS and 3.0 CSi in 1971. The engine had been bored out to give a displacement of 2,986 cc, and was offered with a 9.0:1 compression ratio, twin carburettors, and 180 hp in the 3.0 CS or a 9.5:1 compression ratio, Bosch D-Jetronic fuel injection, and 200 hp in the 3.0 CSi. There was a 4 speed manual and an automatic transmission variant. Introduced in May 1972, the 3.0 CSL was a homologation special built to make the car eligible for racing in the European Touring Car Championship. 1,265 were built. The “L” in the designation meant leicht (light), unlike in other BMW designations, where it meant lang (long). The lightness was achieved by using thinner steel to build the unit body, deleting the trim and soundproofing, using aluminium alloy doors, bonnet, and boot lid, and using Perspex side windows. The five hundred 3.0 CSLs exported to the United Kingdom were not quite as light as the others, as the importer had insisted on retaining the soundproofing, electric windows, and stock E9 bumpers on these cars. Initially using the same engine as the 3.0 CS, the 3.0 CSL was given a very small increase in displacement to 3,003 cc by increasing the engine bore by one quarter of a millimetre. This was done in August 1972 to allow the CSL to be raced in the “over three litre” racing category, allowing for some increase in displacement in the racing cars. In 1973,the engine in the 3.0 CSL was given another, more substantial increase in displacement to 3,153 cc by increasing the stroke to 84 mm. This final version of the 3.0 CSL was homologated in July 1973 along with an aerodynamic package including a large air dam, short fins running along the front fenders, a spoiler above and behind the trailing edge of the roof, and a tall rear wing. The rear wings were not installed at the factory, but were left in the boot for installation after purchase. This was done because the wings were illegal for use on German roads. The full aero package earned the racing CSLs the nickname “Batmobile”. In 1973, Toine Hezemans won the European Touring Car Championship in a 3.0 CSL and co-drove a 3.0 CSL with Dieter Quester to a class victory at Le Mans. Hezemans and Quester had driven to second place at the 1973 German Touring Car Grand Prix at Nürburgring, being beaten only by Chris Amon and Hans-Joachim Stuck in another 3.0 CSL 3.0 CSLs would win the European Touring Car Championship again in every year from 1975 to 1979. The 3.0 CSL was raced in the IMSA GT Championship in 1975, with Sam Posey, Brian Redman, and Ronnie Peterson winning races during the season. The first two BMW Art Cars were 3.0 CSLs; the first was painted by Alexander Calder and the second by Frank Stella.
The BMW E30 is the second generation of BMW 3 Series, which was produced from 1982 to 1994 and replaced the E21 3 Series, and was the car which really saw the popularity of the 3 Series increase dramatically. . Development of the E30 3 Series began in July 1976, with styling being developed under chief designer Claus Luthe with exterior styling led by Boyke Boyer. In 1978, the final design was approved, with design freeze (cubing process) being completed in 1979. BMW’s launch film for the E30 shows the design process including Computer-aided design (CAD), crash testing and wind-tunnel testing. The car was released at the end of November 1982. Externally, the E30’s appearance is very similar to twin headlight versions of its E21 predecessor, however there are various detail changes in styling to the E30. Major differences to the E21 include the interior and a revised suspension, the latter to reduce the oversteer for which the E21 was criticised. At launch, the car had a 2 door style like its predecessor and just four engines, all of them petrol: the 316 and 318 four cylinder units and the 320 and 323i 6 cylinders. This last was soon upgraded to a 2.5 litre unit. Diesel models were added during the 80s and there was an all-wheel drive 325iX option for continental European markets. In addition to the 2 door saloon and Baur convertible body styles of its E21 predecessors, the E30 became available by early 1984 as a four-door sedan and later a five-door station wagon (marketed as “Touring”). The Touring body style began life as a prototype built by BMW engineer Max Reisböck in his friend’s garage in 1984 and began production in 1987. The factory convertible version began production in 1985, with the Baur convertible conversions remaining available alongside it. Following the launch of the E36 3 Series in 1990, the E30 began to be phased out.
The M3 version of the E46 3 Series was produced in coupé and convertible body styles. The E46 M3 is powered by the S54 straight-six engine and has a 0-100 km/h (62 mph) acceleration time of 5.1 seconds for the coupe, with either the manual or SMG-II transmission. The skid pad cornering results are 0.89 g for the coupe and 0.81 g for the convertible. The top speed is electronically limited to 250 km/h (155 mph). The available transmissions were a Getrag 420G 6-speed manual transmission or a SMG-II 6-speed automated manual transmission, which was based on the Getrag 420G. The SMG-II used an electrohydraulically actuated clutch and gearshifts could be selected via the gear knob or paddles mounted on the steering wheel. The SMG-II was praised for its fast shift times and racetrack performance, but some people found its shifts to be delayed and lurching in stop-start traffic. In 2005, a special edition was introduced which used several parts from the CSL. This model was called the M3 Competition Package (ZCP) in the United States and mainland Europe, and the M3 CS in the United Kingdom. Compared to the regular M3, the Competition Package includes: 19-inch BBS alloy wheels- 19″x 8″ at the front and 19″x 9.5″ at the rear; Stiffer springs (which were carried over to the regular M3 from 12/04); Faster ratio steering rack of 14.5:1 (compared with the regular M3’s ratio of 15.4:1) as per the CSL; Steering wheel from the CSL; M-track mode for the electronic stability control, as per the CSL; The CSL’s larger front brake discs (but with the regular M3 front calipers) and rear brake calipers with larger pistons; Alcantara steering wheel and handbrake covers; The engine, gearbox and other drivetrain components are the same as the standard M3. Total production of the E46 M3 was 56,133 coupes and 29,633 convertibles. The cars were assembled at the BMW Regensburg factory in Germany and production was from September 2000 until August 2006, production totalled 85,766.
As well as the Alpina Roadster cars there was also an example of the parent Z4 here. This has been offered in three different generations, of which this is the first, consisting of the BMW E85 (roadster version) and BMW E86 (coupe version) sports cars. The E85/E86 generation was produced from 2002 to 2008. The E85/E86 replaced the Z3 and is the third model in the BMW Z Series. Initial models were in the roadster (E85) body style, with the coupé (E86) body style being added in 2006. As per the Z3, the E85/E86 was manufactured solely in Greer, South Carolina. The E85 was designed by Danish BMW-designer Anders Warming from mid-1998 to the summer of 1999. The coupe models were designed by Tomasz Sycha. The E85 designs were frozen on March 1, 2000. The Z4 was introduced at the Paris Motor Show in 2002, and North American models went on sale in November of the same year (as the 2003 model year). European sales began in March 2003. The Z4 Roadster was launched in 2002 with the 2.5i and 3.0i six-cylinder models. Transmission choices were a five-speed manual, six-speed manual, five-speed automatic and a six-speed SMG-II automated manual transmission. A four-cylinder model, the Z4 2.0i Roadster, was introduced for the European market in May 2005. The drag coefficient is maximum of Cd=0.35. BMW unveiled a concept coupé version of the Z4 at the 2005 Frankfurt Motor Show The design of the Z4 and Z4 coupé has variously been ascribed to Anders Warming, Chris Bangle, the controversial former BMW Head of Design, and Adrian van Hooydonk, former BMW chief designer, and BMW designer Tomasz Sycha. The design was approved in Summer of 2004 and frozen in December 2004. The company announced in 2005 that the two-door coupé would be available for production including the return of the M Coupé. The production car was introduced at the New York Auto Show in April 2006 and was available for sale in late May 2006. Thanks to its hatch design, the Z4 Coupé offers 10.1 cu ft (0.29 m3) of trunk space, compared with 8.5 cu ft (0.24 m3) for the roadster. The Coupe’s fixed roof increases torsional rigidity, resulting in a stiffness of 32,000 N⋅m (24,000 lb⋅ft) per degree of body twist on the coupe (compared to 14,500 N⋅m (10,700 lb⋅ft) per degree on the roadster), which improves turn-in and overall handling response. The roof has a “double-bubble” contour which serves as an aerodynamic aid and offers more headroom than the roadster with the soft top closed. The Coupé has a sleek fastback rear window that slopes down to an integrated spoiler which is shaped to deliver downforce to the rear axle at high-speed. The model range for the Coupé was more limited than the roadster, and consisted of the six-cylinder 3.0si and Z4 M model only. Transmission choices were a 6-speed manual and a 6-speed automatic with shift paddles mounted on the steering column. In February 2009, the BMW Z4 (E89) began production as the successor to the E85/E86.
The BMW 1 Series M Coupé (often referred to as the “1M”) is the high-performance model of the E82 coupe range, sold under the BMW M performance sub-brand. While BMW naming convention would have called the car the “M1”, an alternate name was chosen to avoid confusion with the 1970s BMW M1 supercar. At the 2007 Tokyo Auto Show, BMW unveiled the 1 Series tii Concept, which was thought to be a preview of the M version of the 1 Series. However, the eventual 1M model appeared four years later and with significant differences, such as an engine with six-cylinders instead of four. The 1M was BMW M’s second turbocharged engine (after the S63 V8 which debuted in the X6M). The BMW N54 fitted to the 1M was originally being used in the E89 Z4 sDrive35is and has rated outputs of 250 kW (335 bhp) at 5,900 rpm and 450 Nm (332 lb/ft) from 1,500 to 4,500 rpm. An additional 50 Nm (37 lb/ft) is produced during overboost taking overall peak torque to 500 Nm (369 lb/ft). The sole transmission available was a six-speed manual. The front and rear track widths were widened by 74 mm (2.9 in) and 46 mm (1.8 in) respectively and a limited-slip differential was used. As a result, the overall width is 1,803 mm (71.0 in). The curb weight is 3,296 lb (1,495 kg). Initial plans were to limit production of the 1M Coupe to 2,700 units, but the final production total was 6,309.
First introduced as the Concept Vision EfficientDynamics, the i8 was part of BMW’s “Project i” and was marketed as a new brand, BMW i, sold separately from BMW or Mini. The BMW i3, launched for customers in Europe in the fourth quarter of 2013, was the first model of the i brand available in the market, and it was followed by the i8, released in Germany in June 2014 as a 2015 model year. Other i models were expected to follow.The initial turbodiesel concept car was unveiled at the 2009 International Motor Show Germany, In 2010, BMW announced the mass production of the Vision EfficientDynamics concept in Leipzig beginning in 2013 as the BMW i8. The BMW i8 gasoline-powered concept car destined for production was unveiled at the 2011 Frankfurt Motor Show. The production version of the BMW i8 was unveiled at the 2013 International Motor Show Germany. The following are the concept and pre-production models developed by BMW that preceded the production version. When BMW i sponsored the ABB FIA Formula E World Championship, they announced that they would provide support vehicles; the i8 operated as the official safety car. BMW Vision EfficientDynamics concept car was a plug-in hybrid with a 1.5L three-cylinder turbo-diesel engine. Additionally, there were two electric motors with 104 kW (139 hp). It allowed an acceleration to 100 km/h (62 mph) in 4.8 seconds, with an electronically limited top speed of 250 km/h (155 mph). According to BMW, the average fuel consumption in the EU test cycle (KV01) was 3.76 L/100 km (75.1 mpg imp), with a carbon dioxide emission rating of 99 g/km(1,3 L/100 km and 33g CO2/kabelham; EU-PHEV ECE-R101). The estimated all-electric range was 50 km (31 mi), and the 24-litre petrol tank extended the total vehicle range to up to 700 km (430 mi). The lightweight chassis was made mainly from aluminium. The windshield, top, doors, and fenders were made from polycarbonate glass, with the body having a drag coefficient of 0.22. The designers of the BMW Vision EfficientDynamics concept were Mario Majdandzic for the exterior and Jochen Paesen (lead interior design), Markus Speck (interior design), and Felix Staudacher former Baerlin (detail design) for the interior. While Jochen Paesen took care of the main interior theme, Markus Speck was in charge of the seats, all the visible structure, and some details. Felix Baerlin supported Jochen Paesen on details including the steering wheel and center console. The vehicle was unveiled at the 2009 International Motor Show Germany, followed by Auto China 2010. The BMW i8 Concept plug-in hybrid electric vehicle included an electric motor located in the front axle powering the front wheels rated 96 kW (131 PS; 129 hp) and 250 Nm (184 lb/ft, a turbocharged 1.5-litre 3-cylinder petrol engine driving rear wheels rated 164 kW (223 PS; 220 hp) and 300 Nm (221 lb/ft of torque, with combined output of 260 kW (354 PS; 349 hp) and 550 Nm (406 lb/ft), a 7.2 kWh (26 MJ) lithium-ion battery pack that allowed an all-electric range of 35 km (22 mi). All four wheels provided regenerative braking. The location of the battery pack in the energy tunnel gave the vehicle a low centre of gravity, enhancing its dynamics. Its top speed was electronically limited to 250 km/h (155 mph) and was expected to go from 0 to 100 km/h (0 to 60 mph) in 4.6 seconds. Under normal driving conditions the i8 was expected to deliver 80 mpg US (2.9 L/100 km; 96 mpg imp) under the European cycle. A full charge of the battery would take less than two hours at 220 V. The positioning of the motor and engine over the axles resulted in 50/50 weight distribution.The vehicle was unveiled at the 2011 International Motor Show Germany, followed by CENTER 548 in New York City, 42nd Tokyo Motor Show 2011, 82nd Geneva Motor Show 2012, BMW i Born Electric Tour at the Palazzo Delle Esposizioni at Via Nazionale 194 in Rome, and Auto Shanghai 2013. This concept car was featured in the film Mission: Impossible – Ghost Protocol. The BMW i8 Concept Spyder included a slightly shorter wheelbase and overall length compared to the BMW i8 Concept, carbon-fiber-reinforced plastic (CFRP) Life module, drive modules made primarily from aluminium components, interlocking of surfaces and lines, 8.8-inch (22.4 cm) screen display, off-white outer layer, and orange-toned naturally tanned leather upholstery. The vehicle was unveiled at Auto China 2012 in Beijing where it won Concept Car of the Year, followed by the 83rd Geneva International Motor Show 2013. The designer of the BMW i8 Concept Spyder was Richard Kim. The design of the BMW i8 coupe prototype was based on the BMW i8 Concept. The BMW i8 prototype had an average fuel efficiency of less than 2.5 L/100 km (113.0 mpg imp; 94.1 mpg US) under the New European Driving Cycle with carbon emissions of less than 59 g/km. The i8 with its carbon-fibre-reinforced plastic (CFRP) passenger cell lightweight, aerodynamically optimized body, and BMW eDrive technology offered the dynamic performance of a sports car, with an expected 0–100 km/h (0–62 mph) sprint time of less than 4.5 seconds using both power sources. The plug-in hybrid system of the BMW i8 comprised a three-cylinder, 1.5-liter BMW TwinPower Turbo gasoline engine combined with BMW eDrive technology used in the BMW i3 and developed maximum power of 170 kW (228 hp). The BMW i8 was the first BMW production model to be powered by a three-cylinder gasoline engine and the resulting specific output of 115 kW (154 hp) per liter of displacement was on par with high-performance sports car engines and was the highest of any engine produced by the BMW Group. The BMW i8’s second power source was a hybrid synchronous electric motor specially developed and produced by the BMW Group for BMW i. The electric motor developed maximum power of 131 hp (98 kW) and produced its maximum torque of around 320 Nm (236 lb/ft) from a standstill. Typical of an electric motor, responsive power was instantly available when starting and this continued into the higher load ranges. As well as providing a power boost to assist the gasoline engine during acceleration, the electric motor could also power the vehicle by itself. Top speed in electric mode was approximately 120 km/h (75 mph), with a maximum driving range of up to 35 km (22 mi). Linear acceleration was maintained even at higher speeds since the interplay between the two power sources efficiently absorbed any power flow interruptions when shifting gears. The model-specific version of the high-voltage 7.2 lithium-ion battery had a liquid cooling system and could be recharged at a conventional household power socket, at a BMW I Wallbox, or at a public charging station. In the US, a full recharge took approximately 3.5 hours from a conventional 120 V, 12 amp household circuit or approximately 1.5 hours from a 240 V Level 2 charger. The driver could select several driving modes: SPORT, COMFORT, and ECO PRO. Using the gear selector, the driver could either select position D for automated gear selection or could switch to SPORT mode. SPORT mode offered manual gear selection and at the same time switched to sporty drive and suspension settings. In SPORT mode, the engine and electric motor delivered extra performance, accelerator response was faster, and the power boost from the electric motor was maximized. And to keep the battery topped up, SPORT mode also activated maximum energy recuperation during overrun and braking as the electric motor’s generator function, which recharged the battery using kinetic energy, switched to a more powerful setting. The Driving Experience Control switch on the center console offered a choice of two settings. On starting, COMFORT mode was activated, which offered a balance between performance and fuel efficiency, with unrestricted access to all convenience functions. Alternatively, the ECO PRO mode could be engaged, which, on the BMW i8 as on other models, supported an efficiency-optimized driving style. In this mode, the powertrain controller coordinated the cooperation between the gasoline engine and the electric motor for maximum fuel economy. On deceleration, the intelligent energy management system automatically decided, in line with the driving situation and vehicle status, whether to recuperate braking energy or to coast with the powertrain disengaged. At the same time, ECO PRO mode also programmed electrical convenience functions such as the air conditioning, seat heating, and heated mirrors to operate at minimum power consumption, but without compromising safety. The maximum driving range of the BMW i8 on a full fuel tank and with a fully charged battery was more than 500 km (310 mi) in COMFORT mode, which could be increased by up to 20% in ECO PRO mode. The BMW i8’s ECO PRO mode could also be used during all-electric operation. The vehicle was then powered solely by the electric motor. Only if the battery charge dropped below a given level, or under sudden intense throttle application such as kick down, was the internal combustion engine automatically activated. The vehicle was unveiled in BMW Group’s Miramas test track in France. The production BMW i8 was designed by Benoit Jacob. The production version was unveiled at the 2013 Frankfurt International Motor Show followed by 2013 Les Voiles de Saint-Tropez. Its design was heavily influenced by the BMW M1 Homage concept car, which in turn pays homage to BMW’s last production mid-engined sports car prior to the i8: the BMW M1. The BMW i8 featured butterfly doors, head-up display, rear-view cameras and partially false engine noise. Series production of customer vehicles began in April 2014. The electric two-speed drivetrain was developed and produced by GKN. It was the first production car with laser headlights, reaching farther than LED lights. The i8 had a vehicle weight of 1,485 kg (3,274 lb) (DIN kerb weight) and a low drag coefficient (Cd) of 0.26. In all-electric mode, the BMW i8 had a top speed of 120 km/h (75 mph). In Sport mode, the i8 delivered a mid-range acceleration from 80 to 120 km/h (50 to 75 mph) in 2.6 seconds. The electronically controlled top speed was 250 km/h (155 mph). The 20,000th i8 was produced in December 2019, one of the limited Ultimate Sophisto Edition models. The last i8 rolled off the production line on 11 June 2020. In total, there were 20,465 units produced: 16,581 coupés and 3,884 roadsters.
The M2 was first revealed in Need for Speed: No Limits on November 2015, before later premiering at the North American International Auto Show in January 2016. Production commenced in October 2015 and is only available as a rear-wheel drive coupé. The M2 is powered by the turbocharged 3.0-litre N55B30T0 straight-six engine producing 365 bhp at 6,500 rpm and 465 Nm (343 lb/ft) between 1,450–4,750 rpm, while an overboost function temporarily increases torque to 500 N⋅m (369 lb⋅ft). The M2 features pistons from the F80 M3 and F82 M4, and has lighter aluminium front and rear suspension components resulting in a 5 kg (11 lb) weight reduction. The M2 is available with a 6-speed manual or with a 7-speed dual-clutch transmission which features a ‘Smokey Burnout’ mode. 0-100 km/h acceleration times are 4.5 seconds manual transmission models and 4.3 seconds for models equipped with the 7-speed dual clutch transmission. Top speed is limited to 250 km/h (155 mph) but can be extended to 270 km/h (168 mph) with the optional M Driver’s package. The M2 Competition was introduced at the 2018 Beijing Auto Show and succeeded the standard M2 Coupé. Production began in July 2018. The M2 Competition uses the high performance S55 engine which is a variant of the 3.0-litre twin turbocharged straight six engine found in the F80 M3 and F82 M4. The engine features a redesigned oil supply system and modified cooling system from the BMW M4 with the Competition Package, and also features a gasoline particulate filter in certain European Union countries to reduce emissions. Compared to the standard M2, the S55 produces an additional 30 kW (40 hp) and 85 Nm (63 lb/ft), resulting in a larger and more sustained power output of 405 bhp between 5,370–7,200 rpm, and 550 N⋅m (406 lb⋅ft) at 2,350–5,230 rpm. The 0-100 km/h acceleration time is 4.4 seconds for six-speed manual transmission models, and 4.2 seconds for models with the 7-speed dual clutch transmission. Top speed is electronically limited to 250 km/h (155 mph), but the M Driver’s package can extend the limit to 280 km/h (174 mph) which is 10 km/h (6 mph) further than in the M2. The M2 Competition also has a carbon-fibre reinforced plastic strut bar, enlarged kidney grilles, and larger brake discs of 400 mm (15.7 in) in the front axle and 380 mm (15.0 in) in the rear axle. Because of the new engine and cooling system, the M2 Competition is 55 kg (121 lb) heavier than the standard M2 at 1,550 kg (3,417 lb) for manual transmission models and 1,575 kg (3,472 lb) for dual-clutch transmission models.
The M3 version of the F30 3 Series was designated the F80 and was produced from 2014 to 2018. The F80 M3 was powered by the BMW S55 twin-turbocharged straight-six engine, therefore being the first turbocharged M3 model. Despite the smaller displacement than the V8 engine used by the previous generation of M3, the switch from naturally aspirated engines to turbocharging resulted in peak power being increased from 414 to 425 bhp, and peak torque being increased from 400 to 550 Nm (295 to 406 lb/ft). The official 0–60 mph acceleration times are 3.9 seconds with the M-DCT transmission and 4.1 seconds with the manual transmission. Top speed is limited to 250 km/h (155 mph) but an optional M Driver’s package raises this to 280 km/h (174 mph). The kerb weight is 1,621 kg (3,574 lb). The F80 M3 was unveiled, alongside the F82 M4 (its coupé counterpart), at the 2014 North American International Auto Show. The two-door M3 had been renamed BMW M4 – in line with the new BMW 4 Series range. 2016, a Competition Package became available for the M3 and M4. Changes included an increase in power to 444 bhp, revised tuning of the electronic differential and the electronic stability control (“DSC”), suspension upgrades and new front seats. The official 0–100 km/h (62 mph) time was 4.0 seconds with the dual-clutch transmission. The F80 generation of M3 was produced only as a saloon, following the company’s plans to split off the 4 Series coupé and convertible from the 3 Series. To minimise weight, the roof is made of carbon fibre and the bonnet and front quarter panels are made from aluminium. The F80 M3’s design was updated in (summer) 2015 for the 2016 model year and in (march) 2017 for the 2018 model year. In the former, the taillights were given LEDs, and in the latter, the headlights were restyled and also given newer and more angular LEDs. Production ceased in October 2018, due to the extensive changes required to meet the WLTP emissions regulations. However, the M4 model remained in production.
Final BMW of note was an example of the latest – and still somewhat controversial looking – M4.
CADILLAC
The 1971 Eldorado was substantially redesigned, growing two inches in length, six in wheelbase and featuring standard fender skirts, all of which gave the car a much heavier appearance than the previous generation. The 500 cu in (8.2 L) V8 engine remained an Eldorado exclusive. A convertible Eldorado was also offered for 1971, the first in the line since 1966. Door glass remained frameless, and the hardtop rear quarter windows were deleted, replaced by a fixed “opera window” in the widened “C” pillar. A stand-up wreath and crest hood ornament was new this year. Inside, there was a new curved instrument panel and redesigned seats. A fiber-optic “lamp monitor” system, which displayed the functionality of the headlamps, taillamps, parking lamps, turn signals and brakelights was mounted on each front fender and the shelf below the rear window. This 126.3 in (3,208 mm) wheelbase version Eldorado would run through 1978, receiving major facelifts in 1973, 1974 and 1975. Sales in 1971 set a new record at 27,368. Changes were minimal for 1972, the most noticeable exterior change was a new ‘Eldorado’ script, replacing the block ‘Eldorado’ lettering on the front fenders and trunk lid. Sales for 1972 increased to 40,074. In 1973, the Eldorado was removed from the Fleetwood series and reestablished as its own series. The 1973 models received a major facelift, featuring a massive eggcrate grille, new front and rear bumpers, decklid, rear fenders and taillamps. Interiors featured new “soft pillow” door panels, with larger, sturdier pull-straps. The rear “lamp monitor” display which showed the driver the function of the turn signal, brake and taillamps, was relocated (except on the convertible) from the rear shelf, to the headliner just above the rear window. The Cadillac Eldorado was chosen as the official pace car for the Indianapolis 500 in 1973. Cadillac produced 566 of these special pace car convertibles. Thirty-three were used at the track during the race week, with the remainder distributed to U.S. Cadillac dealers one per dealership. Sales of the Eldorado coupe and convertible soared to 51,451 the highest total for the model during the 1970s and over a sixth of all Cadillac sales for 1973. The lengthened wheelbase reduced performance relative to contemporary premium personal luxury cars, but offered comfortable seating for six adults rather than just four. 1974 Eldorados featured a redesigned rear bumper with vertical ends, housing sidemarker lamps. This new bumper was designed to meet the new 5 mile impact federal design regulation. Other styling changes included new horizontal taillamps placed beneath the trunk lid, a new fine mesh grille with Cadillac script on the header and new standard wheel covers. Inside, there was a redesigned two-tier curved instrument panel, marketed in sales literature as “space age” and shared with all 1974 Cadillacs. A new, quartz controlled digital clock, an “information band” of warning lights and the fuel gauge ran horizontally along the upper tier of this new instrument panel. For 1975, the Eldorado received new rectangular headlamps, egg-crate grille, front bumper, full rear wheel openings sans fender skirts and sharper, angular lines resulting in a sleeker appearance reminiscent of the 1967–70 models. 1976 was to be the final year for the Eldorado convertible and the car was heavily promoted by General Motors as “the last American convertible”. Some 14,000 would be sold, many purchased as investments. The final 200 convertibles were designated as “Bicentennial Edition” commemorating America’s 200th birthday. All 200 of these cars were identical, painted white with a dual red/blue pinstripe along the upper bodyside and inside, a commemorative plaque was mounted on the dashboard. When Cadillac reintroduced the Eldorado convertible for the 1984 model year, several customers who had purchased 1976 Eldorado convertibles as investments, felt they had been deceived and launched an unsuccessful class action lawsuit against General Motors. Having received a major facelift the previous year, the Eldorado for 1976 received only minor styling changes, including a new grille, a small Cadillac script on the hood face, revised taillamp lenses and new black painted wheel covers. For 1977, the Eldorado again received a new grille with a finer crosshatch pattern. New vertical taillamps were relocated to the chrome bumper-fender extensions. New ‘Eldorado’ block-lettering appeared on the hood face and new rectangular side marker lights with ‘Eldorado’ block-lettering replaced the ‘Eldorado’ script on the rear fenders. The convertible was dropped (although Custom Coach of Lima, Ohio converted a few 1977 and 1978 Eldorados into convertibles using salvaged parts from earlier models). The mammoth 500 cu in. (8.2L) V8 of 1970–76 was replaced by a new 425 cu in. (7L) V8 with 180 bhp available in all 1977 Cadillacs, except the Seville. A new grille was the only obvious change for 1978; the Eldorado would be completely redesigned and downsized for 1979.
CHEVROLET
The third generation Corvette, patterned after the Mako Shark II concept car, was introduced for the 1968 model year and was in production until 1982. C3 coupes featured the first use of T-top removable roof panels. The C3 introduced monikers that were later revived, such as LT-1, ZR-1, Z07 and Collector Edition. In 1978, the Corvette’s 25th anniversary was celebrated with a two-tone Silver Anniversary Edition and an Indy Pace Car replica edition of the C3. This was also the first time that a Corvette was used as a Pace Car for the Indianapolis 500. Engines and chassis components were mostly carried over from the C2, but the body and interior were new. The 350 cu in (5.7 litre) engine replaced the old 327 cu in (5.36 litre) as the base engine in 1969, but power remained at 300 bhp. 1969 was the only year for a C3 to optionally offer either a factory installed side exhaust or normal rear exit with chrome tips. The all-aluminium ZL1 engine was also new for 1969; the special big-block engine was listed at 430-hp , but was reported to produce 560 hp and propelled a ZL1 through the 1/4 mile in 10.89 seconds. There was an extended production run for the 1969 model year due a lengthy labour strike, which meant sales were down on the 1970 models, to 17,316. 1970 small-block power peaked with the optional high compression, high-revving LT-1 that produced 370 bhp. The 427 big-block was enlarged to 454 cu in (7.44 litre) with a 390 bhp rating. The ZR-1 special package was an option available on the 1970 through 1972 model years, and included the LT-1 engine combined with special racing equipment. Only 53 ZR-1’s were built. In 1971, to accommodate regular low-lead fuel with lower anti-knock properties, the engine compression ratios were lowered which resulted in reduced power ratings. The power rating for the 350 cu in (5.7 litre) L48 base engine decreased from 300 to 270 hp and the optional special high performance LT1 engine decreased from 370 to 330 hp. The big-block LS6 454 was reduced from 450 to 425 bhp, though it was not used in Corvettes for 1970; it was used in the Chevelle SS. For the 1972 model year, GM moved to the SAE Net measurement which resulted in further reduced, but more realistic, power ratings than the previous SAE Gross standard. Although the 1972 model’s 350 cu in horsepower was actually the same as that for the 1971 model year, the lower net horsepower numbers were used instead of gross horsepower. The L48 base engine was now rated at 200 bhp and the optional LT1 engine was now rated at 270 bhp. 1974 models had the last true dual exhaust system that was dropped on the 1975 models with the introduction of catalytic converters requiring the use of no-lead fuel. Engine power decreased with the base ZQ3 engine producing 165 bhp), the optional L82’s output 250 bhp, while the 454 big-block engine was discontinued. Gradual power increases after 1975 peaked with the 1980 model’s optional L82 producing 230 bhp. Styling changed subtly throughout the generation until 1978 for the car’s 25th anniversary. The Sting Ray nameplate was not used on the 1968 model, but Chevrolet still referred to the Corvette as a Sting Ray; however, the 1969 (through 1976) models used the “Stingray” name as one word, without the space. In 1970, the body design was updated including fender flares, and interiors were refined, which included redesigned seats, and indication lights near the gear shift that were an early use of fibre optics . Due to government regulation, the 1973 Corvette’s chrome front bumper was changed to a 5-mile-per-hour (8 km/h)system with a urethane bumper cover. 1973 Corvettes are unique in that sense, as they are the only year where the front bumper was polyurethane and the rear retained the chrome two-piece bumper set. 1973 was also the last year chrome bumpers were used. The optional wire-spoked wheel covers (left) were offered for the last time in 1973. Only 45 Z07 were built in 1973. From 1974 onwards both the front and rear bumpers were polyurethane. In 1974, a 5-mph rear bumper system with a two-piece, tapering urethane bumper cover replaced the Kamm-tail and chrome bumper blades, and matched the new front design from the previous year. 1975 was the last year for the convertible, (which did not return for 11 years). For the 1976 models the fibreglass floor was replaced with steel panels to provide protection from the catalytic converter’s high operating temperature. 1977 was last year the tunnelled roof treatment with vertical back window was used, in addition leather seats were available at no additional cost for the first time. The 1978 25th Anniversary model introduced the fastback glass rear window and featured a new interior and dashboard. Corvette’s 25th anniversary was celebrated with the Indy 500 Pace Car limited edition and a Silver Anniversary model featuring silver over gray lower body paint. All 1979 models featured the previous year’s pace car seats and offered the front and rear spoilers as optional equipment. 53,807 were produced for the model year, making 1979 the peak production year for all versions of the Corvette. Sales have trended downward since then. In 1980, the Corvette received an integrated aerodynamic redesign that resulted in a significant reduction in drag. After several years of weight increases, 1980 Corvettes were lighter as engineers trimmed both body and chassis weight. In mid-1981, production shifted from St. Louis, Missouri to Bowling Green, Kentucky, and several two-tone paint options were offered. The 1981 models were the last available with a manual transmission until well into the 1984 production run. In 1982, a fuel-injected engine returned, and a final C3 tribute Collectors Edition featured an exclusive, opening rear window hatch. Seen here were both an early Convertioble and one of the later models.
This is an example of the fourth generation Corvette to near the name. It was the first complete redesign of the Corvette since 1963. Production was to begin for the 1983 model year but quality issues and part delays resulted in only 43 prototypes for the 1983 model year being produced that were never sold. All of the 1983 prototypes were destroyed or serialised to 1984 except one with a white exterior, medium blue interior, L83 350 ci, 205 bhp V8, and 4-speed automatic transmission. After extensive testing and modifications were completed, it was initially retired as a display sitting in an external wall over the Bowling Green Assembly Plant’s employee entrance. Later this only surviving 1983 prototype was removed, restored and is now on public display at the National Corvette Museum in Bowling Green, Kentucky. It is still owned by GM. On February 12, 2014, it was nearly lost to a sinkhole which opened up under the museum. Regular fourth generation production began on January 3, 1983; the 1984 model year and delivery to customers began in March 1983. The 1984 model carried over the 350 cu in (5.7 litre) L83 slightly more powerful (5 bhp) “Crossfire” V8 engine from the final 1982 third generation model. New chassis features were aluminium brake calipers and an all-aluminium suspension for weight savings and rigidity. The new one piece targa top had no centre reinforcement. A new electronic dashboard with digital liquid crystal displays for the speedometer and tachometer was standard. Beginning in 1985, the 230 bhp L98 engine with tuned port fuel injection became the standard engine. September 1984 through 1988 Corvettes offered a Doug Nash designed “4+3” transmission – a 4-speed manual coupled to an automatic overdrive on the top three gears. It was designed to help the Corvette meet U.S. fuel economy standards. Since 1981, when it was last offered, a manual transmission returned to the Corvette starting with production in late-1984. The transmission proved to be problematic and was replaced by a modern ZF 6-speed manual transmission in 1989. In 1986, the second Corvette Indy Pace Car was released. It was the first convertible Corvette since 1975. A Centre High Mounted Signal Light – a third centre brake light – was added in 1986 to comply with safety regulations. While the colour of the pace car used in the race was yellow, all 1986 convertibles also had an Indy 500 emblem mounted on the console, making any colour a “pace car edition”. In 1987, the B2K twin-turbo option became available from the factory. The Callaway Corvette was a Regular Production Option (RPO B2K). The B2K option coexisted from 1990 to 1991 with the ZR-1 option, which then replaced it. Early B2Ks produced 345 bhp and 450 lb·ft later versions boasted 450 bhp and 613 lb·ft .1988 saw the 35th Anniversary Edition of the Corvette. Each of these featured a special badge with an identification number mounted next to the gear selector, and were finished with a white exterior, wheels, and interior. In 1991, all Corvettes received updates to the body, interior, and wheels. The convex rear fascia that set the 1990 ZR-1 apart from the base model was now included on L98 Corvettes, making the styling of the expensive ZR-1 even closer to that of the base cars. The most obvious difference remaining between the base and ZR-1 models besides the wider rear wheels was the location of the CHMSL, which was integrated into the new rear fascia used on the base model, but remained at the top of the rear-hatch on the ZR-1’s. For the 1992 model year, the 300 bhp LT1 engine was introduced, an increase of 50 bhp over 1991’s L98 engine. This engine featured reverse-flow cooling (the heads were cooled before the block), which allowed for a higher compression ratio of 10.5:1. A new distributor was also debuted. Called “Optispark”, the distributor was driven directly off the front of the camshaft and mounted in front of the timing cover, just above the crankshaft and harmonic balancer. Also new for 1992 was Acceleration Slip Regulation (ASR), a form of traction control which utilised the Corvette’s brakes, spark retard, and throttle close-down to prevent excessive rear wheel spin and possible loss of control. The traction control device could be switched off if desired. A special 40th Anniversary Edition was released in 1993, which featured a commemorative Ruby Red colour, 40th anniversary badges, and embroidered seat backs. The 1993 Corvette also marked the introduction of the Passive Keyless Entry System, making it the first GM car to feature it. Production of the ZR-1 ended in 1995, after 6,939 cars had been built.[46] 1996 was the final year of C4 production, and featured special models and options, including the Grand Sport and Collector Edition, OBD II (On-Board Diagnostics), run flat tyres, and the LT4 engine. The 330 bhp LT4 V8 was available only with a manual transmission, while all 300 bhp LT1 Corvettes used automatic transmissions. Chevrolet released the Grand Sport (GS) version in 1996 to mark the end of production of the C4 Corvette. The Grand Sport moniker was a nod to the original Grand Sport model produced in 1963. A total of 1,000 GS Corvettes were produced, 810 as coupes and 190 as convertibles. The 1996 GS came with the high-performance LT4 V8 engine, producing 330 bhp and 340 lb·ft . The Grand Sport came only in Admiral Blue with a white stripe down the middle, and black wheels and two red stripes on the front left wheel arch.
Also here was the very latest Corvette, the C8 generation.
There was also an example of the Camaro as reborn for the 21st century. After various concept car teasers, a production car was finally launched in 2009 and the car was well received. It was never sold new in the UK, but a number of examples have found their way here.
CRAYFORD
Ford launched the all new Capri in January 1969, aimed at the young market, it was clearly a downsized Ford Mustang, Ford hoped to equal the runaway success that the pony car had enjoined in America, with the Capri in Europe. It was launched with a massive TV and press campaign on the theme that it was, “ the car you always promised yourself’. But by October 16th 1969 Motor Magazine announced Crayford had produced, in time for the Motor Show, the Capri convertible, the car you really, really promised yourself. It was to be, exact in Crayford terms, not a convertible but a Cabriolet, using a luxury hood that had a full internal wool headlining. It was priced from £1,849 for the 1300cc up to £2,421 for a 3000E V6 convertible, at a time when an E type was just over £2000. But it sold well through its Bristol Street Motors franchise, BSM even produced a flower power hippy style brochure for its “Freedom Capri”. For once Crayford had some direct competition as three Capri convertibles where now being produced, all different and with their own plus and minus points. The Crayford Capri was easily the most successful with 37 documented sales. All the cars were built under licence by Crayford’s partner in Germany, Deutsch of Cologne. Cars went out, 2 each Friday, as saloons and back each Monday as Crayford’s. Crayford did an extensive redesign to the rear deck to make it completely flat, but left the door window frames in place on cost grounds, for many it was the best looking of the three conversions. Abbotts of Farnham, well known for its Ford Corsair & Consul/Zephyr/Zodiac estates, also built a Capri convertible. Not so pretty as the Crayford, it had no redesign to the rear deck, you could still see the rear buttresses, but it did have wind up rear quarter-light glass making a lighter car with the hood up, Abbotts also took out the front window frame. Orders for 50 cars had been received but unfortunately Abbotts were in financial trouble, they only made and sold 7 cars before the company collapsed and ceased trading.
FERRARI
Launched in May 1994 as an evolution of the Ferrari 348, just about everything was changed, and improved for the F355, seen here in Berlinetta and Targa formats. Design emphasis for the F355 was placed on significantly improved performance, but driveability across a wider range of speeds and in different environments such as low-speed city traffic was also addressed, as the Honda NS-X had proved that you could make a supercar that could be lived with every day. Apart from the displacement increase from 3.4 to 3.5 litres, the major difference between the V8 engine in the 348 and F355 was the introduction of a 5-valve cylinder head. This new head design allowed for better intake permeability and resulted in an engine that was considerably more powerful, producing 375 hp. The longitudinal 90° V8 engine was bored 2mm over the 348’s engine, resulting in the small increase in displacement. The F355 had a Motronic system controlling the electronic fuel injection and ignition systems, with a single spark plug per cylinder, resulting in an unusual 5 valves per cylinder configuration. This was reflected in the name, which did not follow the formula from the previous decades of engine capacity in litres followed by number of cylinders such as the 246 = 2.4 litres and 6 cylinders and the 308 of 3.0 litres and 8 cylinders. For the F355, Ferrari used engine capacity followed by the number of valves per cylinder (355 = 3.5 litres engine capacity and 5 valves per cylinder) to bring the performance advances introduced by a 5 valve per cylinder configuration into the forefront. 5. The frame was a steel monocoque with tubular steel rear sub-frame with front and rear suspensions using independent, unequal-length wishbones, coil springs over gas-filled telescopic shock absorbers with electronic control servos and anti-roll bars. The car allows selection between two damper settings, “Comfort” and “Sport”. Ferrari fitted all road-going F355 models with Pirelli tires, size 225/40ZR 18 in front and 265/40 ZR 18 in the rear. Although the F355 was equipped with power-assisted steering (intended to improve low-speed driveability relative to the outgoing 348), this could optionally be replaced with a manual steering rack setup by special order. Aerodynamic designs for the car included over 1,300 hours of wind tunnel analysis. The car incorporates a Nolder profile on the upper portion of the tail, and a fairing on the underbody that generates downforce when the car is at speed. These changes not only made the car faster but also much better to drive, restoring Ferrari to the top of the tree among its rivals. At launch, two models were available: the coupe Berlinetta and the targa topped GTS, which was identical to the Berlinetta apart from the fact that the removable “targa-style” hard top roof could be stored behind the seats. The F355 would prove to be last in the series of mid-engined Ferraris with the Flying Buttress rear window, a lineage going back to the 1965 Dino 206 GT, unveiled at the Paris Auto Show. The Spider (convertible) version came later in the year. In 1997 the Formula One style paddle gear shift electrohydraulic manual transmission was introduced with the Ferrari 355 F1 adding £6,000 to the dealer asking price. This system promised faster gearchanges and allowed the driver to keep both hands on the steering wheel, It proved to be very popular and was the beginning of the end for the manual-transmission Ferrari. Ferrari produced 4,871 road-going Berlinetta models, of which 3,829 were 6-speed and 1,042 were F1 transmissions. The Spider proved to be the second-most popular F355 model, with a total production of 3,717 units, of which 2,664 were produced with the 6-speed transmission and another 1,053 produced with the F1 transmission. A total of 2,577 GTS models were produced, with 2,048 delivered with the 6-speed transmission and another 529 with the F1 transmission. This was the last GTS targa style model produced by Ferrari. This made a total production run of 11,273 units making the F355 the most-produced Ferrari at the time, though this sales record would be surpassed by the next generation 360 and later, the F430.
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 lb/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.
Also here was an example of the 458 Speciale, one of a long line of specially engineered cars added to complement the “regular” V8 models that started with the 100 units of the 348 Speciale produced in 1992, and followed up by the 360 Challenge Stradale, the 430 Scuderia and the 16M. In essence they are all about adding power and shedding weight. In simplistic terms, the road to the Speciale can be summed up in four words: more power, less weight. There are other, more detailed changes, too, obviously, but those are the cornerstones around which everything else is shaped. The normally aspirated, flat-plane crank V8 retains its 4497cc swept capacity but receives new cam geometry with higher valve lift, shorter inlet manifolds and different pistons providing a higher compression ratio. Internal friction is reduced, through the use of uprated materials and the upshot is 597bhp (up from 562bhp) generated at the engine’s 9000rpm limit. Torque is the same, at 398lb ft, still delivered at 6000rpm. The engine is mated to a seven-speed, dual-clutch gearbox whose upshifts, we were told at the launch of such gearboxes, are all but instant. That’s still true, but Ferrari has improved the response time to a pull on the lever and made the engine rev-match more quickly on downshifts to reduce the time that those take. The engine’s changes shave 8kg from the car’s overall weight – the exhaust is all aluminium and the intake is carbonfibre. Those 8kg form part of a claimed 90kg total saving at 1395kg now, versus 1485kg for a 458 Italia. Of this 90kg, 12kg is contributed by lighter, forged wheels, 13kg comes from bodywork and window changes (lighter glass all round and Lexan for the engine cover), and 20kg comes from the cabin. There are two flaps on the Speciale’s front valance, one either side of the prancing horse badge in its centre. Below 106mph these flaps remain closed, which diverts air towards the radiators. Above that speed, the radiators get quite enough cool air, thanks very much, so the flaps open, which reduces drag. Then, above 137mph, they move again, lowering to shift downforce to the rear of the car, in turn adjusting the balance 20 per cent rearward in order to promote high-speed cornering stability. At the rear, meanwhile, there is a new diffuser (the exhausts have been rerouted to make the most of its central section). Movable flaps in the diffuser adjust, but this time they are dependent not only on speed but also on steering angle and throttle or brake position. When lowered, the flaps stall the path of air into the diffuser and improve the Cd by 0.03. When raised, the diffuser adds downforce as it should. Bodywork changes, though, also bring some aerodynamic improvements, you’ll not be surprised to hear, with lessons applied from the LaFerrari and FXX programmes. In the front valance and under the rear diffuser, there are flaps that open at speed to reduce drag and improve downforce. Finally, there are new Michelin Pilot Sport Cup 2 tyres in a unique compound – rather a sticky one, we suspect – plus new calibration for the adaptive dampers. The carbon-ceramic brake discs also use a new compound. 499 of them were built and they sold out very quickly.
FIAT
The first 124 Spider made its debut at the Turin Show in 1966, and continued in production until the mid 1980s, bearing its desginer, Pininfarina’s badges in later years when it remained popular in the American market. Early cars had 1400 and 1600cc engines, and these were gradually enlarged first 1800cc and then 2 litre, with fuel injection being added for more power and emissions compliance during the 1970s. Fiat spotted the potential of the car for more than just boulevard cruising, though, so in November 1972 they announced the Fiat Abarth 124 Rally, an overtly sporting version. Its main purpose was to receive FIA homologation in the special grand touring cars (Group 4) racing class, and replace the 1.6-litre Fiat Sport Spider rally car which had been campaigned. At the time, the 124 had already won the 1972 European Rally Championship at the hands of Raffaele Pinto and Gino Macaluso. The 124 Rally was added to the Sport Spider range, which included the 1600 and 1800 models; the first 500 examples produced were earmarked for the domestic Italian market. Amongst the most notable modifications over the standard spider there were independent rear suspension, engine upgrades, lightweight body panels, and a fixed hard top. In place of the usual rear solid axle, there was a Chapman-type McPherson strut independent suspension, supplemented by a longitudinal torque arm. At the front a radius rod on each side was added to the standard double wishbones. The Abarth-tuned type 132 AC 4.000 1.8-litre, twin-cam engine was brought from the standard 118 to 128 PS DIN by replacing the standard twin-choke carburettor with double vertical twin-choke Weber 44 IDF ones, and by fitting an Abarth exhaust with a dual exit exhaust The 9.8:1 compression ratio was left unchanged. The transmission was the all-synchronised 5-speed optional on the other Sport Spider models, and brakes were discs on all four corners. Despite the 20 kg (44 lb) 4-point roll bar fitted, kerb weight was 938 kg (2,068 lb), roughly 25 kg (55 lb) less than the regular 1.8-litre Sport Spider. The bonnet, boot lid and the fixed hard top were fibreglass, painted matt black, the rear window was perspex and the doors aluminium. Front and rear bumpers were deleted and replaced by simple rubber bumperettes. A single matte black wing mirror was fitted. Matte black wheel arch extensions housed 185/70 VR 13 Pirelli CN 36 tyres on 5.5 J × 13″ 4-spoke alloy wheels. Inside, the centre console, rear occasional seats, and glovebox lid were eliminated; while new features were anodised aluminium dashboard trim, a small three-spoke leather-covered Abarth steering wheel, and Recaro corduroy-and-leather bucket seats as an extra-cost option. The car carried Fiat badging front and rear, Abarth badges and “Fiat Abarth” scripts on the front wings, and Abarth wheel centre caps. Only three paint colours were available: Corsa red, white, and light blue. Seen here was an early AS series car.
FORD
Ford replaced their large cars in 1956, with new models using the same names as their predecessors, Consul, Zephyr and Zodiac. The styling was all new and with a decidedly American theme to it. As before, the Consul had a 4 cylinder engine, now of 1700cc capacity and the Zephyr and Zodiac had in-line 6 cylinder units These were enlarged to 2,553 cc with power output correspondingly raised to 86 bhp The wheelbase was increased by 3 inches to 107 inches and the width increased to 69 inches. The weight distribution and turning circle were also improved. Top speed increased to 88 mph and the fuel consumption was also improved at 28 mpg. Following a styling revision in 1959, the models are now referred to as “Highline” or “Lowline”, depending on the year of manufacture — the difference being 1.75 in being cut from the height of the roof panel. The “Highline” variant, the earlier car, featured a hemispherical instrument cluster, whereas the “Lowline” had a more rectangular panel. A two-door convertible version was offered with power-operated hood. Because of the structural weaknesses inherent in the construction of convertibles, few convertibles are known to survive, and these are particularly highly prized these days.
The Mark I Ford Escort was introduced in the UK at the end of 1967, making its show debut at Brussels Motor Show in January 1968, replacing the successful, long-running Anglia. The car was presented in continental Europe as a product of Ford’s European operation. Escort production commenced at the Halewood plant in England during the closing months of 1967, and for left hand drive markets during September 1968 at the Ford plant in Genk. Initially the continental Escorts differed slightly from the UK built ones under the skin. The front suspension and steering gear were differently configured and the brakes were fitted with dual hydraulic circuits; also the wheels fitted on the Genk-built Escorts had wider rims. At the beginning of 1970, continental European production transferred to a new plant on the edge of Saarlouis, West Germany. The Escort was a commercial success in several parts of western Europe, but nowhere more than in the UK, where the national best seller of the 1960s, BMC’s Austin/Morris 1100 was beginning to show its age while Ford’s own Cortina had grown, both in dimensions and in price, beyond the market niche at which it had originally been pitched. In June 1974, six years into the car’s UK introduction, Ford announced the completion of the two millionth Ford Escort, a milestone hitherto unmatched by any Ford model outside the US. It was also stated that 60% of the two million Escorts had been built in Britain. In West Germany cars were built at a slower rate of around 150,000 cars per year, slumping to 78,604 in 1974 which was the last year for the Escort Mark I. Many of the German built Escorts were exported, notably to Benelux and Italy; from the West German domestic market perspective the car was cramped and uncomfortable when compared with the well-established and comparably priced Opel Kadett, and it was technically primitive when set against the successful imported Fiat 128 and Renault 12. Subsequent generations of the Escort made up some of the ground foregone by the original model, but in Europe’s largest auto-market the Escort sales volumes always came in well behind those of the General Motors Kadett and its Astra successor. The Escort had conventional rear-wheel drive and a four-speed manual gearbox, or three-speed automatic transmission. The suspension consisted of MacPherson strut front suspension and a simple live axle mounted on leaf springs. The Escort was the first small Ford to use rack-and-pinion steering. The Mark I featured contemporary styling cues in tune with its time: a subtle Detroit-inspired “Coke bottle” waistline and the “dogbone” shaped front grille – arguably the car’s main stylistic feature. Similar Coke bottle styling featured in the larger Cortina Mark III (also built in West Germany as the Taunus) launched in 1970. Initially, the Escort was sold as a two-door saloon (with circular front headlights and rubber flooring on the “De Luxe” model). The “Super” model featured rectangular headlights, carpets, a cigar lighter and a water temperature gauge. A two-door estate was introduced at the end of March 1968 which, with the back seat folded down, provided a 40% increase in maximum load space over the old Anglia 105E estate, according to the manufacturer. The estate featured the same engine options as the saloon, but it also included a larger, 7 1⁄2-inch-diameter clutch, stiffer rear springs and in most configurations slightly larger brake drums or discs than the saloon. A panel van appeared in April 1968 and the 4-door saloon (a bodystyle the Anglia was never available in for UK market) in 1969. Underneath the bonnet was the Kent Crossflow engine in 1.1 and 1.3 litre versions. A 940 cc engine was also available in some export markets such as Italy and France. This tiny engine remained popular in Italy, where it was carried over for the Escort Mark II, but in France it was discontinued during 1972. There was a 1300GT performance version, with a tuned 1.3 L Crossflow (OHV) engine with a Weber carburettor and uprated suspension. This version featured additional instrumentation with a tachometer, battery charge indicator, and oil pressure gauge. The same tuned 1.3 L engine was also used in a variation sold as the Escort Sport, that used the flared front wings from the AVO range of cars, but featured trim from the more basic models. Later, an “executive” version of the Escort was produced known as the “1300E”. This featured the same 13″ road wheels and flared wings of the Sport, but was trimmed in an upmarket, for that time, fashion with wood trim on the dashboard and door cappings. A higher performance version for rallies and racing was available, the Escort Twin Cam, built for Group 2 international rallying. It had an engine with a Lotus-made eight-valve twin camshaft head fitted to the 1.5 L non-crossflow block, which had a bigger bore than usual to give a capacity of 1,557 cc. This engine had originally been developed for the Lotus Elan. Production of the Twin Cam, which was originally produced at Halewood, was phased out as the Cosworth-engined RS1600 (RS denoting Rallye Sport) production began. The most famous edition of the Twin Cam was raced on behalf of Ford by Alan Mann Racing in the British Saloon Car Championship in 1968 and 1969, sporting a full Formula 2 Ford FVC 16-valve engine producing over 200 hp. The Escort, driven by Australian driver Frank Gardner went on to comfortably win the 1968 championship. The Mark I Escorts became successful as a rally car, and they eventually went on to become one of the most successful rally cars of all time. The Ford works team was practically unbeatable in the late 1960s / early 1970s, and arguably the Escort’s greatest victory was in the 1970 London to Mexico World Cup Rally, co-driven by Finnish legend Hannu Mikkola and Swedish co-driver Gunnar Palm. This gave rise to the Escort Mexico (1598cc “crossflow”-engined) special edition road versions in honour of the rally car. Introduced in November 1970, 10,352 Mexico Mark I’s were built. In addition to the Mexico, the RS1600 was developed with 1,601 cc Cosworth BDA which used a Crossflow block with a 16-valve Cosworth cylinder head, named for “Belt Drive A Series”. Both the Mexico and RS1600 were built at Ford’s Advanced Vehicle Operations (AVO) facility located at the Aveley Plant in South Essex. As well as higher performance engines and sports suspension, these models featured strengthened bodyshells utilising seam welding in places of spot welding, making them more suitable for competition. After updating the factory team cars with a larger 1701 cc Cosworth BDB engine in 1972 and then with fuel injected BDC, Ford also produced an RS2000 model as an alternative to the somewhat temperamental RS1600, featuring a 2.0 litre Pinto (OHC) engine. This also clocked up some rally and racing victories; and pre-empted the hot hatch market as a desirable but affordable performance road car. Like the Mexico and RS1600, this car was produced at the Aveley plant.
In the late 1960s, Ford set about developing the third-generation Cortina, the Mark III, which would be produced in higher volumes than before, following the recent merger of Ford of Britain and Ford of Germany into the modern-day Ford of Europe. The car marked the convergence of the German Taunus and British Cortina platforms with only minor differences between the two, hence the car’s internal name TC1, standing for Taunus-Cortina. It was also the last European car engineered by Harley Copp as Vice President Engineering and head of Brentwood, before he returned to Detroit. Ford UK originally wanted to call it something other than Cortina, but the name stuck. Although the Mark III looked significantly larger than the boxier Mark II Cortina, it was actually the same overall length, but 4 inches wider. Within the overall length, a wheelbase lengthened by more than 3 inches (76 mm) also contributed to the slightly more spacious interior. The Mark III Cortina was inspired by the contemporary “coke bottle” design language which had emanated from Detroit – the car sported similar fluted bonnet and beltline design elements to the North American Mercury Montego and Ford LTD of the same era. It replaced both the Mark II Cortina and the larger, more expensive Ford Corsair, offering more trim levels and the option of larger engines than the Mark II Cortina. The Mark III’s continental European sister car – the Taunus TC – was subtly different in appearance, with longer front indicators, different door skins and rear wing pressings that toned down the drooping beltline in order to lose the “coke-bottle” appearance of the Cortina. The MacPherson strut front suspension was replaced with more conventional double A-arm suspension which gave the Mark III a much softer ride on the road’ but did give the larger engines distinct understeer. Trim levels for the Mark III Cortina were Base, L, XL , GT and GXL. The early Mark III Cortinas came with the same 1,300 and 1,600 cc engines as the Mark II Cortinas, except for the 1,600 cc GXL. These engines are known as the Kent, crossflow engine or OHV engine. There was also the introduction of the 2000 cc engine, the single overhead cam engine, now known as the pinto engine. SOHC. The OHV Kent unit was fitted with a single choke carburettor and was used for the early models up to GT trim, the SOHC twin choke carburettor Pinto unit was used for the GT and GXL models. The GXL was also offered in 1,600 in the later Cortina Mark IIIs. In left-hand drive markets, the 1,600 cc OHC was replaced by a twin-carb OHV (Kent) unit not offered in the home market, in order to distinguish it from the competing Taunus which only came with the OHC Pinto engine. 2.0 litre variants used a larger version of the 1,600 cc Pinto unit and were available in all trim levels except base. Base, L and XL versions were available as a five-door estate. Although no longer than its predecessor, the Mark III was a heavier car, reflecting a trend towards improving secondary safety by making car bodies more substantial. Weight was also increased by the stout cross-member incorporated into the new simplified front suspension set-up, and by the inclusion of far more sound deadening material which insulated the cabin from engine and exhaust noise, making the car usefully quieter than its predecessor, though on many cars the benefit was diminished by high levels of wind noise apparently resulting from poor door fit around the windows. Four-speed manual transmissions were by now almost universally offered in the UK for this class of car, and contemporary road tests commented on the rather large gap between second and third gear, and the resulting temptation to slip the clutch when accelerating through the gears in the smaller-engined cars: it was presumably in tacit acknowledgment of the car’s marginal power-to-weight ratio that Ford no longer offered the automatic transmission option with the smallest 1,298 cc-engined Cortina. Four headlights and Rostyle wheels marked out the GT and GXL versions, while the GXL also had bodyside rub strips, a vinyl roof and a brushed aluminium and black boot lid panel on the GXLs, while the GTs had a black painted section of the boot with a chrome trim at either site sloping dashboard with deeply recessed dials and all coil suspension all round. In general styling and technical make up, many observed that the Mark III Cortina aped the Vauxhall Victor FD of 1967. The Cortina went on sale on 23 October 1970, but sales got off to a particularly slow start because of production difficulties that culminated with a ten-week strike at Ford’s plant between April and June 1971, which was at the time reported to have cost production of 100,000 vehicles, equivalent to almost a quarter of the output for a full year. During 1971 the spring rates and damper settings were altered along with the front suspension bushes which reduced the bounciness of the ride and low speed ride harshness which had generated press criticism at the time of the Cortina Mark III’s launch. Volumes recovered, and with the ageing Austin/Morris 1100/1300 now losing out to various newer models, the Cortina was Britain’s top selling car in 1972, closely followed by the Escort. It remained the UK’s top selling car until 1976 when it overtaken by the Mk2 Escort. In late 1973 the Cortina Mark III was given a facelift. The main difference was the dashboard and clocks, no longer did it slope away from the driver’s line of sight. But shared the same dash and clocks as the later Mark IV and Mark V Cortinas, upgraded trim levels and revised grilles, rectangular headlights for the XL, GT and the new 2000E (the “E” standing for executive), which replaced the GXL. The 1.3 litre Kent engine was carried over but now, 1.6 litre models all used the more modern 1.6 litre SOHC engine. Whilst the TD Cortina still had double A-arm suspension with coils at the front and a four-link system at the rear, handling was improved. The 2000E reverted to the classy treatment offered by the 1600E and later Mark IV/V Ghia models instead of the faux wood-grain trim offered by the GXL. The 2000E was also available as an estate version. The cars were replaced by the Mark IV in the autumn of 1976.
It was nice to see a Mark 2 Capri here, as these seem to be the rarest of the three generations of the “Car you always promised yourself”. It was introduced on 25 February 1974. After 1.2 million of the original model had been sold, and with the 1973 oil crisis, Ford chose to make the new car more suited to everyday driving with a shorter bonnet, larger cabin and the adoption of a hatchback rear door (accessing a 630-litre boot). By the standards of the day, the Capri II was a very well evolved vehicle with very few reliability issues. Although the car appeared the same in all European markets, there were still different engines between the UK models (1.3, 1.6, 1.6GT, 2.0 and 3.0) and Germany where the Capri had the same 4 cylinder engines at the bottom of the range, a 1.3-litre (55 PS), 1.6-litre (72 PS ), 1.6-litre GT (88 PS), and 2.0-litre (99 PS) but the upper reaches included a 2.3-litre V6 (108 PS) as well as the UK sourced 3.0-litre V6 with 140 PS. All were available with either a four-speed Ford Type 5 manual transmission or one of Ford’s new C3 three-speed automatic transmissions available on all models except the 1.3, the C3 automatic transmission proved to be a very popular option among Ghia buyers, therefore it became standard on all Ghia models after the 1976 model year and the four-speed manual transmission became optional. As before, there were plenty of trim levels and options, so you could personalise your Capri. Ford introduced the John Player Special limited edition, (known as the JPS) in March 1975. Available only in black or white, the JPS featured yards of gold pinstriping to mimic the Formula 1 livery, gold-coloured wheels, and a bespoke upgraded interior of beige cloth and carpet trimmed with black. In May 1976, and with sales decreasing, the intermediate 3.0 GT models disappeared to give way for the upscale 3.0 S and Ghia designations. In October 1976, production was limited to the Saarlouis factory only. In 1977 Ford RS dealerships started offering various different performance and handling upgrades for the Capri, Escort, Cortina, and Fiesta. Cars with these upgrades equipped are referred to as ” X Pack ” models.
The squarer-styled Mark II Escort appeared in January 1975. The first production models had rolled off the production lines on 2 December 1974. Unlike the first Escort (which was developed by Ford of Britain), the second generation was developed jointly between the UK and Ford of Germany. Codenamed “Brenda” during its development, it used the same mechanical components as the Mark I. The 940 cc engine was still offered in Italy where the smaller engine attracted tax advantages, but in the other larger European markets in Europe it was unavailable. The estate and van versions used the same panelwork as the Mark I, but with the Mark II front end and interior. The car used a revised underbody, which had been introduced as a running change during the last six months production of the Mark I. Rear suspension still sat on leaf springs though some contemporaries such as the Hillman Avenger had moved on to coil springs. The car came in for criticism for its lack of oddments space, with a glove compartment only available on higher end models, and its stalk-mounted horn. The “L” and “GL” models (2-door, 4-door, estate) were in the mainstream private sector, the “Sport”, “RS Mexico”, and “RS2000” in the performance market, the “Ghia” (2-door, 4-door) for a hitherto untapped small car luxury market, and “base / Popular” models for the bottom end. Panel-van versions catered to the commercial sector. The 1598 cc engine in the 1975 1.6 Ghia produced 84 hp with 92 lb/ft torque and weighed 955 kg (2105 lb). A cosmetic update was given in 1978 with L models gaining the square headlights (previously exclusive to the GL and Ghia variants) and there was an upgrade in interior and exterior specification for some models. Underneath a wider front track was given. In 1979 and 1980 three special edition Escorts were launched: the Linnet, Harrier and Goldcrest. Production ended in Britain in August 1980, other countries following soon after. Spotted here was a 1600 Mexico and an RS2000.
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.
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, with the 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.
The Ford Sierra is a mid-size car or large family car that was built by Ford Europe from 1982 to 1993. It was designed by Uwe Bahnsen, Robert Lutz and Patrick le Quément. The code used during development was “Project Toni”. Its name came from the Spanish word for mountain range. The Ford Sierra was first unveiled on 22 September 1982 at the British International Motor Show hosted at the NEC in Birmingham, shortly followed by the Salon de l’Automobile in Paris on 30 September 1982. Sales started on 15 October 1982, replacing the Ford Taunus TC3 (UK: Ford Cortina Mark V). Its aerodynamic styling was ahead of its time and as such, many conservative buyers (including company car drivers) did not take fondly to the Taunus’s/Cortina’s replacement. This was also due to the fact that the Sierra was not available as a saloon, in contrast to the Taunus/Cortina. A saloon model debuted in 1987 with the introduction of the facelifted Sierra. It was mainly manufactured in Germany, Belgium, and the United Kingdom, although Sierras were also assembled in Ireland, Argentina, Venezuela, South Africa and New Zealand. By 1978, Ford Europe was working on a new mid-range model to replace the Cortina/Taunus during the early 1980s, working under the codename “Project Toni”. Although still popular with buyers, the outgoing Cortina/Taunus was essentially a 12-year old design by the time of the Sierra’s launch; despite the TC2 shape launching in 1976, and the mildly reworked TC3/Mk5 three years later, both were merely a reskinned version of the 1970 TC/Mk3 with few major mechanical changes in that time. Ford’s future model policy and styling direction had already been shown with the Escort III two years earlier, in that its conventionally styled saloons of the 1970s would be replaced by hatchbacks with advanced aerodynamic styling. Ford had confirmed during 1981, a year before the Sierra’s official launch, that its new mid-range car would carry the Sierra name, signalling the end of the Taunus and Cortina nameplates after 43 years and nine generations respectively 20 years and five generations. In September that year, it had unveiled the Probe III concept car at the Frankfurt Motor Show, hinting at what the new car would look like when the final product was unveiled 12 months later. At first, many found the design blob-like and difficult to accept after being used to the sharp-edged, straight-line three-box styling of the Taunus/Cortina, and it was nicknamed “the jellymould”. The shape served a purpose though, producing a drag coefficient of 0.34, a significant improvement over the boxy outgoing Taunus’s/Cortina’s 0.45. This aerodynamic design was key for reducing fuel consumption according to Ford, and was even used as compensation for the V6-engines. The interior was more conventional, although Ford took a page from BMW by angling the centre of the dashboard towards the driver. Sales were slow in the first months – the situation being exacerbated by heavy discounting by Ford dealers of surplus Cortina stock from the autumn of 1982 onwards, with more than 11,000 new Cortinas being registered in 1983. However in 1983, its first full year of sales, the Sierra managed nearly 160,000 sales in Britain, outsold only by the smaller Escort. Ford had also launched the more conservatively designed Escort-based Orion saloon that year, which found favour with buyers who would otherwise have been the Sierra’s target customers. In West Germany, it was proving very popular from an early stage; within months of its launch, it was reportedly achieving treble the number of sales that the Taunus had been attaining – though in West Germany, the Taunus had not been quite as popular or iconic as its Cortina equivalent had been in Britain. It was later in the Sierra’s life that the styling began to pay off; ten years after its introduction, the Sierra’s styling was not nearly as outdated as its contemporaries, even though all major competitors were newer designs, though the Sierra had been tweaked on several occasions and many new engines had been added. The most notable changes came at the autumn of 1987, with a major facelift and the addition of a 4-door saloon (UK: Sapphire). As other manufacturers adopted similar aerodynamic styling, the Sierra looked more normal. At its peak, it was Britain’s second best selling car in 1983, 1988 and 1989, and was still Britain’s fifth best selling car in 1992. Its best year was 1989, when more than 175,000 were sold. However, it was outsold by the Vauxhall Cavalier in MK2 form during 1984 and 1985, and then from 1990 until its demise by the MK3 Cavalier. Nevertheless, it comfortably outsold its second key rival, the Austin Montego, which was launched in April 1984. Between 1985 and 1988, the Sierra faced fresh competition in Europe from the likes of the Renault 21 and Peugeot 405, while Japanese carmaker Nissan was producing its Bluebird model in Britain from 1986. Early versions suffered from crosswind stability problems, which were addressed in 1985 with the addition of “strakes” (small spoilers) on the rear edge of the rubber seals of the rear-most side windows. These shortcomings saw a lot of press attention, and contributed to early slow sales, when it was outsold by its key rival the Vauxhall Cavalier in 1984 and 1985. Other rumours that the car hid major crash damage (in part true, as the new bumper design sprung back after minor impact and couldn’t be “read” to interpret major damage) also harmed the car’s reputation. This reached near-hysterical heights in its early months on sale, with UK press making a report that Ford would reintroduce the previous Cortina model out of desperation. These reports were swiftly denied by Ford. However, sales began to rise during 1983, and it finished as Britain’s second best selling car behind the Escort. After being outsold by the Cavalier for the next two years, it regained its lead of the market sector in Britain during 1986, and a refreshed range (with more engine options as well as the introduction of a saloon) enjoyed a surge in sales from 1987, though the MK3 Cavalier finally outsold it in 1990. Even in 1992, the Sierra was still Britain’s fifth best selling car. It was nicknamed “the salesman’s spaceship” on account of its status as a popular fleet car in Britain. In contrast to the Sierra’s groundbreaking exterior design, its drivetrain was conservatively engineered, retaining rear-wheel drive and the same engines and transmissions as the Cortina/Taunus which were effectively 12 years old as they were first used on the TC1/MkIII generation in 1970. Much of this was done to appease the important fleet market which was wary of complexity. However, there was much modification; for example the engines were fitted with breakerless ignition, improved carburettors and the option of fuel injection, whilst 5-speed transmissions were now available. Most competitors were already switched to front-wheel drive around that time. Ford claimed however this set-up was required to offer V6-engines, which had to contribute to the Sierra’s driving comfort. New for the Sierra was a diesel engine, although the engine itself wasn’t new at all. Similar to the Ford Granada, Ford used an “Indenor”-engine which was designed by Peugeot in the 1950s. While the Granada was offered with 1.9, 2.1 and 2.5 diesels, the Sierra unit had a displacement of 2.3 litre. This engine was replaced only in 1989 by an all-new 1.8 litre turbodiesel, developed by Ford itself. The Sierra had a four-speed manual gearbox as standard, with a five-speed as option but standard on the 2.3D and 2.3 V6. At a time when the rival Vauxhall Cavalier was offered with a five-speed, this led to some critics commenting that the Sierra was somewhat underpowered. In the mid-1980s, many smaller cars (some even two segments smaller) featured five-speed gearboxes as standard. The chassis, however, was more sophisticated than the Cortina/Taunus, with fully independent suspension on both axles. The rear suspension was essentially carried over from the Granada, with trailing arms and coil springs mounted on a tubular sub-frame which also provided location for the final drive/differential housing driving the axle shafts. The front suspension dispensed with the Cortina/Taunus’ double wishbones in favour of a scaled-up version of the Fiesta and Escort/Orion’s layout with MacPherson struts, lower locating arms and anti-roll bars. One of the most striking design features of the Sierra was its closed front panel instead of a grille, which was later also to be found on the 1985 Ford Taurus. The air intake was situated below the front bumper, making the Sierra a so-called ‘bottom breather’. The headlights were integrated in this front panel while the indicators were mounted in the bumper within a combined unit with the foglights. However, this set-up was only present on the top-of-the-line “Ghia”-trim as well on the later introduced XR4i sport model. The other Sierra models had a more traditional front end with a two-bar grille between the headlights, being unpainted on the base model. These models had the indicators in the bumper as well, although being slimmer but wider and without the foglights. Both the Ghia and XR4i had wide headlights with two lenses while the other models had smaller lights with a single lens. For the 1985 model year, all the lower-spec models, except the base model, adopted the Ghia and XR4i’s front grille and headlight treatment. However, the second lens of the lower-spec models had no actual light within it. On the Ghia and XR4i this lens contained additional high beam lamps. The South-African XR8 model’s front end was similar to the XR4i’s but featured a small grille between the headlights. The rear lights of the Ghia, as well as the very early XR4i’s, were the same shape and layout as other models, but featured tiny horizontal black strakes on the lenses to give the impression that they were smoked. The car was replaced by the Mondeo in Europe in April 1993, though stocks lasted for about two years afterwards. The Sierra remained a popular second-hand buy and common sight on British roads until well beyond the year 2000.
The Sierra RS Cosworth model. a very sporting version of Ford’s upper-medium sized family car, was built by Ford Europe from 1986 to 1992, the result of a Ford Motorsport project with the purpose of producing an outright winner for Group A racing in Europe. The project was defined in the spring of 1983 by Stuart Turner, then recently appointed head of Ford Motorsport in Europe, who had realised right away that Ford was no longer competitive in this area. Turner got in touch with Walter Hayes, at the time the vice-president of public relations at Ford, to get support for the project. Hayes had earlier been the driving force behind the development of the Ford GT40 that won Le Mans in 1966, and the Cosworth DFV engine that brought Ford 154 victories and 12 world championships in Formula One during the 1960s and 1970s. Hayes found the project very appealing and promised his full support. Turner then invited Ken Kohrs, vice-president of development, to visit Ford’s longtime partner, the automotive company Cosworth, where they were presented a project developed on Cosworth’s own initiative, the YAA engine. This was a twin cam, 16-valve engine based on Ford’s own T88 engine block, better known as the Pinto. This prototype proved an almost ideal basis for the engine Turner needed to power his Group A winner. Therefore, an official request for a turbocharged version (designated Cosworth YBB) capable of 180 HP on the street and 300 HP in race trim, was placed. Cosworth answered positively, but they put up two conditions: the engine would produce not less than 204 HP in the street version, and Ford had to accept no fewer than 15,000 engines. Turner’s project would only need about 5,000 engines, but Ford nevertheless accepted the conditions. The extra 10,000 engines would later become one of the reasons Ford also chose to develop a four door, second generation Sierra RS Cosworth. To find a suitable gearbox proved more challenging. The Borg-Warner T5, also used in the Ford Mustang, was chosen, but the higher revving nature of the Sierra caused some problems. Eventually Borg-Warner had to set up a dedicated production line for the gearboxes to be used in the Sierra RS Cosworth. Many of the suspension differences between the standard Sierra and the Cosworth attributed their development to what was learned from racing the turbocharged Jack Roush IMSA Merkur XR4Ti in America and Andy Rouse’s successful campaign of the 1985 British Saloon Car Championship. Much of Ford’s external documentation for customer race preparation indicated “developed for the XR4Ti” when describing parts that were Sierra Cosworth specific. Roush’s suspension and aerodynamics engineering for the IMSA cars was excellent feedback for Ford. Some production parts from the XR4Ti made their way into the Cosworth such as the speedometer with integral boost gauge and the motorsport 909 chassis stiffening plates. In April 1983, Turner’s team decided on the recently launched Sierra as a basis for their project. The Sierra filled the requirements for rear wheel drive and decent aerodynamic drag. A racing version could also help to improve the unfortunate, and somewhat undeserved, reputation that Sierra had earned since the introduction in 1982. Lothar Pinske, responsible for the car’s bodywork, demanded carte blanche when it came to appearance in order to make the car stable at high speed. Experience had shown that the Sierra hatchback body generated significant aerodynamic lift even at relatively moderate speed. After extensive wind tunnel testing and test runs at the Nardò circuit in Italy, a prototype was presented to the project management. This was based on an XR4i body with provisional body modifications in fibreglass and aluminium. The car’s appearance raised little enthusiasm. The large rear wing caused particular reluctance. Pinske insisted however that the modifications were necessary to make the project successful. The rear wing was essential to retain ground contact at 300 km/h, the opening between the headlights was needed to feed air to the intercooler and the wheel arch extensions had to be there to house wheels 10” wide on the racing version. Eventually, the Ford designers agreed to try to make a production version based on the prototype. In 1984, Walter Hayes paid visits to many European Ford dealers in order to survey the sales potential for the Sierra RS Cosworth. A requirement for participation in Group A was that 5,000 cars were built and sold. The feedback was not encouraging. The dealers estimated they could sell approximately 1,500 cars. Hayes did not give up, however, and continued his passionate internal marketing of the project. As prototypes started to emerge, dealers were invited to test drive sessions, and this increased the enthusiasm for the new car. In addition, Ford took some radical measures to reduce the price on the car. As an example, the car was only offered in three exterior colours (black, white and moonstone blue) and one interior colour (grey). There were also just two equipment options: with or without central locking and electric window lifts. The Sierra RS Cosworth was first presented to the public at the Geneva Motor Show in March 1985, with plans to release it for sale in September and closing production of the 5,000 cars in the summer of 1986. In practice, it was launched in July 1986. 5545 were manufactured in total of which 500 were sent to Tickford for conversion to the Sierra three-door RS500 Cosworth. The vehicles were manufactured in right hand drive only, and were made in Ford’s Genk factory in Belgium. Exactly 500 RS500s were produced, all of them RHD for sale in the UK only – the biggest market for this kind of Ford car. It was originally intended that all 500 would be black, but in practice 56 white and 52 moonstone blue cars were produced.To broaden the sales appeal, the second generation model was based on the 4 door Sierra Sapphire body. It was launched in 1988, and was assembled in Genk, Belgium, with the UK-built Ford-Cosworth YBB engine. Cylinder heads on this car were early spec 2wd heads and also the “later” 2wd head which had some improvements which made their way to the 4X4 head. Suspension was essentially the same with some minor changes in geometry to suit a less aggressive driving style and favour ride over handling. Spindles, wheel offset and other changes were responsible for this effect. Approximately 13,140 examples were produced during 1988-1989 and were the most numerous and lightest of all Sierra Cosworth models. Specifically the LHD models which saved weight with a lesser trim level such as manual rear windows and no air conditioning. In the UK, the RHD 1988-1989 Sierra Sapphire RS Cosworth is badged as such with a small “Sapphire” badge on the rear door window trims. All 1988-1989 LHD models are badged and registered as a Sierra RS Cosworth with no Sapphire nomenclature at all. “Sapphire” being viewed as a Ghia trim level that saw power rear windows, air conditioning and other minor options. Enthusiasts of the marque are mindful of this and will describe the LHD cars by their body shell configuration, 3 door or 4 door. As the Sapphire Cosworth was based on a different shell to the original three-door Cosworth, along with its more discreet rear wing, recorded a drag co-efficient of 0.33, it registered slightly better performance figures, with a top speed of 150 mph and 0-60 of 6.1 seconds, compared to the original Cosworth. In January 1990, the third generation Sierra RS Cosworth was launched, this time with four wheel drive. As early as 1987, Mike Moreton and Ford Motorsport had been talking about a four wheel drive Sierra RS Cosworth that could make Ford competitive in the World Rally Championship. The Ferguson MT75 gearbox that was considered an essential part of the project wasn’t available until late 1989 however. Ford Motorsport’s desire for a 3-door “Motorsport Special” equivalent to the original Sierra RS Cosworth was not embraced. The more discreet 4-door version was considered to have a better market potential. It was therefore decided that the new car should be a natural development of the second generation, to be launched in conjunction with the face lift scheduled for the entire Sierra line in 1990. The waiting time gave Ford Motorsport a good opportunity to conduct extensive testing and demand improvements. One example was the return of the bonnet louvres. According to Ford’s own publicity material, 80% of the engine parts were also modified. The improved engine was designated YBJ for cars without a catalyst and YBG for cars with a catalyst. The latter had the red valve cover replaced by a green one, to emphasise the environmental friendliness. Four wheel drive and an increasing amount of equipment had raised the weight by 100 kg, and the power was therefore increased to just about compensate for this. The Sierra RS Cosworth 4×4 received, if possible, an even more flattering response than its predecessors and production continued until the end of 1992, when the Sierra was replaced by the Mondeo. The replacement for the Sierra RS Cosworth was not a Mondeo however, but the Escort RS Cosworth. This was to some extent a Sierra RS Cosworth clad in an “Escort-like” body. The car went on sale in May 1992, more than a year after the first pre-production examples were shown to the public, and was homologated for Group A rally in December, just as the Sierra RS Cosworth was retired. It continued in production until 1996. The Sierra and Sapphire Cosworths were undoubted performance bargains when new, but they also gained a reputation both for suffering a lot of accidents in the hands of the unskilled and also for being among the most frequently stole cars of their generation. These days, though, there are some lovely and treasured examples around and indeed you are far more likely to see a Cosworth version of the Sierra than one of the volume selling models.
The Ford Escort was revised in January 1995, although it was still based on the previous model. This version had new front lights, bonnet, front wings, front and rear bumpers, wing mirrors, door handles and 4 different front radiator grilles (slats, honeycomb, circles and chrome). At the rear, the Ford logo moved from the right to the centre of the boot, except for the van and some convertible models, while the Escort badge had also changed. The interior of the car was hugely revised too following heavy criticism of the original 1990 car which featured low quality plastics for its interior mouldings – the car now featured an all new dashboard arrangement of competitive quality. However, the underlying car was now five years old and most of its rivals were either new or to be imminently replaced. The two entry level engines were revised – the 1.3 L received the latest (and final) version of Valencia pushrod engine – the Endura-E from the recently launched Mk IV Fiesta and Ka, whilst the 1.4L CVH was replaced by the updated CVH-PTE unit. There were no changes to either the venerable 1.8 diesel or the 1.6/1.8 Zetec units at the top end of the range. The improved iB5 version of the venerable BC-series transmission was also later introduced as a running change. Dynamically, the handling and ride were also much improved with revised suspension set up from that on the previous Mark V models. The sporty “Si” model had slightly stiffer suspension than the Encore, LX and Ghia variants, although the Si was otherwise the same as the LX with some additional standard, mainly cosmetic, enhancements such as front and rear spoilers (which were also available as options on the LX), sports seats and white-faced dashboard instruments. Some special trim levels of the Escort include: Calypso Cabriolet, Freedom, Serenade, Cabaret and Mexico. The RS2000 models ceased production in June 1996, and were the last Escorts ever to wear the famous RS badge. The RS badge did not resurface until the Focus RS arrived in 2002. A new Ghia X model was introduced around 1996, which included air conditioning and a 6 CD autochanger as standard. Although the equipment of the Ghia below it was reduced, it was now more affordable. The last “standard” model to be introduced in 1997 was the GTi – the only GTi-badged Ford to ever be sold in Europe. This used the same existing 115 PS 1.8 L Zetec-E engine found in other cars in the range, but included a body kit borrowed from the now cancelled RS2000 model, part-leather seats plus the standard fitment of ABS. The GTi was available in 3- and 5-door hatchback and estate bodystyles. In Chile, to avoid confusion with the US-market Escort which was being sold alongside it, this generation was sold as the “EuroEscort” for several years. In 1998, Ford announced an all-new car, the Focus, which replaced the Escort and superseded the “Escort” name that had been in use for 30 years. The Escort range was cut down to just “Flight” and “Finesse” editions, and sold for a further two years in parallel with the Focus. In the United Kingdom, all engines except the 1.6 L petrol and 1.8 L turbo diesel were dropped, as were the three-door hatchback, four-door saloon and cabriolet bodystyles. The range was also condensed in mainland Europe, New Zealand, South Africa, and South America. The Flight cost £10,380 and offered electric front windows, a three-speed fan and a cassette player. For an additional £1,000 the Finesse added alloy wheels, air conditioning, a CD player, fog lamps and metallic paint. The more competitive prices managed to keep European Escort sales going until the last one rolled off the Halewood assembly line in July 2000, although remaining stocks were sold into 2001, making it the last Ford car to be assembled there.
Ford did not make the same mistake with the Focus as they had with its predecessor, so even the ordinary models were good to drive. There was a long wait for a truly sporting flagship, but when it arrived, in late 2002, the Focus RS proved to be rather special. Originally it was to be released as the Racing Focus, however after the poor selling Racing Puma, Ford decided to revive the RS badge. The car was largely built on its own assembly line in Ford’s Saarlouis plant, with some additional specialist off-line assembly performed by the ACÜ group at Überhern. The RS was offered all over Europe, with production limited to 4501 units. 2147 of these were sold in the United Kingdom, by far its largest of the 21 markets where it was available. The development of the Focus RS was undertaken by a mixed team of mainstream Ford engineers (not SVE or the TeamRS group which replaced it later on) and Tickford Engineering in Milton Keynes, United Kingdom. More bespoke than the prior Focus ST170, the Focus RS upgraded or replaced 70% of the standard Focus mechanicals. The turbocharged straight-4 engine produced a minimum of 212 bhp and 310 Nm (229 lb/ft) of torque, which was then mated to the 5-speed MTX-75 and not the Getrag transmission used in the ST 170. Mechanically, most notably, the car incorporated a Quaife automatic torque biasing differential to improve traction from the front-wheel drive setup. The steering used a similar quick-ratio rack as the ST170 while the brakes used fixed-caliper, four-piston Brembo units with 12.8 in discs at the front and single-piston floating calipers and 11.0 in discs at the back. Wheels were 18″ alloys specially developed by OZ Racing. The engine was heavily modified with forged aluminium pistons, hardened valve seats, sodium-filled exhaust valves, stainless steel exhaust system. The forced induction system comprised a Garrett turbocharger with a water-cooled charge air cooler and an electric water pump. To transmit the higher torque an upgraded AP clutch was used. It could generate a steady 0.98G in lateral acceleration due to racing parts such as Sachs dampers, lightweight O.Z Alloy Wheels and a Quaife ATB Differential. It would also allow 1.0G of braking force due to the standard Brembo braking system. The Focus RS was available in one metallic colour, Imperial Blue. The body looked similar to the standard Focus or to the ST170, although the RS featured unique front and rear bumper assemblies required for the wider wheel arches which accommodated the 65 mm (2.6 in) wider front track. Internally, the theme is blue and black with sections of blue leather trim on the door trim panels, the steering wheel and the Sparco seats which were trimmed in blue/black leather and Alcantara. A green starter button starts the engine. The instruments have a blue background and in place of the coolant temperature gauge, the RS was equipped with a boost pressure indicator (up to 1.5 bar). The gear lever knob, handbrake lever, and pedals were all custom made by Sparco. All-around performance was roughly equal or better to its other competitors, including hatchbacks such as the Honda Civic Type-R and some four-wheel drive cars in the same price field. Power was a diminished priority and the handling on a track, courtesy of the front differential, was considered by most observers to be its strongest characteristic. In a Top Gear review, Jeremy Clarkson noted that “it lacks the straightforward oomph of a Subaru Impreza. […] The reason it was quick round our track is simple: this car handles like it’s in a cartoon.” Clarkson and other motor journalists also commented on the car’s torque steer on bumpy British roads. Well preserved examples – and that’s not all of them, by any means, now – are worth decent money and will likely increase in value over time.
The regular second generation Focus cars were released in late 2004. An ST version followed very quickly, and for a long time, Ford maintained that was the only sporty Focus there was going to be. Finally, on December 17, 2007 Ford of Europe confirmed that a Mk 2 Focus RS would be launched in 2009, with a concept version due in mid-2008, with an upgraded Duratec ST engine with 305PS Duratec RS, gearbox, suspension, and LSD. In 2008, Ford revealed the new Focus RS in “concept” form at the British International Motor Show. Contrary to numerous rumours and speculation, the RS was announced by Ford to have a conventional FWD layout. The Duratec RS engine was upgraded to produce 301 bhp and 325 lb/ft of torque. 0 to 100 km/h (62 mph) acceleration was quoted to be under 6 seconds. The RS used a modified Volvo -engineered 2,522cc five-cylinder engine found in the Focus ST. A larger Borg Warner K16 turbo now delivers up to 20.3-psi of boost. A new air-to-air intercooler has been developed as a complement, while the forged crankshaft, silicon-aluminium pistons, graphite-coated cylinder bores, 8.5:1 compression ratio and variable valve timing also up the power output. The car remained front wheel drive, but to reduce torque steer used a Quaife Automatic Torque Biasing LSD, and a specially designed MacPherson strut suspension at the front called RevoKnuckle, which provided a lower scrub radius and kingpin offset than traditional designs while avoiding the increased weight and complexity of double wishbone and multi-link suspension setups. Ford UK claim: “It’s as close as you’ll come to driving a full-spec rally car (Ford Focus RS WRC). The production car was finally unveiled on 5 January 2009. It looked very distinctive, as at the rear a large venturi tunnel and a dramatic rear spoiler created a purposeful look. It was available in three expressive exterior colours: Ultimate Green, Performance Blue and Frozen White. The ‘Ultimate’ Green was a modern reinterpretation of the classic 1970s Ford Le Mans Green of the Ford Escort RS1600 era.
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.
There has not been an RS version of the fourth generation Focus, despite rumours persisting for a while about such a car, so the sporting top of the range these days is the ST and there was at least one of these here along with a number of other sporting Ford models.
This is an example of the still current (in the UK, a new model announced in the US has yet to reach these shores) Mustang.
This is the latest Mustang Mach 1. After a 17 year hiatus, the fifth instalment of the Mach 1 uses the GT’s 5.0 L Coyote V-8 producing 480 hp at 7,000 rpm and 420 lb/ft (569 Nm) at 4,600 rpm, which is same output of the Mustang Bullitt. The 2022 model produces 470 hp and 410 lb/ft at 4,600 rpm, which is a loss of 10 hp and 10 lb/ft of torque. Ford engineers were originally targeting 525 bhp and 450 lb/ft (610 Nm). It borrows several parts from the Shelby models: the intake manifold, oil-filter adapter, engine oil cooler, and front and rear subframe are shared with the Shelby GT350, while the rear axle cooling system, rear toe link, and rear diffuser are shared with the Shelby GT500. On the front grille, at each side of the pony badge there are two large vent holes. “Mach 1 performance is evident even before you get behind the wheel. Its streamlined design and exterior styling cues celebrate Mach 1 heritage dating back more than five decades. Sure, every Mustang looks good in the driveway, but the Mach 1 was made to shine on the track. The unique handling dynamics and an available Mach 1 Handling Package help you feel stuck to the road, around curves and when you’re hitting the straightaway at a 168 mph max speed. Better yet, it’s completely customizable in appearance, powertrain and performance, so you can put your spin on this icon. There is a hefty price premium, though, compared with the regular 5.0 GT model.
The third-generation of the Ford F-Series is a series of trucks that were produced by Ford from 1957 until 1960. Following its competitors at Dodge and General Motors, Ford widened the front bodywork to integrate the cab and front fenders together. Going a step further, the F-Series integrated the hood into the bodywork with a clamshell design; the feature would stay part of the F-Series for two decades. Although offered previously, the optional chrome grille was far more prominent than before. In the rear, two types of pickup boxes were offered, starting a new naming convention: the traditional separate-fender box was dubbed “Flareside”, while “Styleside” boxes integrated the pickup bed, cab, and front fenders together. As before, Ford still offered a low-GVWR version of each model. In May 1957, Ford discontinued building trucks at the Highland Park Ford Plant in Highland Park, Michigan. All light and medium trucks were transferred to 10 other plants in the USA. After 1969, heavy-duty trucks (above F-350) and some light duty trucks were transferred to Kentucky Truck Assembly in Louisville, Kentucky. Third generation trucks were built in Brazil as the F-100, F-350, and F-600 from 1962 until 1971, featuring the 272 and 292 cu.in. Y-Block V8. OHV sixes and V8s were the same ones as used in Ford cars of the era. This was the last generation of the panel van. Ford would not offer a full-size van again until the 1968 introduction of the second generation E-Series.
HILLMAN
Known internally at Rootes as the “Apex” project, the Imp was to be the group’s first post-Second World War small car. Its main rival on the home market was the BMC Mini, which preceded the Imp by almost four years. Launched in May 1963, much was expected of this promising small car, which was all-new and which was built in a new factory in Linwood in Scotland, far away from the rest of the Rootes Group’s facilities in the Coventry area. Conceived as a direct competitor to the BMC’s Mini, it adopted a different approach to packaging, with a space-saving rear-engine and rear-wheel-drive layout to allow as much luggage and passenger capacity as possible in both the rear and the front of the car. It used a unique opening rear hatch to allow luggage to be put into the back seat rest. In addition to its 875 cc all-aluminium power unit, adapted by Rootes from a Coventry Climax FWMA fire pump engine it was the first mass-produced British car to have an engine in the back and the first car to use a diaphragm spring clutch. The baulk-ring synchromesh unit for the transaxle compensated for the speeds of gear and shaft before engagement, which the Mini had suffered from during its early production years. It incorporated many design features which were uncommon in cars until the late 1970s such as a folding rear bench seat, automatic choke and gauges for temperature, voltage and oil pressure. At launch it was considered advanced for the time, but reliability problems quickly harmed its reputation, which led to the Rootes Group being taken over by Chrysler Europe in 1967. Over the life of the car, Rootes (and later Chrysler UK) produced four body styles. The original saloon was introduced in May 1963 and ran through to the end of production in 1976. It has an opening rear window, making it effectively a hatchback. The opening rear window was intended to make it easier to load the small luggage area behind the fold-down rear seat. The fold-down nature of the rear seat was itself unusual in small car design at the time, being more often associated with larger upmarket estate cars. In 1965 a van badged as the “Commer Imp” was introduced. A coupe, the Imp Californian, was introduced in 1967 at the same time as the van’s pressings were used to create an estate car, badged “Hillman Husky”. Several estate car prototypes using the saloon body with extended rooflines were tried, but never offered to the public. Instead, buyers choosing the estate had to settle for a van-derived car with somewhat unusual styling. Both the van and estate ceased production in 1970. In an attempt to interest a wider public when sales figures fell well short of the intended 100,000 cars per annum, several badge-engineered derivatives, such as the luxury Singer Chamois (launched October 1964), and the Sunbeam Sport (launched October 1966), with a more powerful twin-carburettor engine, were offered with varying degrees of success. For marketing reasons the Singer variants were sold as Sunbeams in many export markets, even before May 1970 when the Singer marque was discontinued altogether by Chrysler UK. In some markets, such as France, the “Sunbeam” name was used on all British Rootes products, including the Imp and the Husky.The coupe bodyshell is similar to the standard body but features a more shallow-raked windscreen and rear window which, unlike that on the standard bodied cars, can not be opened. The attempt at a more sporty design did not translate into better acceleration or top speed figures and the aerodynamics of the standard saloon are actually slightly better. The new body style made its first appearance at the Paris Motor Show in October 1967, with the introduction of the sporting Sunbeam Stiletto. The coupe body had also appeared, with less powerful engines, in the Hillman Imp Californian announced in January 1967 and the more luxurious Singer Chamois coupe. Production continued to 1976, and around 440,00 units were sold, a far cry from the figures achieved by the Mini, which sold at about 10 times that rate. The car seen here is a late model Imp Super.
Sitting below the Hunter in the Hillman range of the 1970s was the Avenger, a conventionally engineered small saloon that competed with the Ford Escort and Vauxhall Viva. 1250 and 1500cc models from launch were upgraded to 1300 and 1600cc in the autumn of 1973 and these garnered the majority of sales, but they are not the cars that have survived in the greatest numbers. The ones that you most often see now are the Tiger models. Named to evoke memories of the Sunbeam Tiger, the Avenger Tiger concept began as a publicity exercise. Avenger Super (four-door) cars were modified by the Chrysler Competitions Centre under Des O’ Dell and the Tiger model was launched in March 1972. Modifications included the 1500 GT engine with an improved cylinder head with enlarged valves, twin Weber carburettors and a compression ratio of 9.4:1. The engine now developed 92.5 bhp at 6,100 rpm. The suspension was also uprated, whilst brakes, rear axle, and gearbox are directly from the GT. The cars were all painted in a distinctive yellow called Sundance and they featured a bonnet bulge, whilst a rear spoiler and side stripes were standard, set off with “Avenger Tiger” lettering on the rear quarters. They are also distinguished by the fact that have rectangular headlights. Road test figures demonstrated a 0–60 mph time of 8.9 seconds and a top speed of 108 mph, which beat the rival Ford Escort Mexico, but fuel consumption was heavy. All Avenger Tigers were assembled by the Chrysler Competitions Centre and production figures are vague but around 200 of the initial Mark 1 seems likely. In October 1972, Chrysler unveiled the more “productionised” Mark 2 Tiger. The Avenger GL bodyshell with four round headlights was used. Mechanically identical to the earlier cars, the bonnet bulge was lost although the bonnet turned matt black, and there were changes to wheels and seats. These cars went on sale at £1,350. Production was around 400. These were available in a bright red colour called Wardance as well as the earlier Sundance, both with black detailing.
HOLDEN
HONDA
The Honda CR-X was completely redesigned by late 1987 for the 1988 model year. The wheelbase increased 4 in (102 mm) overall, length increased by 3.2 in (81 mm) and width is nearly 2 in (51 mm) wider from the previous model. The suspension was completely redesigned. Honda abandoned the original torsion bar in the front and beam axle and trailing link in the rear to a 4-wheel double-wishbone suspension. The larger design and revised suspension brought improvements in handling as well passenger and cargo space versus the previous generation. The CR-X received a mild refresh for the 1990 model year. The VTEC equipped models also received a makeover, with updated bumpers, lights, hood, brakes, suspension and dashboard design amongst other features. Additionally, some of these design changes were added to the concurrent non-VTEC models. One of the options for the Japanese Domestic Market (JDM) CR-X was a glass roof, a fixed glass panel which stretched from the top of the windshield to the top of the hatch opening. Relatively common in Japan, these are sought-after models in other markets. A rather different looking third generation model was launched in late 1991.
In 2001, Honda introduced the next generation of the Civic Type R as a unique 3-door hatchback to the UK market, which was manufactured in Swindon, England. This European Domestic Market Civic Type R featured a 200 PS 2.0-litre i-VTEC engine (K20A2) and the regular Type R treatment of seam welding, close-ratio 6-speed transmission and upgraded brakes, but did not include some of the other higher-end features, such as the helical LSD and red Recaro race-seats, that were standard on the EK9. However, Honda marketed a JDM (Japanese domestic market) version of the EP3 (which was exclusively manufactured in Swindon, UK and was shipped to Japan), which retained the highly renowned helical LSD similar to that of the EK9 and red Recaro race-seats. Other differences of the JDM model included a more track-oriented chassis/undercarriage settings as compared to the European model as well as a more powerful engine having a power output of 215 PS (designated K20A) had a fully balanced crankshaft assembly with the different intake manifold, exhaust manifold, higher-lift camshafts, higher-compression pistons, chrome-moly flywheel and ECU programming. All of the Japan-spec K20A Type R powertrains were built in Japan and shipped to the Swindon plant to be installed in the Japan-spec Type-R EP3. The JDM EP3 was also available in the traditional Type R Championship White while the EDM was not. The EDM has more relaxed gear ratios and some high rpm torque traded for low rpm torque compared to the JDM. In 2003, the EP3 was updated with many improvements – revised EPS with quicker steering, revised suspension settings, projector headlamps (JDM came equipped with halogens only while the EDM came with an option for HIDs with self-levelling motors), lighter clutch and flywheel assembly, etc. Based on Honda literature, this facelifted (FL) model was targeted at addressing customers’ and critics’ feedback such as understeer on the limit (due to the front MacPherson strut setup), numb steering response and lack of low-end torque. Mugen Motorsports developed an upgraded version of the JDM Civic Type R, with a sport exhaust system and engine tuning, special Mugen Grille, and anti-roll bars for pro racing activities. In 2003 Honda celebrated 30 years of the Civic badge by offering a special edition 30th Anniversary Civic Type R. This special edition features red bucket seats from Recaro, AIR CONDITIONING, privacy glass on the rear windows, a leather MOMO steering wheel, red interior carpet and door cards. The 30th Anniversary models in the UK were available in Nighthawk Black, Satin Silver and Milano Red. Only 300 of these models were produced, 100 in each colour. In 2005 towards the end of the EP3’s production run, Honda introduced the Civic Type R Premier edition which had Recaro Trendline seats (similar to those found in the Anniversary Edition, only in red and black rather than all red), a darker shade of fabric on the rear seat centre sections, a MOMO Steering Wheel, Red Carpet, Door Linings, “Type R” embossed into the front brake calipers and black privacy glass on the rear windows. Air conditioning was an option. They were available in Milano Red, Nighthawk Black, Cosmic Grey and Satin Silver. In 2004 Honda introduced the “C Package” option (¥330,000 JPY) to Japan’s Civic Type R line-up which included an additional colour, Satin Silver Metallic, HID lighting, rear privacy glass, automatic air conditioner and outside air temperature sensor. For the last production year (2005), the EP3 Type R was offered in Vivid Blue Pearl for the European Market. A total of 132 EP3’s, which were all left-hand drive, were produced in Vivid Blue Pearl.
This is an Integra type R and is from the fourth and final generation of the car, often referred to as the DC5, which is the Honda internal reference fro the car. The fourth generation Integra was introduced in Japan on April 13, 2001 and produced from July 2001 to July 2006. For North America (United States and Canada), it was introduced as the Acura RSX in accordance with Acura’s new alphabetical naming scheme. It also had an entirely new engine, the K-series. The Integra came in two models in the United States, the RSX and the RSX Type-S boasting the K20A2 engine from 2002 to 2004, while the 2005 and 2006 RSX-S came with a K20Z1. The RSX was sold as a Honda Integra in Japan and Australia, markets where Acura did not exist. In March 2006, Honda announced that the Integra would be discontinued in June after its final 300 cars were sold, due to the shrinkage of the coupe market. The reaction of the consumers towards the discontinuation, however, forced Honda to extend production until July 2006 and produce 150 more Integras. The Acura RSX was discontinued as well, as the RSX did not fit within the confines of Acura’s re-structured market strategy. This left the Acura TSX as Acura’s entry-level vehicle. Also, the introduction of the similarly powerful and less expensive 2006 model-year Honda Civic Si was there to fill in the gap left by the RSX. The DC5 Type R (Japanese market only) comes standard with a K20A 220 hp 2.0 litre DOHC i-VTEC four-cylinder engine. The “i” in i-VTEC stands for intelligent VTEC, which employs VTC (Variable Timing Control) to advance or retard the intake cam timing within a 50 degree range. The Integra Type R comes equipped with Recaro seats, four-piston Brembo front brakes, a close ratio six-speed manual transmission, a limited-slip differential, variable back-pressure exhaust system, and a stiffer suspension
The S2000 was first alluded to at the 1995 Tokyo Motor Show, with the Honda Sport Study Model (SSM) concept car, a rear-wheel-drive roadster powered by a 2.0 litre inline 4-cylinder engine and featuring a rigid ‘high X-bone frame’ which Honda claimed improved the vehicle’s rigidity and collision safety. The concept car was constructed with aluminium body panels and featured a 50:50 weight distribution. The SSM appeared at many automotive shows for several years afterwards, hinting at the possibility of a production version, which Honda finally announced in 1999. It featured a front mid-engine, rear-wheel-drive layout with power being delivered by a 1,997 cc inline 4-cylinder DOHC-VTEC engine. The engine produced outputs of 237–247 hp, and 153–161 lb/ft depending on the target market., and it was mated to a six-speed manual transmission and Torsen limited slip differential. The S2000 achieved what Honda claimed as “the world’s top level, high performance 4-cylinder naturally aspirated engine”. Features included independent double wishbone suspension, electrically assisted steering and integrated roll hoops. The compact and lightweight engine, mounted entirely behind the front axle, allowed the S2000 to achieve a 50:50 front/rear weight distribution and lower rotational inertia. An electrically powered vinyl top with internal cloth lining was standard, with an aluminium hardtop available as an optional extra. Although the S2000 changed little visually during its production run, there were some alterations, especially in 2004, at which point production of the S2000 moved to Suzuka. The facelifted car introduced 17 in wheels and Bridgestone RE-050 tyres along with a retuned suspension to reduce oversteer. The spring rates and shock absorber damping were altered and the suspension geometry modified to improve stability by reducing toe-in changes under cornering loads. The subframe has also received a revision in design to achieve a high rigidity. In the gearbox the brass synchronisers were replaced with carbon fibre. In addition, cosmetic changes were made to the exterior with new front and rear bumpers, revised headlight assemblies, new LED tail-lights, and oval-tipped exhausts. Although all the cosmetic, suspension and most drivetrain upgrades were included on the Japanese and European S2000s, they retained the 2.0l F20C engine and remained designated as an AP1. A number of special editions were made, such as the more track-oriented Club Racer version offered in the US in 2007/8 and the Type S for Japan in 2008/9. The UK received a GT for 2009, which featured a removable hard-top and an outside temperature gauge. The S2000 Ultimate Edition (continental Europe) and GT Edition 100 (UK) were limited versions of the S2000 released to commemorate the end of production. Both included Grand Prix White body colour, removable hard top, graphite-coloured alloy wheels, red leather interior with red colouring for stitching on the gear lever gaiter. The Ultimate Edition was unveiled at the 2009 Geneva Motor Show and went on sale in March 2009. The GT Edition 100 was a limited run of 100 units released for the UK market. In addition to the Ultimate Edition’s specification, it featured a black S2000 badge and a numbered plaque on the kick-plate indicating which vehicle in the series it was. The car was never replaced, as Honda decided to head off in the same direction as Toyota, producing a series of very dull appliance-like cars that focused on low emissions and dependability but of no appeal to the sort of enthusiast who bought (and probably kept!) an S2000.
HYUNDAI
There were examples of both the Hyundai N-badged hot hatches here, the i20N and i30N
JAGUAR
The E-Type Series 3 was introduced in 1971, with a new 5.3 L Jaguar V12 engine, uprated brakes and standard power steering. Optionally an automatic transmission, wire wheels and air conditioning were available. The V12 was equipped with four Zenith carburettors, and as introduced produced a claimed 272 bhp, more torque, and a 0–60 mph acceleration of less than seven seconds. The short wheelbase FHC body style was discontinued, with the Series 3 available only as a convertible and 2+2 coupé. The newly used longer wheelbase now offered significantly more room in all directions. The Series 3 is easily identifiable by the large cross-slatted front grille, flared wheel arches, wider tyres, four exhaust tips and a badge on the rear that proclaims it to be a V12. The first published road test of the series 3 was in Jaguar Driver, the club magazine of the Jaguar Drivers’ Club, the only owners club to be officially sanctioned by Sir William Lyons and Jaguar themselves. The road test of a car provided by Jaguar was published ahead of all the national and international magazines. Cars for the US market were fitted with large projecting rubber bumper over-riders (in 1973 these were on front, in 1974 both front and rear) to meet local 5 mph impact regulations, but those on European models were considerably smaller. US models also have side indicator repeats on the front wings. There were also a very limited number of six-cylinder Series 3 E-Types built. These were featured in the initial sales procedure but the lack of demand stopped their production. The V12 Open Two Seater and V12 2+2 were factory fitted with Dunlop E70VR − 15-inch tyres on 15 × 6K wire or solid wheels. The final production E-Type OTS Roadster was built in June 1974. Total production was 15,290.
An R-S version of the XF was confirmed in 2012 following an image released shortly before the Los Angeles Auto Show. It uses the same 5.0-litre supercharged V8 engine as the Jaguar XKR-S. The engine is rated at 550 PS (542 hp) at 6,500 rpm and 680 Nm (502 lb/ft) of torque at 5,500 rpm. The XFR-S has a 0–60 mph time of 4.4 seconds and a top speed of 299 km/h (186 mph). The XFR-S differs from the XFR as it has bespoke 20-inch alloy wheels, wider front grills and carbon fibre. The front grills aid aerodynamic efficiency as does the large rear wing and rear diffuser. These cars are rare
Also here was an F Type in the later facelifted guise.
JENSEN
The Jensen C-V8, a four-seater GT, was launched in October 1962, It had fibreglass bodywork with aluminium door skins, as did the preceding 541 series. All C-V8s used big-block engines sourced from Chrysler; first the 361 and then, from 1964, the 330 bhp 383 in³. Most of the cars had three-speed Chrysler Torqueflite automatic transmission, but seven Mk2 C-V8s were produced with the 6-litre engine and four-speed manual gearbox , followed by two manual Mk3s. While the great majority of C-V8s were made in right-hand drive, ten were made in left-hand drive. The car was one of the fastest production four-seaters of its era. The Mk II, capable of 136 mph, ran a quarter mile in 14.6 seconds, and accelerated from 0–60 mph in 6.7 seconds. The upgraded Mk II, introduced in October 1963, had Selectaride rear dampers and minor styling changes. Changes on the Mk III, the final version of the series which was introduced in June 1965, included a minor reduction in overall length, deeper windscreen, equal size headlamps without chrome bezels, improved interior ventilation, wood-veneer dashboard, the addition of overriders to the bumpers, and a dual-circuit braking system. The factory made two convertibles: a cabriolet, and a Sedanca that opened only above the front seats. The front of the C-V8 was styled with covered headlamps, similar to those on the Ferrari 275 GTB and Jaguar 3.8 E-type as a key element of the design. But because of concerns that they might reduce the effectiveness of the headlamps, the covers were deleted for the production cars. As a consequence the C-V8’s front-end appearance was compromised and proved controversial for decades. Owners are now starting to return their cars to the original streamlined styling intended by the car’s designer Eric Neale. The model was discontinued in 1966 after a total production run of 500. The fibreglass body, and the fact that the twin-tube frame was set in from the perimeter of the car, have contributed to the model’s comparatively high survival rate.
An enduring classic that has far more appeal now than when it was new (not an uncommon story) is the Jensen Interceptor, launched as a replacement for the rather gawky looking CV8 of the early 1960s. After a false start when a car with the same name was shown in 1965, which received a massive “thumbs down”, Jensen went to Italy to find a new stylist for another attempt. They ended up with Carozzeria Touring, who produced a stunning looking grand tourer which, although sharing some styling cues with other models that they had designed, had a style all of its own, and they then approached another, Vignale, to build the bodies before they would be shipped back to West Bromwich for final assembly. As with the CV8, motive power came from a large Chrysler V8 engine, which gave the car effortless performance, and a somewhat prodigious thirst. The original specification included electric windows, reclining front seats, a wood rimmed steering wheel, radio with twin speakers, reversing lights and an electric clock. Power steering was included as standard from September 1968. The Mark II was announced in October 1969, with slightly revised styling around the headlamps, front grille and bumper and revised rear lights. The interior was substantially revised in order to meet US regulations, and air conditioning was an option. The Mark III, introduced in 1971, revised the front grille, headlamp finishers and bumper treatment again. It had GKN alloy wheels and air conditioning as standard, and revised seats. It was divided into G-, H-, and J-series depending on the production year. The 6.3 litre engine was superseded by the 7.2 litre in 1971. A Convertible version was premiered in 1974,. but just 267 were built, and then in 1975 a Coupe model was shown, effectively a fixed roof version of the Convertible, just 60 of which were made as by this time, the company had fallen on hard times due to the then world-wide recession, and massive and costly reliability problems with its Jensen-Healey sports car. It was placed into receivership and the receivers allowed production to be wrapped up using the available cache of parts. Production of the Interceptor ended in 1976. Enthusiasm for the car remained, though, so in the late 1980s, a group of investors stepped in and re-launched production of the Interceptor, as the Series 4, back as a low-volume hand built and bespoke affair, marketed in a similar way to Bristol, with a price (£70,000 and more) to match. Though the body remained essentially the same as the last of the main production run of series 3; the engine was a much smaller Chrysler supplied 5.9 litre unit which used more modern controls to reduce emissions comparatively and still produce about 230 hp. In addition, the interior was slightly re-designed with the addition of modern “sports” front seats as opposed to the armchair style of the earlier models, as well as a revised dashboard and electronics. The then owner sold up in 1990 to an engineering company believed to be in a stronger position to manufacture the car which lasted until 1993 with approximately 36 cars built, and while work commenced on development of a Series 5 Interceptor, once again receivers were called in and the company was liquidated. Even that was not quite the end of the story, as the Jensen specialist based at Cropredy Bridge has made a business out of rebuilding original Interceptors using modern components, with a General Motors supplied 6.2 litre LS3 engine and transmission from a Chevrolet Corvette. In May 2010, Jensen International Automotive was set up, with the financial backing and know-how of Carphone Warehouse founder and chairman Charles Dunstone who joined its board of directors. A small number of Jensen Interceptor Ss, which had started production under a previous company, are being completed by Jensen International Automotive (JIA), in parallel with JIA’s own production of the new Jensen Interceptor R; deliveries of the latter started at the beginning of 2011.
LAMBORGHINI
The Aventador SVJ is the fastest Lamborghini you can buy new. With 759bhp and 531lb ft on tap, the SVJ (Superveloce Jota) matches the power output of the ultra-low-volume Centenario and is 29bhp more powerful than the Aventador S. This power figure is produced by a tuned version of Lamborghini’s naturally aspirated 6.5-litre V12 and is transmitted to the road through all four wheels. Four-wheel steering is also fitted, as per the Aventador S, but the SVJ builds upon the standard car’s agility with a second generation of its active aerodynamics system (ALA 2.0), with improvements over the first system including redesigned air inlets and aero channel designs. The system aided the SVJ in lapping the Nürburgring circuit in 6min 44.97sec – a new record for a production car. Lamborghini claims the SVJ’s downforce is 40% greater than that of the Aventador SV – its former performance flagship. Larger side air intakes, a huge rear wing, tweaked underbody with vortex generators and prominent rear diffuser and aerodynamic bodywork at the front help to achieve the improved aero figure. The chassis is tweaked for additional stiffness – a 50% stiffer anti-roll bar compared with the Aventador SV has been fitted, while the suspension’s damping force range is increased by 15% over the SV. Other tweaks to the suspension are claimed to improve the car’s on-track stability. A re-engineered exhaust system reduces back pressure and has been fettled to produce a “more emotive’ sound, as well as being lighter than the standard set-up, with higher exit points. Also among the mechanical upgrades is a tweaked seven-speed automated manual gearbox, while the four-wheel drive system now sends 3% more torque rearwards. The stability control and ABS systems are tweaked to accommodate the greater grip provided by the active aerodynamics. The car’s exclusive aluminium Nireo wheels are shod in specially made Pirelli P Zero Corsa tyres and are stiffer, with a bespoke tread design for the Aventador SVJ. Lamborghini plans to build 900 SVJs, with UK prices starting at around £356,000 when deliveries begin in early 2019. An additional 63 units will be produced in 63 Edition guise, of which the Pebble Beach reveal car is one, celebrating the brand’s 1963 inception. These feature a bespoke colour and trim and will carry a higher price tag than the regular SVJ.
The Lamborghini Huracán (Spanish for “hurricane”; [uɾaˈkan]) is a sports car replacing the previous V10 offering, the Gallardo. The Huracán was revealed online in December 2013, making its worldwide debut at the 2014 Geneva Auto Show, and was released in the market in the second quarter of 2014. The Huracán’s name (huracán being the Spanish word for hurricane) is inspired by a Spanish fighting bull. Historic Spanish fighting bulls have traditionally provided the names of most Lamborghini car models. Huracán was a bull known for its courage that fought in 1879. The Huracán maintains the 5.2-litre naturally aspirated Audi/Lamborghini V10 engine with an additional 0.2 litres, compared to the Gallardo, tuned to generate a maximum power output of 602 bhp/610 PS. To ensure its balance and performance, the car is mid-engined. The engine has both direct fuel injection and multi-point fuel injection. It combines the benefits of both of these systems; it is the first time this combination is used in a V10 engine. To increase its efficiency, the Huracán’s engine also includes a start-stop system. 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.
The Huracán STO (Super Trofeo Omologato) is a track focused variant of the Huracan. It is completely different from other Huracan variants. The STO has a taller rear wing with a roof snorkel for engine cooling. There is a shark fin aerodynamic device connecting the roof snorkel with the rear wing. The engine cover is reminiscent of the Lamborghini Super Trofeo Evo race cars. The entire hood opens to reveal a small compartment for storing racing equipment, the body is made of 75% carbon fibre, the engine and the power output of the STO is the same as the Huracan Perfomante and the Huracan Evo but it has Rear-wheel drive with Rear Wheel Steering system, it has CCMR Brakes inspired from Formula 1. The STO comes with three new modes: STO for road driving, TROFEO for fast lap times on dry tarmac, and PIOGGIA for wet weather driving. The bucket seats on the interior feature racing harnesses.
Final Lamborghini here was an example of the company’s best-ever selling model, the Urus.
LANCIA
Lancia launched the Delta in 1979, as what we would now think of as a “premium hatch”. Offered in 1300 and 1500cc engines, this car, which collected the prestigious “Car of the year” award a few months later, brought Italian style and an expensive feeling interior to a new and lower price point in the market than Lancia had occupied since the early days of the Fulvia some 15 years earlier. The range grew first when a model was offered using the 4 speed AP automatic transmission and then in late 1982, more powerful models started to appear, with first a 1600cc engine, and then one with fuel injection, before the introduction of the HF Turbo. All these cars kept the same appearance and were quite hard to tell apart. These were the volume models of the range, but now they are very definitely the rare ones, as it is the performance versions which have survived and are now much loved classics, even though relatively were sold when they were new, thanks to a combination of the fact that they were quite costly and that they only ever came with left hand drive. The Integrale evolved over several years, starting off as the HF Turbo 4WD that was launched in April 1986, to homologate a new rally car for Lancia who needed something to fill the void left by the cancellation of Group B from the end of 1986. The Delta HF 4X4 had a four-wheel drive system with an in-built torque-splitting action. Three differentials were used. Drive to the front wheels was linked through a free-floating differential; drive to the rear wheels was transmitted via a 56/44 front/rear torque-splitting Ferguson viscous-coupling-controlled epicyclic central differential. At the rear wheels was a Torsen (torque sensing) rear differential. It divided the torque between the wheels according to the available grip, with a maximum lockup of 70%. The basic suspension layout of the Delta 4WD remained the same as in the rest of the two-wheel drive Delta range: MacPherson strut–type independent suspension with dual-rate dampers and helicoidal springs, with the struts and springs set slightly off-centre. The suspension mounting provided more isolation by incorporating flexible rubber links. Progressive rebound bumpers were adopted, while the damper rates, front and rear toe-in and the relative angle between springs and dampers were all altered. The steering was power-assisted rack and pinion. The car looked little different from the front wheel drive models. In September 1987, Lancia showed a more sophisticated version of the car, the Lancia Delta HF Integrale 8V. This version incorporated some of the features of the Delta HF 4WD into a road car. The engine was an 8-valve 2 litre fuel injected 4-cylinder, with balancing shafts. The HF version featured new valves, valve seats and water pump, larger water and oil radiators, more powerful cooling fan and bigger air cleaner. A larger capacity Garrett T3 turbocharger with improved air flow and bigger inter-cooler, revised settings for the electronic injection/ignition control unit and a knock sensor, boosting power output to 185 bhp at 5300 rpm and maximum torque of 224 lb/ft at 3500 rpm. The HF Integrale had permanent 4-wheel drive, a front transversely mounted engine and five-speed gearbox. An epicyclic centre differential normally split the torque 56 per cent to the front axle, 44 per cent to the rear. A Ferguson viscous coupling balanced the torque split between front and rear axles depending on road conditions and tyre grip. The Torsen rear differential further divided the torque delivered to each rear wheel according to grip available. A shorter final drive ratio (3.111 instead of 2.944 on the HF 4WD) matched the larger 6.5×15 wheels to give 24 mph/1000 rpm in fifth gear. Braking and suspension were uprated to 284 mm ventilated front discs, a larger brake master cylinder and servo, as well as revised front springs, dampers, and front struts. Next update was to change the engine from 8 valves to 16. The 16v Integrale was introduced at the 1989 Geneva Motorshow, and made a winning debut on the 1989 San Remo Rally. It featured a raised centre of the bonnet to accommodate the new 16 valve engine, as well as wider wheels and tyres and new identity badges front and rear. The torque split was changed to 47% front and 53% rear. The turbocharged 2-litre Lancia 16v engine now produced 200 bhp at 5500 rpm, for a maximum speed of 137 mph and 0–100 km/h in 5.5 seconds. Changes included larger injectors, a more responsive Garrett T3 turbocharger, a more efficient intercooler, and the ability to run on unleaded fuel without modification. The first Evoluzione cars were built at the end of 1991 and through 1992. These were to be the final homologation cars for the Lancia Rally Team; the Catalytic Evoluzione II was never rallied by the factory. The Evoluzione I had a wider track front and rear than earlier Deltas. The bodyside arches were extended and became more rounded. The wings were now made in a single pressing. The front strut top mounts were also raised, which necessitated a front strut brace. The new Integrale retained the four wheel drive layout. The engine was modified to produce 210 bhp at 5750 rpm. External changes included: new grilles in the front bumper to improve the air intake for engine compartment cooling; a redesigned bonnet with new lateral air slats to further assist underbonnet ventilation; an adjustable roof spoiler above the tailgate; new five-bolt wheels with the same design of the rally cars; and a new single exhaust pipe. Interior trim was now grey Alcantara on the Recaro seats, as fitted to the earlier 16V cars; leather and air conditioning were offered as options, as well as a leather-covered Momo steering wheel. Presented in June 1993, the second Evolution version of the Delta HF Integrale featured an updated version of the 2-litre 16-valve turbo engine to produce more power, as well as a three-way catalyst and Lambda probe. A Marelli integrated engine control system with an 8 MHz clock frequency which incorporates: timed sequential multipoint injection; self-adapting injection times; automatic idling control; engine protection strategies depending on the temperature of intaken air; Mapped ignition with two double outlet coils; Three-way catalyst and pre-catalyst with lambda probe (oxygen sensor) on the turbine outlet link; anti-evaporation system with air line for canister flushing optimised for the turbo engine; new Garrett turbocharger: water-cooled with boost-drive management i.e. boost controlled by feedback from the central control unit on the basis of revs/throttle angle; Knock control by engine block sensor and new signal handling software for spark park advance, fuel quantity injected, and turbocharging. The engine now developed 215 PS as against 210 PS on the earlier uncatalysed version and marginally more torque. The 1993 Integrale received a cosmetic and functional facelift that included. new 16″ light alloy rims with 205/45 ZR 16 tyres; body colour roof moulding to underline the connection between the roof and the Solar control windows; aluminium fuel cap and air-intake grilles on the front mudguards; red-painted cylinder head; new leather-covered three-spoke MOMO steering wheel; standard Recaro seats upholstered in beige Alcantara with diagonal stitching. In its latter years the Delta HF gave birth to a number of limited and numbered editions, differing mainly in colour, trim and equipment; some were put on general sale, while others were reserved to specific markets, clubs or selected customers.
LAND ROVER
Another relatively regular attendee at QS meets, this is a late model example of the long-running Defender series that has been somewhat modified.
LINCOLN
For the 1961 model year the Lincoln range was consolidated into one model. Following the $60 million in losses to develop the 1958–1960 cars, all models were replaced by a new Lincoln Continental. Making its first appearance since 1948, the fourth-generation was available only as a four-door sedan and convertible until its 1966 model year refresh. The 1961 four-door sedan was listed at US$6,067 and manufactured 22,303 while the convertible was listed at US$6,713 and manufactured 2,857. The new generation was nearly 15 inches shorter overall with a 8″ shorter wheelbase over its predecessor, though heavier than its Cadillac or Imperial counterparts. Its construction and post-build quality control reflected Ford corporate management’s commitment to quality. The 1961 Lincoln Continental and its designers received a bronze medal by the Industrial Design Institute (IDI) of New York.[citation needed] It also won Car Life’s 1961 Engineering Excellence Award. The fourth-generation Lincoln Continental was styled by Ford design vice president Elwood Engel. In mid-1958, Lincoln was struggling against Cadillac, with its lack of profitability putting the future of the division at risk. In 1958, Engel developed a proposal for the 1961 Ford Thunderbird with staffers Howard Payne and John Orfe. While the proposal was not selected for the Thunderbird, the design interested Ford executives to the point of desiring the vehicle as a four-door Lincoln. At the time of the approval, Ford product planners had come to two conclusions critical to restoring the Lincoln Division to profitability. First, to instill design continuity, Lincoln would adopt a model cycle distinct from Ford or Mercury, moving from three years to eight or nine. Second, the 1958 Lincoln model line was too large for a standard-length sedan; consequently, the 1961 Lincoln would have to decrease its exterior footprint. The fourth-generation Lincoln Continental rode on a stretched version of the unibody platform produced for the 1961 Thunderbird, lengthened to a 123-inch wheelbase from market launch to 1963. This was then extended to 126 inches and retained until 1969. The only engine available was the 430 cu in (7.0 L) MEL V8 carried over from the Mark V. It was expanded to 462 cubic inches on 1966 models, becoming the largest-displacement engine ever used in a Ford Motor Company passenger car. A new engine, the 460 cu in (7.5 L) 385-series-based V8, took its place by 1969, shared with the Continental Mark III. All versions of the Continental were fitted with a 3-speed automatic transmission. New for 1966 was Ford’s C6 automatic, designed for use in big block, high-horsepower V8 engines. At its launch, the fourth-generation Lincoln Continental was offered solely as a four-door, as either a sedan or a convertible. For the first time on a Lincoln since 1951, rear doors were rear-hinged (suicide doors). To alert drivers of open doors, Lincoln fitted the dashboard with a “Door Ajar” warning light as seen on many modern automobiles. Latching at the B-pillar with a vacuum-operated central locking system, convertibles used an abbreviated pillar while sedans were “pillared hardtops.” In the configuration, a thin B-pillar supported the roof structure while all four doors utilized frameless door glass in the style of a hardtop or convertible; the layout would become used by several Ford Motor Company sedans during the 1960s and 1970s. In what would be the first four-door convertible from a major American manufacturer after World War II, the Lincoln Continental convertible was fitted with a power-operated top on all examples. Deriving its mechanism from the Ford Fairlane 500 Skyliner hardtop convertible, the Continental was fitted with a fabric roof that stored under a rear-hinged deck lid/filler panel. In a similar fashion as the Skyliner, to access the trunk for storage, the deck lid was opened electrically without raising or lowering the roof. Due to the overlap of the front- and rear-door window weatherstripping on the four-door convertibles (with “suicide” doors), to open the rear door when the front door was closed required that the rear-door window be slightly lowered first. This was accomplished automatically using sensors and relay-controlled logic—when the outside door latch button or inside handle was first pressed, the power-operated window lowered a few inches, then raised when the door was closed. An option for 1964–1965 was the vertically adjustable steering column. Unlike most tilt-adjustable columns that employ a lever-activated locking pivot joint just behind the steering wheel the Lincoln version employed a vacuum-actuated clamp, a dash-mounted height indicator window and a pivot point further down the column. During its production, the fourth-generation Lincoln Continental would be produced in three versions, undergoing model revisions in 1964 and 1966. The 1961 Lincoln Continental was introduced with four-door sedan and four-door convertible versions, replacing the Lincoln Premiere and Lincoln Continental Mark V. For the first time in a car manufactured in the United States, the Lincoln Continental was sold with a 2 year/ 24,000 mi (39,000 km) bumper-to-bumper warranty. California walnut veneer was used on the doors and instrument panel. For 1962, a simpler front grille design with floating rectangles and a thin center bar replaced the heavy-gauge, Thunderbird-like, high mounted bumper of the ’61. For 1963, the Continental underwent several functional updates. The front seatbacks were modified in an effort to increase rear seat legroom. To increase luggage space, the trunklid was reshaped. In line with a number of vehicles in the United States, the electrical charging system introduced an alternator, replacing the generator. For 1964, the Lincoln Continental underwent its first mid-cycle redesign. Alongside styling updates, several functional changes were focused towards increasing rear-seat space. The wheelbase was increased from 123 to 126 inches, shifting the rear seats backward. The roofline underwent several changes, with the adoption of flat side glass (replacing curved window glass). To increase rear headroom, the rear roofline became additionally squared off, in a notchback style. In a slight exterior restyling, to eliminate the “electric shaver” appearance, the front fascia added vertical chrome accents to the grille; the recessed rear grille was replaced by a much simpler decklid with trim panel (moving the fuel-filler door to the left-rear fender). The interior was completely revised with a full-width instrument panel, updated upholstery patterns, door panels and fittings. In 1964, Lincoln debuted the Continental Town Brougham concept car, which had a 131-inch wheelbase, overall length at 221.3, and had a retractable glass partition between the front and rear compartments, with an exposed area over the front compartment, in typical 1930s style town car/brougham appearance. For 1965, Lincoln made additional updates to the Continental. In a styling change, the convex “electric shaver” front fascia was replaced by a more angular blunt hood with an upright flat grille design. As part of the redesign, the front turn signals and parking lights are moved from the front bumpers to wraparound lenses on the front fenders, with similar parking lights/turn signals on the rear; all four lights received metal trim to match the horizontal lines of the new grille. To improve braking ability, the Continental was given Kelsey-Hayes disc brakes for the front wheels; in addition, front seat belts with retractors became standard. For 1966, the fourth-generation Lincoln Continental underwent a second mid-cycle redesign. To better compete against the Cadillac Coupe de Ville and the Imperial Crown Coupe, Lincoln introduced its first two-door pillarless hardtop since 1960. The convertible remained offered solely as a four-door. In an effort to increase sales of the five year-old model range, Lincoln reduced the price of the Continental nearly $600 from 1965 while keeping equipment levels identical. The marketing decision proved successful; boosted by the introduction of the two-door body style, the model range increased sales by 36%. While following much of the 1965 restyling (distinguished in ’66 largely by a new grille and the addition of “Continental” to the hood), the 1966 Lincoln Continental wore an all new body, growing 5 inches longer (implemented primarily in the rear seats to accommodate more legroom), and nearly an inch taller and wider. Curved side glass made its return (with less obvious tumblehome, to increase interior room). To offer an engine sized comparably to those in the Imperial (440 cubic inches in 1966) and Cadillac (429 cubic inches, 472 cubic inches in 1968), the 430 V8 was enlarged to 462 cubic inches. The convertible underwent several equipment revisions for the first time, adding a glass rear window and the top mechanism added a second hydraulic pump for opening the convertible roof and the trunklid (making the two systems separate); hydraulic solenoids were deleted from the top mechanism. The interior underwent several revisions, adding a tilt steering wheel and an 8-track tape player as options. For 1967, the Lincoln Continental was given only minor trim updates, with the deletion of the Lincoln star emblem from the front fenders being the largest change. Several functional changes were made, as Lincoln added a number of indicator lights to the dashboard. Along with an oil pressure warning light, the dashboard was given indicator lights for an open trunk and the cruise control (if on). Following federal safety mandates, lap safety seatbelts became standard equipment, coupled with an energy-absorbing steering column. Following years of decreasing sales, 1967 marked the final year of the Lincoln Continental convertible, with only 2,276 sold. After becoming the first four-door convertible sold after World War II, the Lincoln Continental would become the final (as of the 2018 model year) example of its type sold by an American manufacturer. As a result of numerous frame reinforcements required by the lack of a fixed roof, the 5,712 lb (2,591 kg) 1967 Lincoln Continental convertible is one of the heaviest passenger cars ever sold by Ford Motor Company. For 1968, Lincoln made several styling changes to the Continental. To meet federal safety standards, the parking lights, taillights, and front turn signals were returned to a wraparound design on the fenders to satisfy Federal standards for side marker lights. For the interior, torso seatbelts were added for the outboard front seats. The “Continental” wording was removed from the front fascia, replaced by the Lincoln star emblem (as seen on the rear); the hood ornament was deleted, in anticipation of a federal ban on the feature (which never came to effect). The new 460 cu in (7.5 L) Ford “Lima” engine was to be available at the beginning of the model year, but there were so many 462 cu in (7.6 L) Ford MEL engine engines still available, the 460 was phased in later that year. In April, the new Mark III made its debut, as a 1969 model. Total sales would be down to just 39,134. For 1969, few changes were made in the final year of production. To comply with federal regulations, the front seats were updated with head restraints for the outboard passengers. The front fascia was updated, with the grille enlarged for the first time since 1966, with the “Continental” wording returning above the grille. Shared with the Mark III, the 460 V8 became the sole engine for the Lincoln Continental, paired with the Ford C6 3-speed automatic transmission. After a nine-year hiatus, the Town Car name made a return in 1969 as part of an interior trim option package for the Continental.
LOTUS
Introduced in 1967, the Elan +2 had a longer wheelbase and two rear seats and so was intended for those Lotus customers who needed space to carry (small) people in the back, without sacrificing the same basic principles which made the Elan so appealing. A fast and agile sport coupe, a number of different engines were fitted over the years, with the later models having 130 bhp and a 5 speed gearbox at their disposal, which gave a top speed of 120 mph and 0–60 acceleration of 7.9 seconds and 0-100 mph 21.8 seconds. 5,200 Elans +2 were made, with production ceasing in 1975. Fewer than 1,200 of these cars remain on the roads today. Their relative rarity, beautiful lines, impressive performance and practicality are the main factors for the rising interest on these cars among collectors.
Known internally as the Type 89, the Excel, built from 1982 to 1992, was a development of the earlier Lotus Eclat, which itself was based on the Type 75 Elite. Although a promising design, the Elite and Eclat had suffered from numerous quality control issues which were difficult for owners to accept given the price of the cars. The Excel was a concerted effort to address these, and it stood every chance of so doing, as it took advantage of the relationship with Toyota. This had started when Toyota engaged Lotus to assist with engineering work on the Supra. During this period, Toyota then became a major shareholder in Lotus. Part of the deal between the two included the use of many Toyota mechanical components in Lotus’ cars. The original Excel (aka the Eclat Excel) used the W58 manual transmission, driveshafts, rear differential, 14×7 in alloy wheels, and door handles from the Supra Mk II, which was made from 1982 to 1986. The engine was the familiar all-aluminium, DOHC 2.2 litre Lotus 912 Slant Four which was also used in the Lotus Esprit S3. During its lifetime, the Excel received two major upgrades. With the introduction of the Excel SE which had a 180 bhp engine vs the standard 160 bhp car in October 1985, the bumpers, wing and interior was changed, including a new dashboard. In October 1986 the Excel SA with automatic gearbox was introduced. Further facelifts in 1989 saw Citroën-derived mirrors, as featured on the Esprit, and 15 inch OZ alloy wheels to a similar pattern as the Esprit’s. According to Lotus records, only 1 Excel was manufactured to USA specification. The lack of release in the USA was due to the high emission regulations (which would hinder the car’s performance), and poor sales of the car in Europe.
In 1987, a new version of the mid-engined Esprit was unveiled, incorporating rounder styling cues given by designer Peter Stevens (who later designed the McLaren F1). A new Lotus patented process was introduced to create the new body, called the VARI (Vacuum Assisted Resin Injection) process, which offered more advantages than the previous hand laid process. Kevlar reinforcement was added to the roof and sides for roll-over protection, resulting in an increase of the Esprit’s torsional rigidity by 22 percent. Giugiaro is said to have liked the restyling, claiming it was perhaps too close to his original design. The Stevens styled cars retained the mechanical components of the previous High Compression Esprit and Turbo Esprit, but introduced a stronger Renault transaxle, which necessitated a move to outboard rear brakes. However, the MY 1988 North American Esprit Turbo kept its Citroën SM type transaxle and the Bosch K-Jetronic fuel injection system used in the previous model year. The car’s Type 910 engine retained 215 bhp and 220 lb·ft, but decreased its zero to sixty from 5.6 seconds to a varied time between 5.4 – 5.1 seconds and a top speed of over 150 mph. The exterior style changes were accompanied by a redesign of the interior, allowing a little more space for the occupants. The Stevens styled Esprit is often known by its project code of X180. In 1989, the Esprit was again improved with the GM multi-port, electronic fuel injection system and the addition of a water to air intercooler, which Lotus has named the Chargecooler, producing the SE (Special Equipment). This inline-four engine was known as the Type 910S. Horsepower was pushed up to 264 with 280 available on overboost and zero to sixty miles per hour times reduced to 4.7 seconds with a top speed of over 160 mph. Several modifications were made to the body kit as well, like side skirts which are parallel to the body, five air ducts in the front air dam, wing mirrors from the Citroën CX and the addition of a rear wing. Along with the SE, Lotus produced the little seen Esprit S, a midrange turbocharged car offering fewer appointments and 228 hp, as well as the standard turbo still offering 215 hp . The N/A and lower-powered turbo were cancelled after 1990, and the S in 1991. Another unusual variant was a two-litre “tax special” developed for the Italian market, fitted with an intercooled and turbocharged version of a new 1,994 cc version of the venerable 900-series four-cylinder engine. Equipped with SE trim, this appeared in December 1991 and produced 243 PS at 6,250 rpm. Beginning in the autumn of 1996, this engine became available in other markets as well. The Esprit was a popular and successful addition to the American IMSA Bridgestone Supercar Championship and as a result Lotus produced the SE-based X180R, with horsepower bumped to 300 and with racing appointments. The Sport 300 was a derivative of the X180R sold in Europe, which included many modifications. These are known as the fastest of the four-cylinder Esprits and among the most desirable. In 1993, another exterior and interior revamp of the car resulted in the S4 which was the first model to include power steering. The exterior redesign was done by Julian Thompson, which included a smaller rear spoiler placed halfway up the rear decklid. Other major changes were to the front and rear bumpers, side skirts and valence panels. New five spoke alloy wheels were also included in the redesign. The S4 retained the same horsepower as the SE at 264 hp.The S4 was succeeded in 1994 by the S4s (S4 sport), which upped power to 300 bhp and 290 lb·ft of torque, improving all-around performance while retaining the comfort of the previous version. Top speed was increased to 168 mph, skidpad increased to 0.91g, an increased slalom of 61.7 mph and a 0-60 mph time of 4.6 seconds. Although the engine kept its 2.2-litre capacity, many modifications were added to improve engine performance. Some of the changes were enlarged inlet ports, cylinder head modifications, a re-calibrated ECM and a revised turbocharger. The most visible external styling changes was the addition of a larger rear wing taken from the Sport 300. In 1996 the Esprit V8 used Lotus’ self-developed all-aluminium, twin-turbocharged (Garrett T25/60 turbos) 90-degree V-8, Code-named Type 918, in front of the same Renault transmission as before with no Chargecooler. Derek Bell developed an uprated gearbox that overcame a lot of the gearbox problems with a much thicker single piece input shaft. The Type 918 engine was detuned from a potential 500 bhp to 350 bhp to prevent gearbox damage due to the fragility of the Renault UN-1 transmission. In period tests, zero to sixty miles per hour came in at 4.4 seconds and top speeds of over 175 mph were achieved. Produced alongside V8 models was the GT3, a turbocharged four-cylinder car with the type 920 2.0 litre chargecooled and turbocharged engine which had been used only in Italian market cars previously. In 1998 the V8 range was split into SE and GT specifications, both cars with a much changed interior configuration, both offering similar performance with the SE being the more luxurious of the two. The ultimate incarnation of the Esprit came in 1999 with the Sport 350. Only 50 were made, each offering 350 horsepower (per the name) and various engine, chassis and braking improvements, like the addition of AP Racing brakes, stiffer springs and a revised ECU. Several visual changes were made as well, including the addition of a large carbon fibre rear wing on aluminium uprights in place of the standard fibreglass rear wing. By this time the Esprit could reach 60 mph in 4.3 seconds as well as reaching 0-100 mph in less than 10 seconds, and weighed 1,300 kg (2,866 lb) as a result of many modifications. Thereafter, Lotus made little development aside from minor cosmetic changes including a switch to four round tail lights for the 2002 model year. Esprit production ceased in February 2004 after a 28 year production run. A total of 10,675 Esprits were produced.
A third Series Elise was debuted in 2010 and the car has undergone almost constant enhancements ever since, with power outputs boosted considerably on the way. Revealed in November 2015, the Lotus Elise Sport and Sport 220 joined the two-seater sports car’s line-up, with the two models replacing the outgoing Elise and Elise S. The models mark a return for the ‘Sport’ name to a Lotus, with the badge last appearing on the Lotus Esprit. The two cars get a weight reduction of 10kg, with the Elise Sport now down to 866kg and the Sport 220 now 914kg. The reduced weight doesn’t improve performance but it does bring a marginal boost in claimed economy, with the Sport now managing 45.0mpg the Sport 220 improving to 37.5mpg. The changes are marginal enough that the CO2 emissions remain unchanged. Both cars also come with lightweight sports seats, which are available with optional tartan trim that harks back to the 1970s Esprit S1. Other visual upgrades and options include lightweight silver or black cast wheels, which are 16 inch at the front and 17 inch at the rear. Optional lightweight wheels can shave another 5kg off the car’s weight. A black rear diffuser is standard, along with a choice of 10 different colours. Other options include a hard roof, air conditioning, cruise control and an upgraded Clarion stereo system. The engines remained unchanged. The Sport comes with a 1.6-litre petrol engine with 134 bhp and 160 Nm (118 lb/ft) of torque. It can go 0-62mph in 6.5 seconds, and has a top speed of 127mph. The Sport 220’s 1.8-litre engine can develop 217 bhp (220 PS) and 250 Nm (184 lb/ft) of torque. It can go 0-62mph in 4.6 seconds and has a 145mph of top speed. Both come with a six-speed manual transmission. The pricing has also been trimmed, with the Elise Sport model starting at £29,900 and the Elise Sport 220 priced at £36,500. Both cars will go on sale from December 2015 in Europe and the rest of the world from January 2016. At the 2016 Geneva Motor Show, Lotus revealed the high performance version of the Elise called the Cup 250. The Cup 250 is a more track focused and hardcore version of the standard Elise. It has a 1.8 litre supercharged Toyota 2ZR-FE Inline-4 engine with a 6-speed Toyota EC60 manual gearbox with sport ratios, developing 243 bhp at 7200 rpm, giving a 0-60 mph time of 3.9 seconds and a Top speed of 154 mph. In October 2017, Lotus unveiled a hardcore version of the Elise called the Elise Cup 260. It is inspired by the two hardcore variants of the Evora and Exige line up, the Sport 380 and the GT430 respectively. It features the double taillight units and rear wing from the Exige Sport 380 and the Lotus 3-Eleven respectively. Power has also been uprated and is now 250 hp thanks to a revised supercharger. Other changes include increased top speed, acceleration, low weight and high downforce due to added aero elements. Performance was marginally improved over the 220 version. In March 2017, Lotus announced the special edition ‘Sprint’ models of the Elise. For the Elise Sprint, Lotus used several weight-saving techniques to cut the car’s weight down to 798 kg (1,759 lb). To achieve the 40 kg (88 lb) weight saving, some body parts are made in carbon, as well as the seats. The backlight glass is made of polycarbonate, and the lightweight battery is a Lithium-ion model. Wheels are the usual size, but forged instead of cast alloy. The Sprint can be had with either a 1.6-litre naturally aspirated engine, or a 1.8-litre supercharged engine, available for the Sprint 220 version. The former has a 0–60 mph of 5.9 seconds, while the Sprint 220 can accelerate from 0–60 mph in 4.1 seconds. Dampers are uprated, as on the Elise Cup models. On 9 February 2021, Lotus unveiled two final editions line-up models of Elise on online platforms. Opening the range is the Elise Sport 240 Final Edition, which sees the existing Sport 220’s 1.8-litre supercharged four-cylinder engine uprated to develop 240 bhp and 244 Nm (180 lb/ft), permitting a zero to 100km/h time of 4.5 seconds. When fully specified with weight-saving options – namely carbon-fibre sill and engine covers, a lithium-ion starter battery and a polycarbonate rear window – the Sport 240 is the lightest car on offer, tipping the scales in at just 898kg. A set of 10-spoke forged alloy wheels fill the arches, measuring 16 inches in diameter up front and 17 inches at the rear, wrapped in Yokohama Y105 tyres. Lotus claims the new wheels are 0.5kg lighter than the examples fitted to the outgoing Sport 220. The Elise Cup 250 Final Edition features a variant of the Sport 240’s 1.8-litre four-cylinder, now tuned to produce 245 bhp and 244 Nm (180 lb/ft). Lotus claims a 4.3-second 0-100km/h sprint time. This model gets an optimised aerodynamic package allowing for 155kg of downforce at its top speed of 248km/h, along with 10-spoke M Sport forged alloy wheels, Yokohama A052 tyres, Bilstein dampers and adjustable anti-roll bars. A lightweight lithium-ion battery and polycarbonate rear window are also fitted as standard for increased weight saving, and, in top spec layout, the car weighs 931kg. The Elise story came to an end in late 2021 when production of the model ceased after 25 years.
Developed under the project name Project Eagle, this car was launched as the Evora on 22 July 2008 at the British International Motor Show. The Evora is based on the first all-new vehicle platform from Lotus Cars since the introduction of the Lotus Elise in 1995 (the Exige, introduced in 2000, and the 2006 Europa S are both derivatives of the Elise. Evora was planned to be the first vehicle of three to be built on the same platform and was the first product of a five-year plan started in 2006 to expand the Lotus line-up beyond its track-specialised offerings, with the aim of making Evora a somewhat of a more practical road car that would appeal to the mainstream. As such it is a larger car than recent Lotus models Elise and its derivatives (Exige, Europa S, etc.), with an unladen weight of 1,383 kg (3,049 lb). It is currently the only Lotus model with a 2+2 configuration, although it is also offered in a two-seater configuration, referred to as the “Plus Zero” option. It is also the only 2+2 mid engined coupé on sale. The interior is larger to allow taller persons of 6’5″ to fit. The cooled boot behind the engine is large enough to fit a set of golf clubs, although Lotus Design Head Russell Carr denies that this was intentional. Lotus intends Evora to compete with different market sectors including the Porsche Cayman. The name “Evora” keeps the Lotus tradition of beginning model names with an “E”. The name is derived from the words evolution, vogue, and aura. and it of course sounds similar to Évora, which is the name of a Portuguese city and UNESCO World Heritage Site. Sales started in summer 2009, with an annual target of 2000 cars per year, with prices between £45,000 and just over £50,000. and in America from the beginning of 2010. The Evora received several accolades at its launch from the British motoring press, including: Britain’s Best Driver’s Car 2009 from Autocar and Car of the Year 2009, from Evo. Sales, however, were far from target, as the car was seen as too costly. A more powerful Evora S was launched in 2010 with a supercharged equipped 3.5-litre V6. A facelifted and more powerful Evora 400 model was unveiled at the 2015 Geneva Motor Show.
At the Frankfurt 2011 Show, the 2012 version of the Exige S was announced. It features a supercharged 3.5 litre V6 engine (from the Evora S) rated at 345 hp. In 2013, a roadster version was introduced with only minor changes to the design for the removable top. The engine and performance were virtually unchanged from the coupe. To accommodate the V6 engine, the new model is approximately 25 cm (9.8 inches) longer and 5 cm (2.0 in) wider (exterior bodywise) than the model with the inline-four engine, being 4,052 mm (159.5 inches) long, 1,802 mm (70.9 in) wide (not counting the mirrors) and 1,153 mm (45.4 in) tall. The drag coefficient is 0.433. Since that time there have been a bewildering array of different versions and you need to be a real marque expert to tell them all apart. The policy has worked, though, as sales have remained steady whilst Lotus try to amass the finances to develop any all new models. The Exige V6 Cup is a track oriented version of the Exige S while the Exige CupR is the track-only version of Exige V6 Cup. The Exige V6 Cup is offered for sale in the United States as a track only car. If purchased, US Lotus Dealers will only provide a bill of sale instead of a title. The vehicles were unveiled at the 2013 Autosport International motor show. Limited to 50 examples, the Lotus Exige 360 Cup was revealed on 14 August 2015. The car is powered by a 3.5-liter supercharged Toyota V6 delivering 355 hp. The Lotus Exige Sport 380 is a track focused and more powerful version of the Lotus Exige lineup. It was unveiled on 23 November 2016. Lotus’ CEO, Jean-Marc Gales describes it as, “The Exige Sport 380 is so good, that it is no longer the best in class, it’s now in a class of its own”, and it fulfills this statement by taking on some of the powerful and expensive super cars both on the track and the streets. The 3.5-litre, super-charged V6 engine is now uprated and produces 375 hp and 410 Nm (302 lb/ft) of torque with a 6500 rpm red line achieved by revised supercharger and ECU. It can accelerate from 0 to 60 mph in 3.5 seconds and has a top speed of 178 mph (286 km/h). The interior is also stripped out and features necessary driver aids. The Exige Sport 380 weighs 1,076 kg (2,372 lb), thanks to the extensive use of carbon fibre on the exterior as well as the interior, the application of polycarbonate windows instead of traditional glass windows and a newly designed rear transom panel which features two rear lights instead of four. The Lotus Exige Cup 380 is a more hardcore variant of the Exige Sport 380. Performance of the car remains the same as the Sport 380 but it features more aero components and a larger rear wing to produce more downforce at high speeds. The Exige Cup 380 generates 200 kg (441 lb) of downforce at its maximum speed of 175 mph (282 km/h); the top speed is reduced due to excess downforce and more drag. It features a more stripped out interior in order to save weight and other light weight carbon fiber components, Lotus states a lowest possible dry weight of only 1,057 kg (2,330 lb). On 9 November 2017, Lotus unveiled the most powerful version of the Exige to date called the Exige Cup 430, producing 430 PS (424 hp) and using the Evora GT430’s powertrain, modified to fit in the smaller Exige. The car body can produce 220 kg (485 lb) of downforce. The Cup 430 is 19 kg (42 lb) lighter than the Sport 380 due to the use of carbon fibre in body panels and interior and a titanium exhaust. The gearbox allows quicker gearshifts than the previous model. The Cup 430 is not offered with an automatic gearbox. The Lotus Exige Cup 430 is capable of covering the Hethel circuit in 1 minute 24.8 seconds – the fastest production car to lap the circuit – 1.2 seconds faster than the road going Lotus 3-Eleven. Production ceased at the end of 2021 as Lotus looked to replace all their long-running cars with the new Emira.
Lotus’ only current product is the Emira sports car, deliveries of which were somewhat delayed but are now underway and the car is starting to become more evident at meets like this.
MASERATI
My newly acquired Grecale was making its second appearance at a car Show.
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 N⋅m (100 lbf⋅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 collector’s 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. In the UK, to celebrate Mazda’s 24 hours of Le Mans win, Mazda brought out a special edition of the MX-5, with the winner’s colour scheme (see Mazda 787B) and came equipped with BBR (Brodie Brittain Racing) turbo conversion; the car is one of the most sought after special edition cars of the MX-5s.
McLAREN
A heavily revised version of the 12C was announced in February 2014, called the 650S, with revised bodywork, upgraded engine and other technical improvements. In April 2014, McLaren announced the end of production of the 12C. The 650S is the core model in the Super Series, designed and developed to give the enthusiast driver the ultimate in luxury, engagement and excitement. Fitted with the award-winning 3.8-litre twin turbo V8 engine producing 650PS (641bhp) and 678Nm (500lb ft) of torque, it is a no compromise open-top high performance supercar with optimised levels of performance, handling and driver enjoyment. The secret of its success is its carbon fibre MonoCell chassis, which needs no extra strengthening to provide the necessary rigidity or safety when developing a convertible. This keeps any weight increase to a minimum, meaning the McLaren 650S Spider offers all the enjoyment and driver appeal of the fixed-roof sibling – but with the added appeal of roof-down driving. The 650S Spider is fitted with an electrically retractable hard top, which can be automatically raised or lowered on the move in less than 17 seconds. Building on the success of the MP4 12C, with which it shares much, the 650S series, first seen at the 2014 Geneva Show has proved very popular, helping to establish the brand as a serious rival to the established supercar players. Production ended when the even faster (and costlier) 720S arrived in 2017.
Commanding a significant price premium over the regular 650S cars, the 675LT sits in the “Super” part of the range (P1s are in the “Ultimate” collection). Those who thought that the 675LT might look little different from the “regular” 650S, with a simple elongation of the rear end underestimated the engineers at Woking, as the 675LT has a style and appearance all of its own, with lots of different detailing to distinguish it from the standard car, with carbon fibre wings and twin circular titanium exhaust pipes exposed at the rear deck to improve cooling, sitting above a new bumper and diffuser both made from carbon fibre. At the front there is a larger carbon fibre splitter and new front bumper design, aimed at improving cooling and downforce. Designed to be far more track focused than the 650S, it contains many elements aimed at improving handling and performance. The biggest difference to the way it feels is apparently down to 100kg reduction in weight, but it does also contain a significantly modified 666 bhp version of the 650S’ twin turbo 3.8 litre V8. 50% of engine parts are new, including the turbos, camshafts and connecting rods, along with detailed revisions to the cylinder heads and manifolds. As a consequence, the 0-60 time is reduced to 2.9 seconds, 0.1 seconds less than the 650S, though the top speed is slightly reduced due to the extra drag of the aerodynamic pack. 500 examples were built, and they all sold out within weeks, to the surprise of no-one, as this is a very impressive machine indeed.
Unveiled on 3 March 2020, the 765LT is a limited (765 units worldwide) version of the 720S and the successor to the 675LT as a Super Series Longtail car, focused on track performance. The M840T engine is now rated at 765 PS/755 bhp at 7,500 rpm and 590 lb/ft (800 Nm) of torque at 5,500 rpm achieved with a higher-capacity fuel pump, forged aluminium pistons and a three-layer head gasket from the Senna. The top speed is lowered from the 720S’s 341 km/h (212 mph) to 330 km/h (205 mph) due to added drag created by the added high downforce parts, although the 765LT weighs 80 kg (176 lb) less than the 720S at 1,339 kg (2,952 lb) in its lightest configuration and has a quicker 0–100 km/h (0–62 mph) time of 2.8 seconds. It also can hit 0–200 km/h (0–124 mph) in 7.0 seconds and complete a quarter-mile dash in 9.9 seconds according to McLaren. A US-spec McLaren 765LT was tested by Road & Track with a quarter-mile time of 11.6 seconds at 131.1 mph (211.0 km/h), which equates to 0–100 km/h in the high-3 range and 0–200 km/h in the mid-10 range. In addition, it stopped at 92 feet from 60-0 mph. Other testing sources such as DragTimes have recorded quarter mile times as low as 9.2 seconds and at speeds up to 152 mph. The Senna’s brake calipers are also available as an extra-cost option; McLaren claims these have four times the thermal conductivity as conventional carbon ceramics, while Pirelli Trofeo R tyres are standard. Suspension changes involve a 5 mm (0.2 in) reduction in ride height and the use of lightweight main springs with secondary “helper” units as well as an upgraded Proactive Chassis Control system. The aerodynamics are redesigned to produce 25% more downforce than the 720S, featuring front fender vents, a larger front splitter and a longer active wing element at the rear at the cost of less noise insulation, thinner-gauge glass and stiffened engine mounts. The rear of the car also features a quad-exit full titanium exhaust to distinguish it from the 720S. Production was limited to 765 cars globally with customer deliveries in October 2020.
MERCEDES-BENZ
There was a special display of AMGs here in the area surrounding the fountain. Sadly, the reason why they were all here was as a tribute for a young C63 owner who had passed away, unexpectedly a few days prior to this event. His friends thought that gathering some AMGs together and then doing a very loud tribute form their engines would be something that he would have appreciated – and so that is exactly what happened, with the whole venue pausing to reflect on such a sad and sudden departure.
Separate from the main AMG collection was this AMG GT.
Replacement for the 190SL cars of the 1950s were the “Pagoda” series of W113 cars. By 1955, Mercedes-Benz Technical Director Prof. Fritz Nallinger and his team held no illusions regarding the 190 SL’s lack of performance, while the high price tag of the legendary 300 SL supercar kept it elusive for all but the most affluent buyers. Thus Mercedes-Benz started evolving the 190 SL on a new platform, model code W127, with a fuel-injected 2.2 litre M127 inline-six engine, internally denoted as 220SL. Encouraged by positive test results, Nallinger proposed that the 220SL be placed in the Mercedes-Benz program, with production commencing in July 1957. However, while technical difficulties kept postponing the production start of the W127, the emerging new S-Class W112 platform introduced novel body manufacturing technology altogether. So in 1960, Nallinger eventually proposed to develop a completely new 220SL design, based on the “fintail” W 111 sedan platform with its chassis shortened by 11.8 in, and technology from the W112. This led to the W113 platform, with an improved fuel-injected 2.3 litre M127 inline-six engine and the distinctive “pagoda” hardtop roof, designated as 230 SL. The 230 SL made its debut at the prestigious Geneva Motor Show in March 1963, where Nallinger introduced it as follows: “It was our aim to create a very safe and fast sports car with high performance, which despite its sports characteristics, provides a very high degree of travelling comfort”. The W113 was the first sports car with a “safety body,” based on Bela Barényi’s extensive work on vehicle safety: It had a rigid passenger cell and designated crumple zones with impact-absorbing front and rear sections built into the vehicle structure. The interior was “rounded,” with all hard corners and edges removed, as in the W111 sedan. Production of the 230 SL commenced in June 1963 and ended on 5 January 1967. Its chassis was based on the W 111 sedan platform, with a reduced wheelbase by 11.8 in, recirculating ball steering (with optional power steering), double wishbone front suspension and an independent single-joint, low-pivot swing rear-axle with transverse compensator spring. The dual-circuit brake system had front disc brakes and power-assisted rear drum brakes. The 230 SL was offered with a 4-speed manual transmission, or an optional, very responsive fluid coupled (no torque converter) 4-speed automatic transmission, which was popular for US models. From May 1966, the ZF S5-20 5-speed manual transmission was available as an additional option, which was particularly popular in Italy. The 2,308 cc M127.II inline-six engine with 150 hp and 145 lb/ft torque was based on Mercedes-Benz’ venerable M180 inline-six with four main bearings and mechanical Bosch multi-port fuel injection. Mercedes-Benz made a number of modifications to boost its power, including increasing displacement from 2,197 cc, and using a completely new cylinder head with a higher compression ratio (9.3 vs. 8.7), enlarged valves and a modified camshaft. A fuel injection pump with six plungers instead of two was fitted, which allowed placing the nozzles in the cylinder head and “shooting” the fuel through the intake manifold and open valves directly into the combustion chambers. An optional oil-water heat exchanger was also available. Of the 19,831 230 SLs produced, less than a quarter were sold in the US. Looking identical, the 250 SL was introduced at the 1967 Geneva Motor Show. Production had already commenced in December 1966 and ended in January 1968. The short one-year production run makes the 250 SL the rarest of the W113 series cars. The 250 SL retained the stiffer suspension and sportier feel of the early SLs, but provided improved agility with a new engine and rear disc brakes. Range also improved with increased fuel tank capacity from 65 litres to 82. Like its predecessor, the 250 SL was offered with a 4-speed automatic transmission, and 4-speed or ZF 5-speed manual transmissions. For the first time, an optional limited slip differential was also available. The main change was the use of the 2,496 cc M129.II engine with a larger stroke, increased valve ports, and seven main bearings instead of four. The nominal maximum power remained unchanged at 150 hp, but torque improved from 145 lb/ft to 159 lb/ft. Resiliency also improved with a new cooling water tank (“round top”) with increased capacity and a standard oil-water heat exchanger. The 250 SL also marked the introduction of a 2+2 body style, the so-called “California Coupé”, which had only the removable hardtop and no soft-top: a small fold-down rear bench seat replaced the soft-top well between passenger compartment and boot. It is estimated that only 10% of the 250SLs that were brought into America were California Coupes. Of the 5,196 250 SLs produced, more than a third were sold in the US. The 280 SL was introduced in December 1967 and continued in production through 23 February 1971, when the W 113 was replaced by its successor, the entirely new and substantially heavier R107 350 SL. The main change was an upgrade to the 2,778 cc M130 engine with 170 hp and 180 lb/ft, which finally gave the W 113 adequate power. The performance improvement was achieved by increasing bore by 4.5 mm (0.2 in), which stretched the limits of the M180 block, and required pairwise cylinder casts without cooling water passages. This mandated an oil-cooler, which was fitted vertically next to the radiator. Each engine was now bench-tested for two hours prior to being fitted, so their power specification was guaranteed at last. The M130 marked the final evolution of Mercedes-Benz’ venerable SOHC M180 inline-six, before it was superseded by the entirely new DOHC M110 inline-six introduced with R107 1974 European 280 SL models. For some time, it was also used in the W 109 300 S-Class, where it retired the expensive 3 liter M189 alloy inline-six. Over the years, the W 113 evolved from a sports car into a comfortable grand tourer, and US models were by then usually equipped with the 4-speed automatic transmission and air conditioning. Manual transmission models came with the standard 4-speed or the optional ZF 5-speed, which was ordered only 882 times and thus is a highly sought-after original option today. In Europe, manual transmissions without air conditioning were still the predominant choice. Of the 23,885 280 SLs produced, more than half were sold in the US.
Mercedes-Benz introduced the W123 four-door versions on 29 January 1976. While there were some technical similarities to their predecessors, the new models were larger in wheelbase and exterior dimensions. The styling was also updated, although stylistic links with the W114 / W115 were maintained. Initially, all models except 280/280E featured quad unequal-size round headlights and the latter large rectangular units. When facelifted, these units became standard across the range. All W115 engines were carried over, with the 3-litre 5-cylinder diesel model being renamed from “240D 3.0” to “300D” (as it had already been called before in North American markets). The only new engine was the 250’s 2,525 cc inline-six (Type M123, a short-stroke version of the 2.8-litre six Type M110) that replaced the old 2,496 cc Type M114 “six”. In the spring of 1976, a Coupé version was introduced on a shorter wheelbase than the saloon (106.7 in versus 110.0 in. This W123C/CE was available as a 230C (later 230CE) and as a 280C/CE in most markets; in North America there were additional 300CD versions with naturally aspirated, later turbocharged 3-litre diesel engines. In North America, buyers favored diesel engines for upmarket cars, while CAFE legislation meant that Mercedes-Benz North America had to lower their corporate average fuel economy. This led to the introduction of a few diesel models only sold in the United States. It is a tribute to the car’s instant popularity – and possibly to the caution built into the production schedules – that nine months after its introduction, a black market had developed in Germany for Mercedes-Benz W123s available for immediate delivery. Customers willing to order new cars from their local authorised dealer for the recommended list price faced waiting times in excess of twelve months. Meanwhile, models that were barely used and were available almost immediately commanded a premium over the new price of around DM 5,000. From August 1976, long-wheelbase versions (134.8 in) were produced. These were available as 7/8 seater saloons with works bodies or as a chassis with complete front body clip, the latter serving as the base for ambulance and hearse bodies by external suppliers like Binz or Miesen. These “Lang” versions could be ordered as 240D, 300D and 250 models. At the Frankfurt Auto Show in September, 1977 the W123T estate was introduced; the T in the model designation stood for “Touring and Transport”. All engines derivative except “200TD” were available in the range. T production began in March, 1978 in Mercedes’ Bremen factory. It was the first factory-built Mercedes-Benz estate, previous estates had been custom-built by external coachbuilders, such as Binz. In early 1979, the diesel models’ power output was increased; power rose from 54 hp to 59 hp in the 200D, from 64 hp to 71 hp in the 240D and from 79 hp to 87 hp in the 300D; at the same time, the 220D went out of production. The first Mercedes turbo diesel production W123 appeared in September, 1981. This was the 300 TD Turbodiesel, available with automatic transmission only. In most markets, the turbocharged 5-cylinder 3-litre diesel engine (Type OM617.95) was offered only in the T body style, while in North America it was also available in saloon and coupé guises. June 1980 saw the introduction of new four-cylinder petrol engines (Type M102). A new 2-litre four with shorter stroke replaced the old M115, a fuel-injected 2.3-litre version of this engine (in 230E/TE/CE) the old carburettor 230. Both engines were more powerful than their predecessors. In 1980/81, the carburettor 280 versions went out of production; the fuel-injected 280E continued to be offered. In September 1982, all models received a mild facelift. The rectangular headlights, previously fitted only to the 280/280E, were standardised across the board, as was power steering. Since February 1982, an optional five-speed manual transmission was available in all models (except the automatic-only 300 turbodiesel). W123 production ended in January, 1986 with 63 final T-models rolling out. Most popular single models were the 240D (455,000 built), the 230E (442,000 built), and the 200D (378,000 built). The W123 introduced innovations including ABS (optional from August, 1980), a retractable steering column and an airbag for the driver (optional from 1982). Power (vacuum servo) assisted disc brakes were standard on all W123s. Available options included MB-Tex (Mercedes-Benz Texturized Punctured Vinyl) upholstery or velour or leather upholstery, interior wood trim, passenger side exterior mirror (standard on T models), 5-speed manual transmission (European market only), 4-speed automatic transmission (standard in turbodiesel models), power windows with rear-seat switch cut-outs, vacuum powered central locking, rear-facing extra seats (estate only), Standheizung (prestart timer-controlled engine heating), self-locking differential, sun roof, air conditioning, climate control, “Alpine” horn (selectable quieter horn), headlamp wipers (European market only), Tempomat (cruise control), power steering (standard after 1982/08), seat heating, catalytic converter (available from 1984 for California only, from fall (autumn) 1984 also in Germany for the 230E of which one thousand were built). These days, the cars are very popular “youngtimer” classics, with all models highly rated.
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 manoeuvrability. 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
The post-war TC was replaced in 1950 by the TD, which combined the TC’s drivetrain, a modified hypoid-geared rear axle, the MG Y-type chassis, a familiar T-type style body and independent suspension using coil springs from the MG Y-type saloon. A 1950 road-test report described as “most striking” the resulting “transformation … in the comfort of riding”. Also lifted from the company’s successful 1¼-litre YA saloon for the TD was the (still highly geared) rack and pinion steering. In addition the TD featured smaller 15-inch disc type road wheels, a left-hand drive option and standard equipment bumpers and over-riders. The car was also 5 inches wider with a track of 50 inches. For the driver the “all-weather protection” was good by the standards of the time. For night driving, instrument illumination was “effective but not dazzling, by a pale green lighting effect”. There was still no fuel gauge, but the 12 gallon tank capacity gave a range between refuelling stops of about 300 miles and a green light on the facia flashed a “warning” when the fuel level was down to about 2½ gallons. In 1950 the TD MkII Competition Model was introduced, produced alongside the standard car, with a more highly tuned engine using an 8.1:1 compression ratio giving 57 bhp at 5,500 rpm. The higher compression ratio engine was offered with export markets in mind, and would not have been suitable for the UK, where thanks to the continued operation of wartime fuel restrictions, buyers were still limited to 72 octane “Pool petrol”. The TD MkII also featured twin fuel pumps, additional Andrex dampers, and a higher ratio rear-axle. Nearly 30,000 TDs had been produced, including about 1700 Mk II models, when the series ended in 1953 with all but 1656 exported, 23,488 of them to the US alone.
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.
In advance of the all-new MX5 rival that was still some way off production, MG decided to re-enter the open topped sports car market in 1992 when they launched the MGR V8, which combined new body panels with the standard MGB body shell to create an updated MGB model. The suspension was only slightly updated, sharing the leaf spring rear of the MGB. The boot lid and doors were shared with the original car, as were the rear drum brakes. The engine was the 3.9-litre version of the aluminium Rover V8, similar to the one previously used in the MGB GT V8. A limited-slip differential was also fitted. The interior featured veneered burr elm woodwork and Connolly Leather. The engine produced 190 bhp at 4,750 rpm, achieving 0–60 mph in 5.9 seconds, which was fast but largely due to the rear drum brakes and rear leaf springs, the RV8 was not popular with road testers at the time. A large proportion of the limited production went to Japan – 1579 of the 2000 produced. Only 330 RV8s were sold initially in the UK, but several hundred (possibly as many as 700) of these cars were re-imported back to the UK and also Australia between 2000–2010 with a peak number of 485 registered at the DVLA in the UK.
MINI
A rare Mini present was one of the Cabriolet models. Although there had been conversions done before – notably by Crayford in the early 1960s – this was the first one that was sold new through Austin-Rover dealers. It dates from 1991. Initially, 100 cars were produced by LAMM Autohaus, with their own body kit on the car, and they were all painted in Cherry red. A further 25 were ordered, before Rover committed to a greater volume, and in a wider variety of colours. They were based on the Cooper, and had upgraded trim, with a leather steering wheel, and wood-grained dash, door cappings and gear knob as well as bespoke badging, to help to justify the rather steep price tag of £12,250.
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. It formed part of the range until production of all Issigonis Minis ended in 2000.
Also here, in part of the row of yellow cars was an example of the current, and much larger MINI.
MITSUBISHI
This is a Lancer Evo VI, of the type which was produced between January 1999 and February 2001. Based on the Lancer saloon, the Evo kept pace with changes to that model, so the Evo IV, seen in 1996 had been a new model compared to the first three Evo generations. Evo IV, V and VI were all broadly similar with detailed changes coming with each new iteration. The Evolution VI’s changes mainly focused on cooling and engine durability. It received a larger intercooler, larger oil cooler, and new pistons, along with a titanium-aluminide turbine wheel for the RS model, which was a first in a production car. The Evolution VI received new bodywork yet again, with the most easily noticeable change being within the front bumper where the huge fog lights were reduced in size and moved to the corners for better airflow. A new model was added to the GSR and RS lineup; known as the RS2, it was an RS with a few of the GSR’s options. Another limited-edition RS was known as the RS Sprint, an RS tuned by Ralliart in the UK to be lighter and more powerful with 330 hp. Yet another special edition Evolution VI was released in December 1999: the Tommi Mäkinen Edition, named after Finnish rally driver Tommi Mäkinen who had won Mitsubishi four WRC drivers championships. It featured a different front bumper, Red/Black Recaro seats (with embossed T. Mäkinen logo), 17″ Enkei white wheels, a leather Momo steering wheel and shift knob, a titanium turbine that spooled up more quickly, front upper strut brace, lowered ride height (with tarmac stages in mind), and a quicker steering ratio. Amongst other colours, the Evo VI came in either red (Tommi Mäkinen Edition only), white, blue, black or silver with optional special decals, replicating Tommi Mäkinen’s rally car’s colour scheme. This car is also sometimes referred to as an Evolution 6½, Evolution 6.5, or TME for short. There were two “standard” models. The RS – “rally sport” had a close-ratio 5-speed, minimal interior, rally suspension, Rear 1.5 Way LSD as opposed to AYC, (Shortened close-ratio 5-speed transmission, Optional Enkei Wheels, Optional Recaro Seats, Optional Air Conditioner, Optional Brembo brakes, Optional power windows). The GSR came with a 5-speed, gauge pack, AYC (Active Yaw Control), Anti-Lock Braking System, Recaro front bucket and rear seat, auto air-conditioner, double-din audio, power windows, Brembo brakes. The Tommi Mäkinen Edition Models also came in RS and GSR guise. The RS was the same as the standard RS with close-ratio 5-speed, lowered ride height, Tommi Mäkinen Edition front bumper, and titanium turbine (same option with standard RS) and the GSR was the same as the standard GSR with lowered ride height, Tommi Mäkinen Edition front bumper, Red/Black Recaro seats (with embossed T. Mäkinen logo), 17″ Enkei white wheels and titanium turbine. These cars were fearsomely expensive to run, and as such, you don’t see them very often any more.
MORGAN
The Morgan Aero 8 is a sports car built by Morgan Motor Company at its factory in Malvern Link, England 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. Announced in 2000, 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. In response, Morgan changed the design from 2005 (Series 3 and all subsequent Aero iterations), using Mini rather than VW New Beetle headlights. Morgan’s first supercar, the first run of Aero models was unveiled at the Geneva Motor Show in 2000 by Charles Morgan, it was in his words “the result of the biggest development project ever undertaken by the Morgan Motor Company”. The result of many years of hard work, a development programme that included racing in the FIA GT series and a partnership with BMW. Whilst the car structure comes as pre-formed bonded aluminium elements significant work goes into hand making the overall vehicle continuing the handmade history of the company. The method of building the car was ahead of most companies in the marketplace and represented a dramatic shift for the company. The bonded aluminium chassis has elements of an ash frame to provide a link to the more traditional cars. It was designed by Chris Lawrence who had a long-standing relationship with Morgan and included many features of racing cars of the time. Items such as in-board shock absorbers, double wishbones all round, a flat floor, centre lock magnesium wheels, rose-jointed suspension and other elements were included providing significant handling improvements over previous models. Complete with a bespoke aluminium chassis, all independent suspension and powered by a 4.4 litre BMW V8 engine (M62TUB44) producing 286 bhp at 5500 rpm and 322 lb/ft (430 Nm) at 3750 rpm this was a radical departure from the traditionally built Morgans. Performance was 0 to 62 mph in 4.8 seconds with a top speed of 160 mph (257 km/h). The interior had a turned aluminium dashboard, unusual asymmetric design and a custom made Mulberry case for use as a removable glovebox, along with nods to modern services such as cruise control, air-conditioning and a heated windscreen. With many elements from BMW including the engine, gearbox and axle to push 1100 kg the performance was on a par with Ferraris, Porsches, TVRs and other supercars of the day. Whilst the car did include an LSD the absence of other stability and traction aids mean the driver had total control over the car. Famous for its cross-eyed squint courtesy of the reversed VW Beetle headlamps, this was a culmination of both aerodynamic requirements and availability of light units at the time. Initially Porsche lights had been trialled along with the yet to be released new Mini units, the Mini lights were a favourite but BMW didn’t want the first model to launch their new headlights to be the Aero so these were not an option. Aerodynamically (extensive wind tunnel testing was carried out at MIRA – another Morgan first) Morgan needed a way to allow the leading edge of the front wings to be forward of the radiator, thus providing space to incorporate a front splitter. The VW Beetle headlamps were spotted by Chris Lawrence who envisaged reversing them to give the perfect angle to meet the aerodynamic requirements, and thus the cross-eyed look was born. Around 210 Series 1 cars were made with many smaller changes being made to the car over this period internally and externally.
NISSAN
This car was known in the UK as the 240SX, but back home it was from the long-lived Silvia line. The S14 Silvia debuted in Japan towards the end of 1993. It was lower and wider than the S13. New rounded styling contributed to the illusion of a greater increase in size than actually occurred. Wheelbase and track were both increased, leading to slightly improved handling. Unlike export markets, where sales of the S14 chassis variants faltered, the Silvia remained popular in Japan. However, the width dimension exceeded 1,700 mm (67 in), which pushed this generation out of the compact class tax bracket and made Japanese buyers liable for higher road taxes. Sales of the S14 also faltered because specialty car buyers at the time were moving to RVs and SUVs. The fastback and convertible bodystyles were discontinued internationally, leaving only the coupé in production. Trim level designations were similar to the S13, however the Club Selection package was dropped. “Aero” variants of the Q’s and K’s were offered that featured large rear wings and mild ground effects. The S14 Silvia K’s received a new version of the SR20DET, with a slight bump in power due to the implementation of Nissan’s variable cam timing system known as N-VCT, on the intake cam, and a larger T28 turbocharger. The engine now produced 220 PS (217 hp) at 6000 rpm and 274 Nm (202 lb/ft) of torque at 4800 rpm. There was a mild styling update to the S14 during 1996, which added aggressive-looking projector headlamps and tinted taillights to all models. The older version is known as the zenki (前期, literally “prior period”). Fascias and other exterior trim pieces were also revised. The turbocharger now used a more efficient ball bearing center section. This updated version is also known as the kouki (後期, literally “later period”) S14, or by enthusiasts as the S14A. It was sold as the second generation 240SX in North America from 1995 to 1998, equipped with the non-turbo KA24DE engine. The final model year of S14 production in all markets was 1999, called the Touring Model, which had a better engine block, pistons, and better acceleration in lower gears.
The N14 series Pulsar saw the introduction of the GTI-R three-door hatchback (sold in Japan as a Pulsar with chassis code E-RNN14, and sold in Europe as a Sunny with chassis code EGNN14). This was a homologation variant produced between 1990 and 1994 in order to enter the WRC under Group A rules.[48] It featured a turbocharged 2.0-litre SR20DET engine producing 230 PS/227 hp and 280 Nm (210 lb/ft). The body is largely the same as the standard N14 three-door model, but distinguished by the large rear wing and bonnet scoop. It has an ATTESA all-wheel drive system and a unique variant (coded 54C) of the SR20DET engine. With a power-to-weight ratio of 0.083 weighing 1,220 kg (2,690 lb) and all-wheel-drive, the standard GTI-R is able to accelerate from 0–100 km/h in 5.4 seconds, cover the standing quarter-mile in 13.5 seconds,and reach a (manufacturer claimed) top speed of 232 km/h (144 mph).
The Nissan 370Z (known as the Fairlady Z Z34 in Japan) is a 2-door, 2-seater sports car (S-segment in Europe) manufactured by Nissan Motor Company. It was announced on October 29, 2006, and was first shown at an event in Los Angeles ahead of the 2008 Greater LA Auto Show, before being officially unveiled at the show itself. The 370Z is the sixth generation of the Nissan Z-car line, succeeding the 350Z. The 370Z marks the last production car with a naturally aspirated and high-rev V6 coupled to a manual transmission. Almost every piece and component of the 370Z has been redesigned from the previous 350Z. The wheelbase is 4 in (100 mm) shorter at 100.4 in (2,550 mm) and an overall length 2.7 in (69 mm) shorter at 167.1 in (4,240 mm). The overall width has been increased by 1.3 in (33 mm), the rear track by 2.2 in (56 mm), and overall height reduced by 0.3 in (7.6 mm). The smaller exterior dimensions and use of more lightweight materials helped reduce weight. The 370Z features a front aluminium subframe, aluminium-alloy engine cradle, aluminium door panels, an all-aluminium hood, and an aluminium hatch. Front body torsional rigidity is improved by 10 percent with an extensively revised body structure, which includes a new front suspension cradle to reduce front body lateral bending, new rear structural reinforcements, and an underbody “V-bar” to help reduce rear lateral bending. Rear body torsional rigidity is improved by up to 22 percent and rear body vertical bending rigidity is improved by up to 30 percent. Additional enhancements include the use of a carbon fibre composite radiator housing and strengthening of the rear fender and hatch areas. The new structure weighs slightly less than the 350Z. The 370Z uses a front double wishbone suspension, with forged aluminium control arms and steering knuckle. The rear multi-link suspension uses a forged aluminium upper control arm, lower arm and radius rod, the toe control rod is steel and wheel carrier assembly is aluminium. The refreshed 2013 model uses new dampers with the Sport package models. The brakes have been changed from the more expensive Brembo racing brakes to Nissan branded brakes which are manufactured by Akebono. The coefficient of drag is 0.30 and 0.29 with the Sport Package, figures identical to the 350Z. The Japanese model of the 370Z Coupe went on sale in December 1, 2008. The vehicle was unveiled in the 2008 Los Angeles Auto Show, with sales of the North American model beginning at Nissan dealers in early 2009. Standard and optional equipment includes 19-inch RAYS wheels, Bluetooth, Sirius/XM satellite radio, heated electric seats, viscous limited slip differential, Bose sound system with dual subwoofers and 6-CD changer, and automatic climate control. Deliveries of the European model began in April 2009. There was also an open-topped car, the 370Z Roadster which went on sale in late summer 2009 as 2010 model year vehicle. Early models include the 370Z and 370Z Touring, with Sport Package and Navigation packages for the 370Z Touring. European models went on sale as 2010 model year vehicles. Although there were numerous limited edition models that followed, the car changed little over the next several years. The 2020 model year was the final model year for the 370Z. The line was continued by the Nissan Z (RZ34) on a modified version of the same platform
Final Nissans here were examples of the long running R35 generation GT-R.
NOBLE
Follow on to the Noble M10, the M12 was a two-door, two-seat model, originally planned both as a coupe and as a convertible. All M12s were powered by modified bi-turbocharged Ford Duratec V6 engines. There was a full steel roll cage, steel frame, and G.R.P. (fibreglass) composite clam shell body parts. Although looking to be track derived, the M12 was street-legal, ready for both road and track. The M12 has no anti-roll bars on the car, allowing for a comfortable feel. The coupe evolved through four versions of Noble cars, with the 425 bhp M400 as the ultimate version of the M12, following the first 2.5 litre 310 bhp car, the 352 bhp 3 litre GTO-3 and the GTO-3R. The car was sold in the US, where it proved quite popular, with 220 GTO-3Rs and M400s sold there. US production rights were sold in February 2007 to 1G Racing from Ohio. Due to high demand of these cars, 1G Racing (now Rossion Automotive) released its own improved car based on the M400, named Rossion Q1. Another company which is also producing a model developed from the M12 is Salica Cars 1 with their Salica GT and Salica GTR.
OPEL
There were two distinct generations of Manta, the car that Opel conceived to compete against the Ford Capri. The second, the Manta B, in Opel speak lasted far longer than the first. It was launched in August 1975. This two-door “three-box” car was mechanically based directly on the then newly redesigned Opel Ascona, but the overall design was influenced by the 1975 Chevrolet Monza. The Manta had more “sporty” styling, including a droop-snoot nose not seen on the Ascona, which was similar to the UK equivalent, the Cavalier Mk1. Engines were available ranging from the small 1.2-litre OHV engine, the 1.6-litre CIH and the 1.9-litre CIH. Also in 1976 the GT/E engine from the Manta A series was adapted into the Manta B programme spawning the GT/E Manta B series. In 1979 the GT/E had the engine replaced with the new 2.0 litre CIH and with a new designed Bosch L injection system. Power output was now 108 hp. The 1.9-litre engine gave way to the 2.0 litre S engine which was aspirated by a Varajet II carburettor. This engine was the most used engine by Opel at the time, and was to be found in several Opel Rekord cars. In 1978, a three-door hatchback version appeared to complement the existing two-door booted car. This shape was also not unique, being available on the Vauxhall Cavalier Sports Hatch variant. Both Manta versions received a facelift in 1982, which included a plastic front spoiler, sideskirts for the GT/E and GSi models, a small wing at the rear and quadruple air intakes on the grille. Also the 1.2-, 1.6- and 1.9-litre engines were discontinued and replaced by the 1.3-litre OHC engine, the 1.8-litre OHC and the 2.0-litre S and E CIH engines (although the 75 PS 1.9N continued to be available in a few markets). The GT/E was renamed and was called the GSi from 1983 (except in the UK where the GT/E name continued). Production of the Manta continued well after the equivalent Ascona and Cavalier were replaced by a front-wheel-drive model “Ascona C”. The Vauxhall Cavalier Mk1 Sportshatch and Coupe did not continue past 1981, and there were no coupe versions the MK2 Cavalier range. In 1982 the 1.8-litre Opel Family II engine from the Ascona C was fitted in the Manta B (replacing the CIH unit) making a more economical Manta B to drive. It could run 14 km per litre and use unleaded fuel. The 1.8 was very popular and was in production for 5 years (1982–1987). The 2.0S models where discontinued in 1984 and only the GSi was available with the “large” engine (GT/E in the UK). In 1986 Opel released the last Manta B model the Exclusive (1987 in the UK), giving it all of the best in equipment. Recaro seats with red cloth, grey leather like interior and the full bodypack known from the i200 models. This consisted of twin round headlights in a plastic cover, front spoiler and rear lower spoiler from Irmscher, sideskirts and the known 3 split rear spoiler of the Manta 400 (producing 80 kg (176 lb) of weight on the rear at 200 km/h). In the UK, the Exclusive GT/E models were available in colours such as Dolphin Grey with matching dark grey cloth seats with red piping. These also had the quad headlights, front spoiler but a rear bumper which housed the number plate, coupled with a black plastic strip between the rear light clusters. The rear spoiler was similar to the standard GT/E. Opel finally ceased the production of the Manta B in 1988, only producing the GSi version after 1986 (it was sold as the GT/E in the UK). Its successor, the Calibra – sold as a Vauxhall in Britain, and as an Opel everywhere else – was launched in 1989. The car seen here was a GT/E.
PEUGEOT
A cabriolet version of the 205, known as the CJ (or CT in France), was designed and partially assembled by Pininfarina of Italy. A CTi version, with the same plastic arches and wheels as the 1.6 GTI was also available. Only minor changes were made to the car in the next few years, with the most obvious visual change being the switch to grey bumpers and trim from black ones in 1990, along with revised lights. A new dashboard had been incorporated across the entire 205 range a couple of years before this. Sales of the GTI in the UK in the early 1990s were badly hit by soaring insurance premiums, brought about by high theft and ‘joyriding’ of cars of this sort. Increasingly stringent emissions regulations meant the 1.6 GTi went out of production in 1992, while the 1.9 litre was sold for a couple more years thanks to re-engineering of the engine to enable it to work properly with a catalytic converter, which dropped power to 122 bhp. Many of them had a hard life, but there are some nice original cars out there and people are starting to spend serious money in restoring them.
The 309 had been conceived as Projet C28 as a replacement for the Talbot Horizon, and as a result its development had been performed by the former Chrysler/Simca wing of PSA. Styling was the responsibility of the former Chrysler-Rootes design studios in Coventry, whilst much of the engineering was done at the Simca site at Poissy in France. The only stipulation from PSA management was that the new car had to use as much existing architecture as possible; hence the use of a stretched Peugeot 205 floorpan and door shells, whilst the Simca engines and transmissions from the Horizon were also carried over. The 309’s design was presaged by the 1982 Peugeot VERA Plus (followed by the VERA Profil in 1985), which were aerodynamic studies developed by Peugeot at the time. The VERA Plus claimed a Cw of only 0.22. Many of the aerodynamic features from the VERA studies found their way into later production Peugeots. Production in France began at the former Simca plant in Poissy in the end of summer 1985, with the first French customers getting their cars in October of that year; but it was decided that RHD models would be built at the Ryton plant near Coventry, which had previously been owned by the Rootes Group and then Chrysler Europe before Peugeot took it over in 1978. The first 309 for the British market rolled off the production line at Ryton in October 1985, and sales began the beginning of 1986, although left-hand drive sales of the Poissy built models began in France in October 1985. The only bodywork available originally was the five-door hatchback. The 309 was not intended to replace Peugeot’s own model, the 305, but the out of step model number (the next small family car after the 305 should have been named “306” which eventually launched in 1993) was intended to distance it from the larger 305 in the marketplace and to reflect the car’s Simca origins. It was also the first Peugeot badged hatchback of this size. With the Talbot brand being phased out on passenger cars, the 309 would succeed the Talbot Horizon. Peugeot had been considering a new Talbot Samba based on the forthcoming Citroën AX supermini, but the success of the Peugeot 205 meant that there was little need for a third supermini within the PSA combine, and so the Samba was discontinued in 1986 with no replacement. The larger Alpine hatchback and Solara saloons were also axed in 1986, a year before Peugeot began production of the similar sized 405, successor to the 305. The 309’s slightly awkward styling (especially when compared with the 205 and 405 of the same era) was due to the decision to reuse the door shells from the 205. The 309 was also originally intended to be differentiated from Peugeot as a Talbot, and was designed “inhouse”. Other Peugeot cars of the time were designed by the famed Italian design house Pininfarina, up until the introduction of the 206 in 1998. The notched hatchback design bears an unintentional similarity to the Dodge Shadow and Plymouth Sundance, which were also developed (entirely separately and cut down from a larger [Chrysler K-Car] platform rather than stretched from a smaller one) to replace the Horizon in North America. The initial engine line up in the United Kingdom market consisted of the chain driven Simca derived 1118 cc (E1A) and 1294 cc (G1A) overhead valve petrol units from the Horizon, and Peugeot provided 1580/1905 cc petrol belt driven overhead camshaft XU units. Spanish-built cars also used the 1442 cc (Y2) and 1592 cc (J2) “Poissy engine”, as seen previously in the Simca 1307 and Solara as well as the Horizon, instead of the 1580 cc OHC. In July 1986 the first diesels arrived, the 1905 cc, 65 PS PSA XUD engined GLD, GRD, followed by the SRD in 1987. Certain export markets also received a 60 PS 1769-cc version of this engine from the beginning. In France, the smaller diesel option only arrived in 1992. With 305 sales dropping considerably, the 309 range was expanded considerably in February 1987, when the three-door bodystyle was added. In line with Peugeot’s naming policy of the time, five-door models generally have equipment levels beginning with the letter G, while three-doors begin with the letter X. Other important new models was the XU 1905 cc-engined high performance GTI version of the 309; this quickly established itself as one of the class leading hot hatch of its time, thanks to very quick acceleration and a better balanced chassis set-up than the already-excellent handling Peugeot 205 GTI. Other new versions in 1987 were the new Automatic (only with five doors) and the XA and XAD two-seater vans which arrived in February. Largely due to its partially British origins, the Peugeot 309 became a popular choice in the United Kingdom, and in 1987, it was joined on the production line by the larger 405. The 309’s successor, the 306, was also built at Ryton, as was the 206, which was the last vehicle in production there when the plant closed in December 2006. The summer of 1989 saw the introduction of the Phase 2 Peugeot 309. It revised the design of the rear, lowering the boot lip, changing the rear lights to a more ‘smoked style’ and making slight alterations to the front radiator grille. Also, an updated interior was required to address severe criticisms levelled at the Phase 1’s, Talbot designed multi piece dashboard which was prone to developing squeaks and rattles. The GTi models received a colour coded one piece rear spoiler as opposed to the Phase 1’s outdated rubber spoiler which, by then, harked back to early 1980s design. Quite importantly a modified gearbox called ‘BE3’ was introduced, a revision of the original ‘BE1’ unit, placing reverse in the “down and to the right” position behind fifth gear, as opposed to the earlier “up and to the left” position next to first gear. Retrospectively, the ‘BE3’ gearboxes are slightly less prone to failure than their earlier counterparts. This was also when Peugeot gradually phased in their, all new, belt driven TU Series overhead camshaft engines, in 1,124 cc and 1,360 cc forms, eventually replacing the trusty Simca units during 1992. The GTi 16 model, featuring the XU9J4 engine from the 405 Mi16, was also introduced at this time; however, these were only sold in mainland Europe. Towards the end of 1992, production of the 309 began to wind down in anticipation for the launch of the new Peugeot 306, returning Peugeot to their normal numbering scheme. In July 1993, the 309 lineup was severely reduced and only the two Vital (petrol or diesel) models remained on sale until December. In total, 1,635,132 Peugeot 309s were built between 1985 and 1993. As of 2018, only 481 Peugeot 309s remained on the roads in the United Kingdom, with another 1,378 registered being kept off the road as SORN.
PORSCHE
The 911 continued to evolve throughout the 1960s and early 1970s, though changes initially were quite small. The SC appeared in the autumn of 1977, proving that any earlier plans there had been to replace the car with the front engined 924 and 928 had been shelved. The SC followed on from the Carrera 3.0 of 1967 and 1977. It had the same 3 litre engine, with a lower compression ratio and detuned to provide 180 PS . The “SC” designation was reintroduced by Porsche for the first time since the 356 SC. No Carrera versions were produced though the 930 Turbo remained at the top of the range. Porsche’s engineers felt that the weight of the extra luxury, safety and emissions equipment on these cars was blunting performance compared to the earlier, lighter cars with the same power output, so in non-US cars, power was increased to 188 PS for 1980, then finally to 204 PS. However, cars sold in the US market retained their lower-compression 180 PS engines throughout. This enabled them to be run on lower-octane fuel. In model year 1980, Porsche offered a Weissach special edition version of the 911 SC, named after the town in Germany where Porsche has their research centre. Designated M439, it was offered in two colours with the turbo whale tail & front chin spoiler, body colour-matched Fuchs alloy wheels and other convenience features as standard. 408 cars were built for North America. In 1982, a Ferry Porsche Edition was made and a total of 200 cars were sold with this cosmetic package. SCs sold in the UK could be specified with the Sport Group Package (UK) which added stiffer suspension, the rear spoiler, front rubber lip and black Fuchs wheels. In 1981 a Cabriolet concept car was shown at the Frankfurt Motor Show. Not only was the car a true convertible, but it also featured four-wheel drive, although this was dropped in the production version. The first 911 Cabriolet debuted in late 1982, as a 1983 model. This was Porsche’s first cabriolet since the 356 of the mid-1960s. It proved very popular with 4,214 sold in its introductory year, despite its premium price relative to the open-top targa. Cabriolet versions of the 911 have been offered ever since. 911 SC sales totalled 58,914 cars before the next iteration, the 3.2 Carrera, which was introduced for the 1984 model year. Coupe models outsold the Targa topped cars by a big margin.
The 996 was replaced with the 997 in 2005. It retains the 996’s basic profile, with an even lower 0.28 drag coefficient, but draws on the 993 for detailing. In addition, the new headlights revert to the original bug-eye design from the teardrop scheme of the 996. Its interior is also similarly revised, with strong links to the earlier 911 interiors while at the same time looking fresh and modern. The 997 shares less than a third of its parts with the outgoing 996, but is still technically similar to it. Initially, two versions of the 997 were introduced— the rear-wheel-drive Carrera and Carrera S. While the base 997 Carrera had a power output of 321 hp from its 3.6 L Flat 6, a more powerful 3.8 L 350 hp Flat 6 powers the Carrera S. Besides a more powerful engine, the Carrera S also comes standard with 19 inch “Lobster Fork” style wheels, more powerful and larger brakes (with red calipers), lowered suspension with PASM (Porsche Active Suspension Management: dynamically adjustable dampers), Xenon headlamps, and a sports steering wheel. In late 2005, Porsche introduced the all-wheel-drive versions to the 997 lineup. Carrera 4 models (both Carrera 4 and Carrera 4S) were announced as 2006 models. Both Carrera 4 models are wider than their rear-wheel-drive counterparts by 1.76 inches (32 mm) to cover wider rear tyres. The 0–100 km/h (62 mph) acceleration time for the Carrera 4S with the 350 hp engine equipped with a manual transmission was reported at 4.8 seconds. The 0–100 km/h (62 mph) acceleration for the Carrera S with the 350 hp was noted to be as fast as 4.2 seconds in a Motor Trend comparison, and Road & Track has timed it at 3.8 seconds. The 997 lineup includes both 2- and 4-wheel-drive variants, named Carrera and Carrera 4 respectively. The Targas (4 and 4S), released in November 2006, are 4-wheel-drive versions that divide the difference between the coupés and the cabriolets with their dual, sliding glass tops. The 997 received a larger air intake in the front bumper, new headlights, new rear taillights, new clean-sheet design direct fuel injection engines, and the introduction of a dual-clutch gearbox called PDK for the 2009 model year. They were also equipped with Bluetooth support. The change to the 7th generation (991) took place in the middle of the 2012 model year. A 2012 Porsche 911 can either be a 997 or a 991, depending on the month of the production.
The 991 introduced in 2012 is an entirely new platform, only the third since the original 911. Porsche revealed basic information on the new Carrera and Carrera S models on 23 August 2011. The Carrera is powered by a 350 hp 3.4-litre engine. The Carrera S features a 3.8-litre engine rated at 400 hp. A Power Kit (option X51) is available for the Carrera S, increasing power output to 430 hp. The new 991’s overall length grows by 56 mm (2.2 in) and wheelbase grows by 99 mm (3.9 in) (now 96.5 in.) Overhangs are trimmed and the rear axle moves rearward at roughly 76 mm (3 in) towards the engine (made possible by new 3-shaft transmissions whose output flanges are moved closer to the engine). There is a wider front track (51 mm (2 in) wider for the Carrera S). The design team for the 991 was headed by Michael Mauer. At the front, the new 991 has wide-set headlights that are more three-dimensional. The front fender peaks are a bit more prominent, and wedgy directionals now appear to float above the intakes for the twin coolant radiators. The stretched rear 3/4 view has changed the most, with a slightly more voluminous form and thin taillights capped with the protruding lip of the bodywork. The biggest and main change in the interior is the center console, inspired by the Carrera GT and adopted by the Panamera. The 991 is the first 911 to use a predominantly aluminium construction. This means that even though the car is larger than the outgoing model, it is still up to 50 kilograms (110 lb) lighter. The reduced weight and increased power means that both the Carrera and Carrera S are appreciably faster than the outgoing models. The 0–60 mph acceleration time for the manual transmission cars are 4.6 seconds for the Carrera and 4.3 seconds for the Carrera S. When equipped with the PDK transmission, the two 991 models can accelerate from 0–97 km/h in 4.4 seconds and 4.1 seconds. With the optional sports chrono package, available for the cars with the PDK transmission, the 991 Carrera can accelerate from 0–97 km/h in as little as 4.2 seconds and the Carrera S can do the same in 3.9 seconds. Apart from the reworked PDK transmission, the new 991 is also equipped with an industry-first 7-speed manual transmission. On vehicles produced in late 2012 (2013 model year) Rev Matching is available on the 7-speed manual transmission when equipped with the Sport Chrono package. Rev-Matching is a new feature with the manual transmission that blips the throttle during downshifts (if in Sport Plus mode). Also, the 7th gear cannot be engaged unless the car is already in 5th or 6th gear. One of Porsche’s primary objectives with the new model was to improve fuel economy as well as increase performance. In order to meet these objectives, Porsche introduced a number of new technologies in the 911. One of the most controversial of these is the introduction of electromechanical power steering instead of the previous hydraulic steering. This steering helps reduce fuel consumption, but some enthusiasts feel that the precise steering feedback for which the 911 is famous is reduced with the new system.[citation needed] The cars also feature an engine stop/start system that turns the engine off at red lights, as well as a coasting system that allows the engine to idle while maintaining speed on downhill gradients on highways. This allows for up to a 16% reduction in fuel consumption and emissions over the outgoing models. The new cars also have a number of technologies aimed at improving handling. The cars include a torque vectoring system (standard on the Carrera S and optional on the Carrera) which brakes the inner wheel of the car when going into turns. This helps the car to turn in quicker and with more precision. The cars also feature hydraulic engine mounts (which help reduce the inertia of the engine when going into turns) as part of the optional sports chrono package. Active suspension management is standard on the Carrera S and optional on the Carrera. This helps improve ride quality on straights while stiffening the suspension during aggressive driving. The new 991 is also equipped with a new feature called Porsche Dynamic Chassis Control (PDCC). Porsche claims that this new feature alone has shaved 4 seconds off the standard car’s lap time around the Nürburgring. PDCC helps the car corner flat and is said to improve high-speed directional stability and outright lateral body control, but according to several reviews, the car is more prone to understeer when equipped with this new technology. In January 2013, Porsche introduced the all-wheel-drive variants of the Carrera models. The ‘4’ and ‘4S’ models are distinguishable by wider tyres, marginally wider rear body-work and a red-reflector strip that sits in between the tail-lights. In terms of technology, the 4 and 4S models are equipped with an all-new variable all-wheel-drive system that sends power to the front wheels only when needed, giving the driver a sense of being in a rear-wheel-drive 911. In May 2013, Porsche announced changes to the model year 2014 911 Turbo and Turbo S models, increasing their power to 513 hp on the ‘Turbo’, and 552 hp on the ‘Turbo S’, giving them a 0–97 km/h acceleration time of 3.2 and 2.9 seconds, respectively. A rear-wheel steering system has also been incorporated on the Turbo models that steers the rear wheels in the opposite direction at low speeds or the same direction at high speeds to improve handling. During low-speed manoeuvres, this has the virtual effect of shortening the wheelbase, while at high speeds, it is virtually extending the wheelbase for higher driving stability and agility. In January 2014, Porsche introduced the new model year 2015 Targa 4 and Targa 4S models. These new models come equipped with an all-new roof technology with the original Targa design, now with an all-electric cabriolet roof along with the B-pillar and the glass ‘dome’ at the rear. In September 2015, Porsche introduced the second generation of 991 Carrera models at the Frankfurt Motor Show. Both Carrera and Carrera S models break with previous tradition by featuring a 3.0-litre turbocharged 6-cylinder boxer engine, marking the first time that a forced induction engine has been fitted to the base models within the 911 range
Porsche unveiled the facelifted 991.2 GT3 at the 2017 Geneva Motor Show. Extensive changes were made to the engine allowing for a 9,000 rpm redline from the 4.0 litre flat-six engine derived from Porsche 911 GT3 R and Cup racing cars. The engine has a power output of 500 PS (493 bhp) and 460 Nm (339 lb/ft) of torque. Porsche’s focus was on reducing internal friction to improve throttle response. Compared to the 991.1, the rear spoiler is 0.8 inch taller and located farther back to be more effective resulting in a 20% increase in downforce. There is a new front spoiler and changes to the rear suspension along with larger ram air ducts. The car generates 154 kg (340 lb) of downforce at top speed. The 991.2 GT3 brought back the choice between a manual transmission or a PDK dual clutch transmission. Performance figures include a 0-60 mph acceleration time of 3.8 seconds (3.2 seconds for the PDK version) and a quarter mile time of 11.6 seconds. The GT3 can attain a top speed of 319 km/h (198 mph).
Representing the latest and still current 992 generation of the 911 family were a couple of cars, including the GT3.
Whilst its precursor, the 924, had received largely positive reviews, it was criticised by many including Porsche enthusiasts for its Audi-sourced engine and although the Turbo model had increased performance, this model carried a high price, which caused Porsche to decide to develop the 924, as they had with generations of the 911. They re-worked the platform and a new all-alloy 2.5 litre inline-four engine, that was, in essence, half of the 928’s 5.0 litre V8, although very few parts were actually interchangeable. Not typical in luxury sports cars, the four-cylinder engine was chosen for fuel efficiency and size, because it had to be fitted from below on the Neckarsulm production line. To overcome roughness caused by the unbalanced secondary forces that are typical of four-cylinder engines, Porsche included two counter-rotating balance shafts running at twice engine speed. Invented in 1904 by British engineer Frederick Lanchester, and further developed and patented in 1975 by Mitsubishi Motors, balance shafts carry eccentric weights which produce inertial forces that balance out the unbalanced secondary forces, making a four-cylinder engine feel as smooth as a six-cylinder. The engine was factory-rated at 150 hp in its U.S. configuration. Revised bodywork with wider wheel arches, similar to that of the 924 Carrera GT, a fresh interior and upgrades to the braking and suspension systems rounded out the major changes and Porsche introduced the car as the 944 in 1982. It was slightly faster (despite having a poorer drag co-efficient than the 924), the 944 was better equipped and more refined than the 924; it had better handling and stopping power, and was more comfortable to drive. The factory-claimed 0-60 mph time of less than 9 seconds and a top speed of 130 mph which turned out to be somewhat pessimistic, In mid-1985, the 944 underwent its first significant changes. These included : a new dash and door panels, embedded radio antenna, upgraded alternator, increased oil sump capacity, new front and rear cast alloy control arms and semi-trailing arms, larger fuel tank, optional heated and powered seats, Porsche HiFi sound system, and revisions in the mounting of the transaxle to reduce noise and vibration. The “cookie cutter” style wheels used in the early 944s were upgraded to new “phone dial” style wheels (Fuchs wheels remained an optibon). 1985 model year cars incorporating these changes are sometimes referred to as “1985B”, “85.5” or “1985½” cars. For the 1987 model year, the 944 Motronic DME was updated, and newly incorporated anti-lock braking and air bags. Because of the ABS system, the wheel offset changed and Fuchs wheels were no longer an option. In early 1989 before the release of the 944S2, Porsche upgraded the 944 from the 2.5 to a 2.7 litre engine, with a rated 162 hp and a significant increase in torque. For the 1985 model year, Porsche introduced the 944 Turbo, known internally as the 951. This had a turbocharged and intercooled version of the standard car’s engine that produced 220 PS at 6000 rpm. In 1987, Car and Driver tested the 944 Turbo and achieved a 0-60 mph time of 5.9 seconds. The Turbo was the first car using a ceramic port liner to retain exhaust gas temperature and new forged pistons and was also the first vehicle to produce identical power output with or without a catalytic converter. The Turbo also featured several other changes, such as improved aerodynamics, notably an integrated front bumper. This featured the widest turn signals (indicators) fitted to any production car, a strengthened gearbox with a different final drive ratio, standard external oil coolers for both the engine and transmission, standard 16 inch wheels (optional forged Fuchs wheels), and a slightly stiffer suspension (progressive springs) to handle the extra weight. The Turbo’s front and rear brakes were borrowed from the Porsche 911, with Brembo 4-piston fixed calipers and 12-inch discs as ABS also came standard. Engine component revisions, more than thirty in all, were made to the 951 to compensate for increased internal loads and heat. Changes occurred for the 1987 model year. On the interior, the 1987 944 Turbo for North America became the first production car in the world to be equipped with driver and passenger side air bags as standard equipment. A low oil level light was added to the dash as well as a 180 mph (290 km/h) speedometer as opposed to the 170 mph speedometer on the 1986 model Turbos. Also included is the deletion of the transmission oil cooler, and a change in suspension control arms to reduce the car’s scrub radius. The engine remained the same M44/51 as in the 1986 model. In 1988, Porsche introduced the Turbo S. The 944 Turbo S had a more powerful engine (designation number M44/52) with 250 hp and 258 lb·ft torque (standard 944 Turbo 220 hp and 243 lb·ft. This higher output was achieved by using a larger K26-8 turbine housing and revised engine mapping which allowed maintaining maximum boost until 5800 rpm, compared to the standard 944 Turbo the boost would decrease from 1.75 bar at 3000 rpm to 1.52 bar at 5800 rpm. Top speed was factory rated at 162 mph. The 944 Turbo S’s suspension had the “M030” option consisting of Koni adjustable shocks front and rear, with ride height adjusting threaded collars on the front struts, progressive rate springs, larger hollow rear anti-roll/torsion bars, harder durometer suspension bushings, larger hollow anti-roll/torsion bars at the front, and chassis stiffening brackets in the front frame rails. The air conditioning dryer lines are routed so as to clear the front frame brace on the driver’s side. The 944 Turbo S wheels, known as the Club Sport design, were 16-inch Fuchs forged and flat-dished, similar to the Design 90 wheel. Wheel widths were 7 inches in the front, and 9 inches in the rear with 2.047 in offset; sizes of the Z-rated tyres were 225/50 in the front and 245/45 in the rear. The front and rear fender edges were rolled to accommodate the larger wheels. The manual transmission featured a higher friction clutch disc setup, an external cooler, and a limited slip differential with a 40% lockup setting. The Turbo S front brakes were borrowed from the Porsche 928 S4, with larger Brembo GT 4-piston fixed calipers and 12-inch discs; rear Brembo brakes remained the same as a standard Turbo. ABS also came standard. The 944 Turbo S interior featured power seats for both driver and passenger, where the majority of the factory-built Turbo S models sported a “Burgundy plaid” (Silver Rose edition) but other interior/exterior colours were available. A 10-speaker sound system and equalizer + amp was a common option with the Turbo S and S/SE prototypes. Only the earlier 1986, 250 bhp prototypes featured a “special wishes custom interior” options package. In 1989 and later production, the ‘S’ designation was dropped from the 944 Turbo S, and all 944 Turbos featured the Turbo S enhancements as standard, however the “M030” suspension and the Club Sport wheels were not part of that standard. The 944 Turbo S was the fastest production four cylinder car of its time. For the 1987 model year, the 944S “Super” was introduced, featuring a high performance normally aspirated, dual-overhead-cam 16-valve 190 PS version of the 2.5 litre engine (M44/40) featuring a self-adjusting timing belt tensioner. This marked the first use of four-valve-per-cylinder heads and DOHC in the 944 series, derived from the 928 S4 featuring a redesigned camshaft drive, a magnesium intake tract/passages, magnesium valve cover, larger capacity oil sump, and revised exhaust system. The alternator capacity was 115 amps. The wheel bearings were also strengthened and the brake servo action was made more powerful. Floating 944 calipers were standard, but the rear wheel brake circuit pressure regulator from the 944 turbo was used. Small ’16 Ventiler’ script badges were added on the sides in front of the body protection mouldings. Performance was quoted as 0 – 100 km/h in 6.5 seconds and a 144 mph top speed due to a 2857 lb weight. It also featured an improved programmed Bosch Digital Motronic 2 Computer/DME with dual knock sensors for improved fuel performance for the higher 10.9:1 compression ratio cylinder head. Like the 944 Turbo, the 944S received progressive springs for greater handling, Larger front and rear anti-roll bars, revised transmission and gearing to better suit the 2.5 litre DOHC higher 6800 rpm rev limit. Dual safety air bags, limited-slip differential, and ABS braking system were optional on the 944S. A Club Sport touring package (M637) was available as was the lightweight 16 inch CS/Sport Fuch 16×7 and 16×9 forged alloy wheels. This SC version car was raced in Canada, Europe and in the U.S. IMSA Firehawk Cup Series. Production was only during 1987 and 1988. It was superseded in 1989 by the ‘S2’ 944 edition. The 1987 944S power-to-weight ratio was such that it was able to accelerate from 0 to 62 mph in 6.5 seconds thus matching the acceleration of its newer larger displacement 3.0 litre 944 S2 sibling. In 1989 the 944S2 was introduced, powered by a 211 PS normally aspirated, dual-overhead-cam 16-valve 3.0 litre version of the 944S engine, the largest production 4-cylinder engine of its time. The 944S2 also received a revised transmission and gearing to better suit the 3.0 litre M44/41 powerplant. The 944S2 had the same rounded nose and a rear valance found on the Turbo model. This was the first example of the use of an integrated front bumper, where the fender and hood profiles would merge smoothly with the bumper, a design feature that has only now seen widespread adoption on the 1990 onward production cars. Performance was quoted as 0-60 mph in 6.0 seconds with a top speed of 240 km/h (150 mph) via manual transmission. A Club Sport touring package (M637) was also available. Dual air bags (left hand drive models), limited-slip differential and ABS were optional. Series 90 16-inch cast alloy wheels were standard equipment. In 1989, Porsche released the 944 S2 Cabriolet, a first for the 944 line that featured the cabriolet body built by ASC-American Sunroof Company at Weinsberg Germany. The first year of production included sixteen 944 S2 Cabriolet for the U.S. market. For the 1990 model year, Porsche produced 3,938 944 S2 Cabriolets for all markets including right-hand drive units for the United Kingdom, Australia and South Africa. This car was raced, including the British championship that was called the Porsche Motorsport Championship. Production was during 1989, 1990, and 1991. The 944 S2 power-to-weight ratio was such that it was able to accelerate from 0 to 60 mph in 6.5 seconds. In February 1991, Porsche released the 944 Turbo Cabriolet, which combined the Turbo S’s 250 hp engine with the cabriolet body built by ASC-American Sunroof Company at Weinsberg Germany. Porsche initially announced that 600 would be made; ultimately 625 were built, 100 of which were right-hand drive for the United Kingdom, Japanese, Australian, and South African market. None were imported to the U.S. and The Americas. In early 1990, Porsche engineers began working on what they had intended to be the third evolution of the 944, the S3. As they progressed with the development process, they realised that so many parts were being changed that they had produced an almost entirely new vehicle. Porsche consequently shifted development from the 944 S/S2 to the car that would replace the 944 entirely, the 968. The 944’s final year of production was 1991. A grand total 163,192 cars in the 944 family were produced between 1982 and 1991. This made it the most successful car line in Porsche’s history until the introductions of the Boxster and 997 Carrera.
The first V8 engined Porsche, the 928 was originally conceived to replace the 911, though as we all know, that did not happen, with the two complementing each other in the range during the 18 year life of the 928. By the late 1960s, Porsche had changed significantly as a company, and executives including owner Ferdinand Porsche were toying with the idea of adding a luxury touring car to the line-up. Managing Director Ernst Fuhrmann was also pressuring Ferdinand to approve development of the new model in light of concerns that the current flagship model at the time, the 911, was quickly reaching the limits of its potential. Slumping sales of the 911 seemed to confirm that the model was approaching the end of its economic life cycle. Fuhrmann envisioned the new range-topping model as being the best possible combination of a sports coupe and a luxury sedan, something well equipped and comfortable enough to be easily driven over long distances that also had the power, poise and handling prowess necessary to be driven like a sports car. This set it apart from the 911, which was intended to be an out-and-out sports car. Ordered by Ferdinand Porsche to come up with a production-feasible concept for his new model, Fuhrmann initiated a design study in 1971, eventually taking from the process the final specification for the 928. Several drivetrain layouts were considered during early development, including rear and mid-engined designs, but most were dismissed because of technical and/or legislative difficulties. Having the engine, transmission, catalytic converter(s) and exhaust all cramped into a small rear engine bay made emission and noise control more difficult, something Porsche was already facing problems with on the 911 and wanted to avoid. After deciding that the mid-engine layout didn’t allow enough room in the passenger compartment, a front engine/rear wheel drive layout was chosen. Porsche also may have feared that the U.S. government would soon ban the sale of rear-engined cars in response to the consumer concern over safety problems with the rear-engined Chevrolet Corvair. Porsche engineers wanted a large-displacement engine to power the 928, and prototype units were built with a 5-litre V8 producing close to 300 hp. Ferdinand Piëch wanted this car to use a 4.6-litre V10 based upon Audi’s five-cylinder engine. Several members of the Porsche board objected, chiefly because they wished for Porsche AG to maintain some separation from Volkswagen. The first two running prototypes of Porsche’s M28 V8 used one four-barrel carburettor, but this was just for initial testing. The cars were sold with the planned Bosch K-Jetronic fuel injection system. When increasing concern within the company over the pricing and availability of fuel during the oil crisis of the 1970s became an issue of contention, smaller engines were considered in the interest of fuel economy. A push began for the development of a 3.3 litre 180 hp powerplant they had drawn up designs for, but company engineers balked at this suggestion. Both sides finally settled on a 4.5 litre SOHC per bank 16-valve V8 producing 240 PS which they considered to have an acceptable compromise of performance and fuel economy. The finished car debuted at the 1977 Geneva Motor Show, going on sale later that year. Although it won early acclaim for its comfort and power, sales were slow. Base prices were much higher than that of the 911 model and the 928’s front-engined, water-cooled design put off many Porsche purists, not least because the design marked a major change in direction for Porsche started with the introduction of the Porsche 924 in 1976 which purists found hard to accept. Porsche utilised a transaxle in the 928 to help achieve 50/50 front/rear weight distribution, aiding the car’s balance. Although it weighed more than the difficult-to-handle 911, its more neutral weight balance and higher power output gave it similar performance on the track. The 928 was regarded as the more relaxing car to drive at the time. It came with either a five-speed dog leg manual transmission, or a Mercedes-Benz-derived automatic transmission, originally with three speeds, with four-speed from 1983 in North America and 1984 in other markets. More than 80% had the automatic transmission. Exact percentage of manual gearbox cars for entire production run is not known but it is believed to be between 15 and 20%. The body, styled by Wolfgang Möbius under guidance of Anatole Lapine, was mainly galvanised steel, but the doors, front fenders, and hood were aluminium in order to make the car more lightweight. It had a substantial luggage area accessed via a large hatchback. The new polyurethane elastic bumpers were integrated into the nose and tail and covered in body-coloured plastic; an unusual feature for the time that aided the car visually and reduced its drag. Porsche opted not to offer a convertible variant but several aftermarket modifiers offered convertible conversions, most notably Carelli, based in Orange County, CA. The Carelli conversions were sold as complete cars, with the conversion doubling the price of the car. A reported 12 units were made. The 928 qualified as a 2+2, having two small seats in the rear. Both rear seats could be folded down to enlarge the luggage area, and both the front and rear seats had sun visors for occupants. The rear seats are small (due to the prominent transmission hump) and have very little leg room; they are only suitable for adults on very short trips or children. The 928 was also the first vehicle in which the instrument cluster moved along with the adjustable steering wheel in order to maintain maximum instrument visibility. The 928 included several other innovations such as the “Weissach Axle”, a simple rear-wheel steering system that provides passive rear-wheel steering to increase stability while braking during a turn, and an unsleeved, silicon alloy engine block made of aluminium, which reduced weight and provided a highly durable cylinder bore. Porsche’s design and development efforts paid off during the 1978 European Car of the Year, where the 928 won ahead of the BMW 7 Series, and the Ford Granada. The 928 is the only sports car ever to have won this competition, which is regarded as proof of how advanced the 928 was, compared to its contemporaries. Porsche introduced a refreshed 928 S into the European market in 1980 model year. Externally, the S wore new front and rear spoilers and sported wider wheels and tyres than the older variant, but the main change for the 928 S was under the bonnet where a revised 4.7 litre engine was used. European versions debuted with 300 PS, and were upgraded to 310 PS for 1984, though it is rumoured that they typically made around 330 hp. From 1984 to 1986, the S model was called S2 in UK. These cars used Bosch LH-Jetronic fuel injection and purely electronic Bosch ignition, the same systems used on the later 32-valve cars, though without the pollution controls. North American-spec 1983 and 1984 S models used, among other differences, smaller valves, milder camshafts, smaller diameter intake manifolds, and additional pollution equipment in order to meet emissions regulations, and were limited to 234 hp as a result. Due to low grade fuel 16V low compression S engine was made for Australian market in 1985 model year. It had 9.3:1 compression ratio pistons instead of normal 10.4:1 but used same large intake, high lift cams, large valves etc. of other S engines. In 1982, two special models were available for different markets. 202 “Weissach Edition” cars were sold in North America. Unusual features were champagne gold metallic paint, matching brushed gold flat disc wheels, two-tone leather interior, a plaque containing the production number on the dash and the extremely collectible three-piece Porsche luggage set. It’s believed these cars were not made with S spoilers even though these were available in U.S. during this time period as part of the “Competition Group” option. The “Weissach Edition” option was also available for the US market 911 in 1980 model year and 924 in 1981 model year. 141 special “50th Jubilee” 928 S models were available outside the U.S. and Canada to celebrate the company’s 50-year existence as a car manufacturer. This model is also sometimes referred to as the “Ferry Porsche Edition” because his signature was embroidered into the front seats. It was painted meteor metallic and fitted with flat disc wheels, wine red leather and special striped fabric seat centres. Similar 911 and 924 specials were also made for world markets. Porsche updated the North American 928 S for 1985, replacing the 4.7 litre SOHC engine with a new 5.0 litre DOHC unit sporting four valves per cylinder and producing 288 hp. Seats were also updated to a new style, these cars are sometimes unofficially called S3 to distinguish them from 16-valve “S” models. European models kept a 4.7 litre engine, which was somewhat more powerful as standard, though lower 9.3:1 compression 32-valve engine together with catalytic converters became an option in some European countries and Australia for 1986. In 1986, revised suspension settings, larger brakes with 4-piston calipers and modified exhaust was installed on the 928S, marking the final changes to old body style cars. These were straight from the 928S4, which was slated to debut a few months later. These changes came starting from VIN 1001, which means that the first thousand ’86’s had the old brakes, but later cars had the later systems. This later 1986 model is sometimes referred to as a 19861⁄2 or 1986.5 because of these changes. The name is a little misleading as more than 3/4 of the 1986 production had these updates. The 928 S4 variant debuted in the second half of 1986 with an updated version of the 5.0 litre V8 producing 320 PS, sporting a new single-disc clutch in manual gearbox cars, larger torque converter in automatics and fairly significant styling updates which gave the car a cleaner, sleeker look. S4 was much closer to being a truly world car than previous models as only major differences for North American models were instrumentation in either kilometers or miles, lighting, front and rear bumper shocks and the availability of catalytic converters in many other markets. The Australian market version was only one with different horsepower rating at 300 PS due to preparation for possible low grade fuel. Even this was achieved without engine changes. A Club Sport variant which was up to 100 kg (220 lb) lighter became available to continental Europe and U.S. in 1988. This model was watered down version of the 1987 factory prototype which had a lightened body. Also in 1987 the factory made four white lightened manual gearbox S4 models for racecar drivers who were on their payroll at the time. These were close to same as later actual Club Sport models and can also be considered prototypes for it. An SE (sometimes called the S4 Sport due to model designation on rear bumper), a sort of halfway point between a normally equipped S4 and the more race-oriented Club Sport, became available to the UK. It’s generally believed these Porsche Motorsport-engined cars have more hp than the S4. They utilise parts which later became known as GT pistons, cams and engine ECU programs. Some of them had stronger, short geared manual gearbox. The automatic gearbox was not available. For the 1989 model year, a visible change inside was digital trip computer in dashboard. At the same time Australian models received the same 320 PS engine management setup as other markets. Porsche debuted the 928 GT in the late winter 1988/89 after dropping the slowly selling CS and SE. In terms of equipment, the GT was like the 928 SE, having more equipment than a Club Sport model but less than a 928 S4 to keep the weight down somewhat. It had the ZF 40% limited-slip differential as standard like the Club Sport and SE before it. Also like the CS and SE, the GT was only available with a manual gearbox. European 1989 CS and GT wheels had an RDK tyre pressure monitoring system as standard, which was also optional for the same year S4. For 1990 model year Porsche made RDK and a 0-100% variable ratio limited-slip called PSD (Porsche SperrDifferential) standard in both GT and S4 models for all markets. This system is much like the one from the 959 and gives the vehicle even more grip. In 1990 the S4 was no longer available with a manual gearbox. The S4 and GT variants were both cut at the end of 1991 model year, making way for the final version of the 928. The 928 GTS came for sale in late 1991. Changed bodywork, larger front brakes and a new, more powerful 5.4 litre 350 PS engine were the big advertised changes; what Porsche wasn’t advertising was the price. Loaded GTS models could eclipse US$100,000 in 1995, making them among the most expensive cars on the road at the time. This severely hampered sales despite the model’s high competency and long standard equipment list. Porsche discontinued the GTS model that year after shipping only 77 of them to the United States. Total worldwide production of 928s over an 18 year period was a little over 61,000 cars. Second-hand models’ value decreased as a result of generally high maintenance costs due largely to spare parts that are expensive to manufacture, with the result that there are fewer survivors than you might expect, though with values hardening, people are now spending the money required to restore these cars.
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.
Porsche unveiled the latest Boxster Spyder based on the 981 Boxster in April 2015 at the New York Auto Show. The Spyder is a lightweight high performance version of the Boxster and the lightest Porsche in the model lineup at the time, weighing 1,315 kg (2,899 lb). It is powered by the largest and most powerful engine used in a Boxster at the time, a 3.8 litre flat-6 shared with the Cayman GT4 and 911 Carrera S, rated at 375 hp. This allowed the car to attain a top speed of 290 km/h (180 mph). The Spyder is only available with a 6 speed manual transmission. The styling of the car is similar to the previous generation Spyder, continuing the twin hump rear deck and manually operated canvas top. It also shares some styling with the Cayman GT4, using the same front and rear fascia. The Spyder’s lightweight design was achieved through the use of aluminium doors and rear boot lid, a manually operated canvas soft top with electronic assist, and unique lightweight 20 inch wheels. The manual soft top results in a weight saving of 24 lb (11 kg) over the standard Boxster’s electric powered top. Interior door handles were replaced with nylon door pulls for a weight savings of 1.2 lb (1 kg). The air conditioning and audio system were also removed, although they could be added as no cost options. Total weight savings amounted to 66 lb (30 kg) when compared to a manual-equipped Boxster GTS despite the Spyder’s upsized engine and chassis upgrades.The Spyder is the only model from the 981 generation to feature an updated faster ratio steering rack shared with 911 Turbo S for improved steering response and feel. It is equipped with a smaller diameter GT steering wheel used in both the 911 GT3 and Cayman GT4. The Spyder’s brakes are enlarged over other Boxster models, using six-piston calipers with 340 mm rotors at the front and four-piston calipers with 330 mm rotors at the rear shared with the 911 Carrera S. The Spyder features a sports suspension with 20mm lower ride height than the standard Boxster. A limited slip differential with Porsche Torque Vectoring shared with the Cayman GT4 was also used. Reception was positive with high marks for its lightweight chassis and handling balance. Some reviewers preferred the Boxster Spyder’s chassis setup to the Cayman GT4’s, even if the latter has more ultimate grip. The Spyder was a limited-production model with 2,486 units in total made with 829 of those destined for North America.
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 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 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 first generation 986-seres Boxster here, though somewhat modified by its owner, Neil Genge.
SUBARU
Now heading towards 30 years old are the first generation Impreza Turbo models. There have been seven noted versions of the WRX dating back from Subaru’s original World Rally Cross staging vehicles. Subaru adopted the name “WRX” to stand for “World Rally eXperimental” as all WRX versions (1992 to present) feature rally inspired technology, including all wheel drive, stiffened suspensions and turbocharged four cylinder engines. The STi versions were marketed with consecutive numbers. Another way to determine the version of a WRX was to look at the chassis code. All WRX sold between 1992 and 2000 have the beginning chassis code of GC8 2/4 door sedan or GF8 hatchback; this is followed by a letter from A to G. Coupe versions share the “GC” code with sedans, except in the US, where they have a separate chassis code of “GM”. In 1994, Subaru introduced Subaru Tecnica International (STi badged) versions of the WRX in Japan. These models were upgraded from the standard WRX in many categories, including blueprinted performance-tuned engines, transmissions, and suspensions. The STi versions of the WRX were immensely successful in rallies and popular among street racers but were only sold in the Japanese market. Compared to the WRX, the STi had mostly mechanical modifications. (STi prepped Subaru rally cars since 1988 including the Legacy RS, the WRX STi Version was just the first car with an actual STi badge, though with handcrafted tuning). The WRX debuted in November 1992 with 240 PS. The centre differential was a viscous coupling type, the rear limited slip differential was a viscous type. The WRX Type RA is a stripped down version of the WRX that was available in the Japanese market for people to purchase for motorsports and tuning. Targeted for race and rally, the RA versions were generally lighter in weight; featuring reduced soundproofing, manual windows, car horn delete, no air conditioning, no anti-lock brakes, and added racing features such as more robust engines, 5th injection, intercooler water spray and shorter gearing. The WRX Type RA uses a closer ratio gearbox and a three-spoke leather steering wheel from Nardi. The ra model chassis code between GC8-(000000 to 005000) are only sold to the race team by order. Close ratio transmission is anticipated race use, the gap between each gear is brought closer together and a specific close ratio transmission is used. In Europe, the WRX was introduced as the Impreza GT, and as the Impreza Turbo 2000 (UK). It came with 208 hp. A bewildering array of different versions would follow until the release of the second generation Impreza in 2000.
Subaru introduced the “New Age” Impreza, the second generation car, to Japan in August 2000, and it arrived in Europe towards the end of that year. Larger in size compared to the previous iteration, the sedan increased its width by 40 millimetres (1.6 in), while the wagon notably increased by just 5 millimetres (0.2 in)—placing the two variants in different Japanese classification categories. The coupe body style from the first generation did not reappear for the new series, and the off-road appearance package that included contrasting-coloured bumpers did carry over forward. Marketed as a separate model line, this North America-only variant was, as before, badged the Outback Sport. Naturally aspirated flat-four (boxer) engines comprised the 1.5-litre EJ15, the 1.6-litre EJ16, the 2.0-litre EJ20, and the 2.5-litre EJ25. Turbocharged versions of the 2.0- and 2.5-litre engines were offered in the WRX and WRX STI models. STI models featured a more powerful 2.0-litre (2.5-litre outside of the Japanese market) turbocharged engine. WRX models featured a 2.0-litre turbocharged boxer engine until 2005, after which they switched to the 2.5-litre turbocharged engine. As with the first generation, the turbocharged STI variants were available in numerous specifications with a myriad of limited edition variants sold. The bug-eyed styling was not well received, and Subaru had two further attempts at the front end, neither of which was entirely successful, either, but enthusiasts were happy to overlook the gawky looks because the way the car drove. Subaru issued yearly updates to the STI, tweaking cosmetics and equipment levels, and also improving performance and handling. The car was replaced in 2007 by the third generation Impreza, widely regarded as inferior in many ways to this version.
SUNBEAM
The first Sunbeam to bear the Alpine name was an open-topped version of the Sunbeam-Talbot 90 sports saloon, named after the model’s success in rallying, especially the Monte Carlo rally, launched in 1953. Kenneth Howes and Jeff Crompton were tasked with doing a complete redesign in 1956, with the goal of producing a dedicated sports car aimed principally at the US market to compete with the MGs and Triumphs that were very popular. Ken Howes contributed some 80 per cent of the overall design work, which bears more than incidental resemblance to the early Ford Thunderbird, hardly a surprise, as Howe had worked at Ford before joining Rootes. The Alpine was produced in four subsequent revisions until 1968. Total production numbered around 70,000. Production stopped shortly after the Chrysler takeover of the Rootes Group. Styled by the Loewy Studios for the Rootes Group, the “Series” Alpine started production in late 1959. One of the original prototypes still survives and was raced by British Touring car champion Bernard Unett. The car made extensive use of components from other Rootes Group vehicles and was built on a modified floorpan from the Hillman Husky estate car. The Series I used a 1,494 cc engine with dual downdraft carburettors, a soft top that could be hidden by special integral covers and the first available wind-up side windows offered in a British sports car of that time. The running gear came mainly from the Sunbeam Rapier, but with front disc brakes replacing the saloon car’s drums. An overdrive unit and wire wheels were optional. The suspension was independent at the front using coil springs and at the rear had a live axle and semi-elliptic springing. The Girling-manufactured brakes used 9.5 in discs at the front and 9 in drums at the rear. An open car with overdrive was tested by The Motor in 1959. It had a top speed of 99.5 mph and could accelerate from 0–60 mph in 13.6 seconds. A fuel consumption of 31.4 mpg was recorded. The test car cost £1031 including taxes. 11,904 examples of the series I were produced. The Series II of 1962 featured an enlarged 1,592 cc engine producing 80 bhp and revised rear suspension, but there were few other changes. When it was replaced in 1963, 19,956 had been made. The Series III was produced in open and removable hardtop versions. On the hardtop version the top could be removed and the soft-top was stored behind the small rear seat; also the 1592 cc engine was less powerful. To provide more room in the boot, twin fuel tanks in the rear wings were fitted. Quarter light were fitted to the windows. Between 1963 and 1964, 5863 were made. For the Series IV, made in 1964 and 1965, there was no longer a lower-output engine option; the convertible and hardtop versions shared the same 82 bhp engine with single Solex carburettor. A new rear styling was introduced with the fins largely removed. Automatic transmission with floor-mounted control became an option, but was unpopular. From autumn 1964 a new manual gearbox with synchromesh on first gear was adopted in line with its use in other Rootes cars. A total of 12,406 were made. The final version was the Series V, produced between 1965–68 which had the new five-bearing 1,725 cc engine with twin Zenith-Stromberg semi-downdraught carburettors producing 93 bhp. There was no longer an automatic transmission option. 19,122 were made.
TALBOT
The Sunbeam started off life as a Chrysler, launched in 1977, as the long awaited replacement for the Hillman Imp, production of which had ended a year earlier. Based on a cut-down version of the Avenger chassis, this neat looking hatch was initially offered with a choice of 1.0, 1.3 and 1.6 litre 4 cylinder engines and it retained rear wheel drive at a time when all the rivals were switching front wheel drive This was a move forced upon its maker by the lack of capital to do anything else, but whilst it was not great for space efficiency, it would have an advantage when it came to the sporting versions and indeed for what would turn out to be a very successful career in motorsport. The sporting road cars hit the market in 1979, and these are the only examples of the Sunbeam that you tend to see these days. By the time they hit the market, the Chrysler badging had gone, as a consequence of the sale of Chrysler’s European business to Peugeot-Citroen in the summer of 1978 meant that by mid 1979 a new name was required. The old Talbot branding was dusted off and overnight the cars all became Talbots. The first potent Sunbeam to appear had been the Ti, a sort of modern day version of the Avenger Tiger, with a 110 bhp twin carb 1600cc engine under the bonnet. It went on sale in the spring of 1979, as an appetiser for something more special, which had been unveiled at the Geneva Show in March, a few weeks earlier. The Sunbeam Lotus was the fruits of Chrysler’s commission to sports car manufacturer and engineering company Lotus to develop a strict rally version of the Sunbeam. The resulting ‘”Sunbeam Lotus” was based on the Sunbeam 1.6 GLS, but fitted with stiffer suspension, a larger anti-roll bar and a larger transmission tunnel. The drivetrain comprised an enlarged 2172 cc version of the Lotus 1973 cc 907 engine, a 16 valve slant four engine (the Sunbeam version being type 911, similar to the “Lotus 912”), along with a ZF gearbox, both mounted in the car at Ludham Airfield, close to the Lotus facility in Hethel, Norfolk, where the almost-complete cars were shipped from Linwood. Final inspection, in turn, took place in Stoke, Coventry. In road trim, the Lotus type 911 engine produced 150 bhp at 5,750rpm and 150 lb/ft of torque at 4,500rpm. In rallying trim this was increased to 250 bhp Production cars were not actually ready for deliveries to the public until after the mid-year rebranding, and thus became the “Talbot Sunbeam Lotus”. At first these were produced mostly in black and silver, although later models came in a moonstone blue and silver (or black) scheme. The car saw not only enthusiastic press reviews, but also much success in the World Rally Championship – in 1980, Henri Toivonen won the 29th Lombard RAC Rally in one, and, in 1981, the Sunbeam Lotus brought the entire manufacturer’s championship to Talbot. There is an enthusiastic following for Sunbeam Lotus cars these days.
TOYOTA
The MR2 derived from a 1976 Toyota design project with the goal of a car which would be enjoyable to drive, yet still provide good fuel economy – not necessarily a sports car. Design work began in 1979 when Akio Yoshida from Toyota’s testing department started to evaluate alternatives for engine placement and drive method, finalising a mid-transverse engine placement. Toyota called the 1981 prototype SA-X. From its original design, the car evolved into a sports car, and further prototypes were tested both in Japan and in the US. Significant testing was performed on race circuits including Willow Springs, where former Formula One driver Dan Gurney tested the car. All three generations were in compliance with Japanese government regulations concerning exterior dimensions and engine displacement. The MR2 appeared around the same time as the Honda CR-X, the Nissan EXA, the VW Scirocco from Europe, and the Pontiac Fiero and Ford EXP from North America. Toyota debuted its SV-3 concept car in October 1983 at the Tokyo Motor Show, gathering press and audience publicity. The car was scheduled for a Japanese launch in the second quarter of 1984 under the name MR2. Toyota introduced the first-generation MR2 in 1984, designating it the model code “W10”. When fitted with the 1.5-litre 3A engine, it was known as the “AW10”. Likewise, the 1.6-litre 4A version is identified by the “AW11” code. The MR2’s suspension and handling were designed by Toyota with the help of Lotus engineer Roger Becker. Toyota’s cooperation with Lotus during the prototype phase can be seen in the AW11, and it owes much to Lotus’s sports cars of the 1960s and 1970s. Toyota’s active suspension technology, called TEMS, was not installed. With five structural bulkheads, the MR2 was quite heavy for a two-seater of its size. Toyota employed the naturally aspirated 4A-GE 1,587 cc inline-four engine, a DOHC four-valve-per-cylinder motor, borrowed from the E80 series Corolla. This engine was also equipped with Denso electronic port fuel injection and T-VIS variable intake geometry, giving the engine a maximum power output of 112 hp in the US, 128 hp in the UK, 116 or 124 PS (114 or 122 hp) in Europe (with or without catalytic converter), 118 hp in Australia and 130 PS (128 hp) in Japan. Japanese models were later detuned to 120 PS (118 hp). A five-speed manual transmission was standard, with a four-speed automatic available as an option. In 1986 (1988 for the US market), Toyota introduced a supercharged engine for the MR2. Based on the same block and head, the 4A-GZE was equipped with a small Roots-type supercharger and a Denso intercooler. T-VIS was eliminated and the compression ratio was lowered to 8:1. It produced 145 hp at 6,400 rpm and 186 Nm (137 lb/ft) of torque at 4,400 rpm and accelerated the car from 0 to 100 km/h (62 mph) in 6.5 to 7.0 seconds. The supercharger was belt-driven but actuated by an electromagnetic clutch, so that it would not be driven except when needed, increasing fuel economy. Curb weight increased to as much as 2,494 lb (1,131 kg) for supercharged models, due to the weight of the supercharger equipment and a new, stronger transmission. A fuel selector switch was also added in some markets, to allow the car to run on regular unleaded fuel if required to. In addition to the new engine, the MR2 SC was also equipped with stiffer springs, and received special “tear-drop” aluminium wheels. The engine cover had two raised vents (only one of which was functional) that visually distinguished it from the naturally aspirated models. It was also labelled “SUPER CHARGER” on the rear trunk and body mouldings behind both doors. This model was never offered outside of the Japanese and North American markets, although some cars were privately imported to other countries. Toyota made detailed changes to the car every year until replacing it with a second generation model in 1989.
In July 1999, Toyota began production of the seventh-generation Celica, with European sales beginning late that year. It closely resembled the XYR concept with the exception of the front bumper and rear spoiler, while omitting the previously available coupe body style. The 2000 model year Celica was an element of Toyota Project Genesis, an effort to bring younger buyers to the marque in the United States. Toyota took time to lighten the car and lower cost wherever possible. Power window and door lock controls were placed in the center console so only 1 set was necessary for both doors. Initial sunroofs were made of polymer plastic instead of the traditional glass. This generation was assembled by Kanto Auto Works at its Higashi-Fuji plant in Susono, Shizuoka Prefecture, Japan. The Celica came in only one Liftback body style with the choice of two different engines. The ZZT230 was powered by a relatively economical 1.8 L 4-cylinder 140 hp 1ZZ-FE engine and the ZZT231 powered by a higher-performance 1.8 L 4-cylinder 192 hp (in Europe and Japan) 2ZZ-GE version, co-developed with Yamaha, the latter featuring a two-step variable valve lift control in conjunction with its variable valve timing. In 2004, CNNMoney.com rated the Celica as one of the best cars to purchase for fuel economy. Exporting of the Celica ceased in July 2005. However, until mid-May, customers could still order one, although it was advised they took action before that time ended. The last Celica was rolled off production line on 21 April 2006, after 36 years and seven generations. In its last year, the Celica was only officially sold in Japan. There has been no direct successor to the Celica, however, the Scion tC (exclusive to North America) is seen by some people as the spiritual successor to the Celica.
Like its predecessor, the X100-series Toyota Mark II was available in multiple trim levels. New for this production run was the introduction of All-Trac all-wheel drive to Grande and Grande G as well as the use of Toyota’s new VVTi system on its engines. Also new was the standardization of ABS and a new electronic traction control system. The Groire trim level was also dropped for this production run, and was named for a village in the Centre-Val de Loire of France. The base GL came with only the 2.4-litre 2L-TE turbo-diesel straight-four mated to a four-speed automatic. It came with basic features like power windows and door locks and automatic air-conditioning, but sportier options were only available on higher-level trims. However, traction control and ABS were available as options. The Grande trim levels had a plethora of options and features available not limited to but including tilt-steering, standard ABS, traction control and AWD. The base Grande was powered by either the 2.0-litre 1G-FE inline-six mated to a 5-speed manual transmission or 4-speed automatic, the 2.4-litre 2L-TE mated to a four-speed automatic from the GL or the 2.5-litre 1JZ-GE, turning a four-speed automatic as well. New for 1996 was the Grande Four: a four-wheel-drive variant of the Grande, it was powered by the 1JZ-GE and mated to a 4-speed automatic transmission sending power to the All-Trac drivetrain through a centre differential. The Grande G versions were available with a digital instrument cluster and either a 1JZ- or 2JZ-GE with a 4-speed automatic. The “G package” included leather anointments for the steering wheel and seats as well as power front seats. A Grande G Four was also offered with the 1JZ engine, 4-speed auto transmission and all-wheel drive. The Tourer trim level carried on from the X90 series in both Tourer S and Tourer V. The Tourer S was powered by a naturally aspirated 1JZ-GE and mated to a 4-speed automatic. The Tourer V received some noticeable tweaks from its X90 series counterpart: along with the implementation of ETCS and VVTi, the engine now received forced induction through one large turbocharger as opposed to two smaller ones in a parallel configuration. According to Toyota, this smoothed out the torque curve allowing the engine to deliver more torque at a lower RPM and with VVTi, improved the car’s fuel economy. The ninth and final generation Mark II arrived for 2002.
Almost inevitably, given the popularity of the car among enthusiasts who are the sort of people likely to come to events like this, the Yaris GR was here.
TRIUMPH
Envisioned as a luxury sports car, the Stag was designed to compete directly with the Mercedes-Benz SL. It started as a styling experiment, cut and shaped from a 1963–4 Triumph 2000 pre-production saloon, which had also been styled by Michelotti, and loaned to him by Harry Webster, Director of Engineering at Triumph. Their agreement was that if Webster liked the design, Triumph could use the prototype as the basis of a new Triumph model. Harry Webster, who was a long time friend of Giovanni Michelotti, whom he called “Micho”, loved the design and took the prototype back to England. The end result, a two-door drop head (convertible), had little in common with the styling of its progenitor 2000, but retained the suspension and drive line. Triumph liked the Michelotti design so much that they propagated the styling lines of the Stag into the new Mark 2 2000/2500 saloon and estate. The initial Stag design was based around the saloon’s 2.5-litre six cylinder engine, but Harry Webster intended the Stag, large saloons and estate cars to use a new Triumph-designed overhead cam 2.5-litre fuel injected V8. Under the direction of Harry Webster’s successor, Spen King in 1968, the new Triumph OHC 2.5 PI V8 was enlarged to 2997 cc to increase torque. To meet emission standards in the USA, a key target market, the troublesome mechanical fuel injection was dropped in favour of dual Zenith-Stromberg 175 CDSE carburettors. A key aim of Triumph’s engineering strategy at the time was to create a family of engines of different size around a common crankshaft. This would enable the production of power plants of capacity between 1.5 and 4 litres, sharing many parts, and hence offering economies of manufacturing scale and of mechanic training. A number of iterations of this design went into production, notably a slant four-cylinder engine used in the later Triumph Dolomite and Triumph TR7, and a variant manufactured by StanPart that was initially used in the Saab 99. The Stag’s V8 was the first of these engines into production. Sometimes described as two four-cylinder engines Siamesed together, it is more correct to say that the later four-cylinder versions were half a Stag engine. It has sometimes been alleged that Triumph were instructed to use the proven all-aluminium Rover V8, originally designed by Buick, but claimed that it would not fit. Although there was a factory attempt by Triumph to fit a Rover engine, which was pronounced unsuccessful, the decision to go with the Triumph V8 was probably driven more by the wider engineering strategy and by the fact that the Buick’s different weight and torque characteristics would have entailed substantial re-engineering of the Stag when it was almost ready to go on sale. Furthermore Rover, also owned by British Leyland, could not necessarily have supplied the numbers of V8 engines to match the anticipated production of the Stag anyway. As in the Triumph 2000 model line, unitary construction was employed, as was fully independent suspension – MacPherson struts in front, semi-trailing arms at the rear. Braking was by front disc and rear drum brakes, while steering was power-assisted rack and pinion. Although other bodystyles were envisaged, these never made production, so all Stags were four-seater convertible coupés. For structural rigidity – and to meet new American rollover standards of the time – the Stag required a B-pillar “roll bar” hoop connected to the windscreen frame by a T-bar. A removable hardtop was a popular factory option for the early Stags, and was later supplied as a standard fitment. The car was launched one year late in 1970, to a warm welcome at the various international auto shows. Sadly, it rapidly acquired a reputation for mechanical unreliability, usually in the form of overheating. These problems arose from a variety of causes, all of which are now well understood, and for which solutions have been identified, but at the time, they really hurt the reputation and hence sales of the car. They ranged from late changes to the engine which gave rise to design features that were questionable from an engineering perspective, the choice of materials which necessitated the use of antifreeze all year round, the engine’s use of long, simplex roller link chains, which would first stretch and then often fail inside fewer than 25,000 miles; the arrangement of the cylinder head fixing studs, half of which were vertical and the other half at an angle causing sideways forces which caused premature failure of the cylinder head gaskets. and poor quality production from a plant troubled with industrial unrest and poor quality control. At the time, British Leyland never provided a budget sufficient to correct the few design shortcomings of the Triumph 3.0 litre OHC V8, and the dealers did not help matters. The Stag was always a relatively rare car. British Leyland had around 2,500 UK dealers when the Stag was on sale and a total of around 19,000 were sold in the UK. Thus the average dealer sold only seven or eight Stags during the car’s whole production run, or roughly one car per year. This meant that few dealers saw defective Stags often enough to recognise and diagnose the cause of the various problems. Many owners simply replaced the engine altogether, often with the Rover V8, Ford Essex V6, or even the Triumph 6-cylinder engine around which the car was originally designed. Perhaps thanks to such a reputation for its unreliable engine, only 25,877 cars were produced between 1970 and 1977. Of this number, 6780 were export models, of which 2871 went to the United States. The majority of cars were fitted with a Borg-Warner 3-speed automatic transmission. The other choice was a derivative of the ancient Triumph TR2 gearbox which had been modified and improved over the years for use in the TR series of sports cars. Other than the choice of transmissions there were very few factory-installed options. On early cars buyers could choose to have the car fitted with just the soft-top, just the hard-top (with the hood storage compartment empty) or with both. Later cars were supplied with both roofs. Three wheel styles were offered. The standard fitments were steel wheels with Rostyle “tin-plate” trims. Five-spoke alloy wheels were an option, as were a set of traditional steel spoke wheels with “knock-off”‘ hubcaps. The latter were more commonly found on Stags sold in North America on Federal Specification vehicles. Electric windows, power steering and power-assisted brakes were standard. Options included air conditioning, a luggage rack, uprated Koni shock absorbers, floor mats and Lucas Square Eight fog lamps, and a range of after-market products, most of which were dealer installed as optional accessories could also be fitted. Rather unusually for a 4-seat touring car, the accessory list included a sump protector plate that was never produced. This was probably included as a slightly “gimmicky” tribute to Triumph’s rallying successes. Nowadays, the Stag is seen in a very different light, with lots of very enthusiastic and knowledgeable owners who enjoy the good points of this attractive looking car and who revel in the fact that the market has not yet boosted prices into the unaffordable category, as one day will surely happen.
TVR
The Chimaera was originally intended to replace the Griffith but sufficient demand for both of the models led TVR continuing them. In 1994, TVR introduced the Chimaera 500, a high performance derivative of the Chimaera. The BorgWarner T5 manual transmission replaced the Rover LT77 unit on the rest of the range. A new alternator, power steering and a single Vee belt were fitted to improve reliability. The 4.3 litre engine option was replaced by the 4.0 litre High Compression option. The Chimaera was mildly updated in 1996. Updates included a rear bumper shared with the Cerbera, push button doors with the buttons located under the wing mirrors, a boot lid shared with the Cerbera and the replacement of the front mesh grille with a horizontal bar. The GKN differential was also replaced by a BTR unit. A 4.5 litre model was added to the lineup in 1997. It was originally intended to be fitted with the AJP8 V8 engine but due to the engine not being ready on time, a bored version of the Rover V8 was used instead. In 1998, the rear light styling and the number plate mounting angle was updated while the base 4.0 litre model was discontinued. In 2001, the Chimaera was again facelifted and now featured the Griffith’s headlights as well as seats from the Cerbera. The Chimaera was succeeded by the Tamora in 2002.
VAUXHALL
The first generation Astra GTE had a short production life, as it was launched in the summer of 1983 and barely 12 months later, a replacement for the entire Astra (Kadett D) range appeared. It used the 1800cc version of the Family Two engine, putting out 115 bhp. The white 1800 GTE was the first UK car to be ‘colour-coded’ with body trim that matched the base colour of the car, this included wheel arch extensions, front side and rear lower skirts, mirror covers, bumpers and even the alloy wheels were painted white. The black, silver and red versions of the GTE also had colour-coding but had the more conventional black bumpers and silver painted alloy wheels.
Getting rare now is the Calibra, a model that GM introduced to counter the Japanese sports coupés of the late 1980s and early 1990s. Launched in 1989, it employed the running gear of the first generation Opel Vectra, which had been launched a year earlier in 1988. Calibra production was based in the Opel factory in Rüsselsheim, Germany, and the Valmet Automotive factory in Uusikaupunki, Finland, where production was consolidated in November 1995. Known in Europe as the Opel Calibra and as a Vauxhall in the UK, it was also marketed as the Chevrolet Calibra in South America and the Holden Calibra in Australia and New Zealand. The Calibra was styled by GM’s designer Wayne Cherry and the German designer, Erhard Schnell. and when launched, it was the most aerodynamic production car in the world, with a drag coefficient (Cd) of 0.26. It remained the most aerodynamic mass production car for the next 10 years, until the Honda Insight, along with the Audi A2, were launched both in 1999, with a Cd of 0.25, though the more powerful 16V, V6, 4×4 and turbo models had a worse Cd of 0.29, due to changes in their cooling system, underbody, use of spoked wheels and glass detail. As a front-wheel drive coupé based on the Vectra A chassis, its ride and handling were not significantly better than that of the large family car from which it grew. The 4WD turbo version of the car, which had independent rear suspension, featured the rear axle of the Opel Omega A with some minor alterations to it. Power was initially from 2.0 litre 8-valve 115 bhp and a Cosworth designed 16-valve fuel-injected 150 bhp four-cylinder redtop petrol engines. In 1992 a turbocharged 2.0 litre 16 valve 204 bhp engine was added to the range. With four-wheel drive, a six-speed Getrag manual transmission and a claimed top speed of 152 mph, this flagship model finally gave the Calibra the dynamics to match its looks. The Turbo model was also notable for the 5-stud wheel hubs and the extreme negative camber of its rear wheels, which is apparent even from a cursory visual inspection. In 1993 a 167 hp 2.5 litre V6 (was introduced. Available with both manual and automatic transmissions, the V6 was not as fast as the Turbo, but was rather more civilised, and proved to be more reliable as car than the complex four-wheel drive model. 1995 saw the introduction of the X20XEV Ecotec engine, a new version of the classic C20XE 16-valve or “red top” engine. This marked a reduction in power from 150 bhp to 136 bhp for the 16-valve version, although the Turbo continued with the older C20LET. Throughout the production run, several special edition models were launched. This began with the 1993 SE1, and ran through to the SE9 in 1997. These limited run editions had often unique aspects. For example, solar yellow paint on the SE2, or “Icelandic” blue on the SE6. Neither colours were found on any other Calibra. In September 1995, the Vectra A was replaced, but Calibra production continued until 1997. During its lifetime, the Calibra was much more popular in Europe, and outsold its nearest rival, the Ford Probe, which was considered to be underpowered, and very American for most European drivers, but in the UK, it failed to outsell the Rover 200 Coupé, which offered comparable performance, but without 4WD in the top–of–the–range models.
The Lotus Carlton (other names include Vauxhall Lotus Carlton, Lotus Omega and Opel Lotus Omega) is a Vauxhall Carlton/Opel Omega A saloon upgraded by Lotus to be a 177 mph sports saloon with acceleration to equal contemporary supercars. Like all Lotus vehicles, it was given a type designation—Type 104 in this case. The external differences were minimal with the addition of a rear spoiler, vents on the bonnet, Lotus badges on the front wings and bootlid, a bodykit and considerably wider wheel arches distinguishing it from a standard Carlton/Omega. The car was only sold in one colour, a shade called Imperial Green, a very dark green that in anything but direct light appears black. Performance modifications started with an upgraded engine, which was enhanced by Lotus from the standard Opel 2,969 cc 24v straight six unit (used in the GSi). The engine was enlarged to a capacity of 3,615 cc Lotus then added Garrett AiResearch T25 twin-turbochargers, which provide up to 0.7 bar (10 psi) of boost from about 1500 rpm. The original distributor ignition system of the engine was replaced with a three-coil wasted spark system. The distributor drive was re-purposed as a water pump drive for the water-air intercooler circuit. The intercooler itself is manufactured by Behr and is capable of reducing the temperature of the compressed charge from 120 °C to 60 °C. In addition to fitting two turbochargers and an intercooler system, Lotus directed a number of engineering changes to the engine so that it would perform reliably with the higher power output. To cope with the higher cylinder pressures (about 95 bar (9,500 kPa)), the external webbing on the engine block was reinforced. The crankshaft was replaced as well; early development crankshafts were machined from billet steel in Italy, but the production units were forged by Opel and sent to Maschinenfabrik Alfing Kessler for machining. The cylinder head was left mostly the same as the 4 valves per cylinder from the Opel Omega, although the combustion chamber was milled to reduce the static compression ratio to 8.2:1 (from 10.0:1). The engine was fitted with forged slipper pistons produced by Mahle. Piston connecting rods were replaced with new units made to an original Lotus design. The same ZF 6-speed manual transmission as fitted to a contemporary Chevrolet Corvette ZR-1 was used to transfer this power to the rear wheels via a rear limited-slip differential from the V8 Holden Commodore. The multi-link suspension of the Omega, already praised by the automotive press, was modified by Lotus for better high-speed stability and improved handling dynamics. To combat the problem of significant camber change (seen with the car at high speed and when fully laden), the self-levelling suspension from the Opel Senator was fitted. Also borrowed from the Senator was the Servotronic power steering system, which provides full power assist at parking speeds, and reduces the power assist as the road speed increases. The Lotus engineers would have preferred using a rack and pinion steering arrangement, but cost and space constraints limited them to the worm-and-roller arrangement. The Lotus Carlton produced 377 bhp at 5,200 rpm and 419 lb⋅ft (568 N⋅m) at 4,200 rpm of torque, of which 350 lb⋅ft (470 N⋅m) was available from 2000 rpm. The car is capable of 0–60 mph in 5.2 seconds and achieve 0–100-0 mph in less than 17 seconds. Tall gearing allows it to achieve approximately 55 mph in first gear. The Lotus Carlton/Omega held the title of the second fastest four-door saloon car for some years, after Alpina B10 Bi-Turbo. The Carltons/Omegas were a favourite target of joyriders and other thieves. This posed a problem for the police, who had nothing quicker than the 24V Senator Bs. Because the Carlton/Omega could equal or exceed the performance of many contemporary sports cars while also carrying four passengers, it generated some controversy among the automotive and general press. Bob Murray, then editor of Autocar magazine, wrote: “Nobody buying this car could possibly argue he either needs or will be able to use a top whack which is claimed to be around 180 mph.” Murray went on to suggest that Vauxhall should follow the example set by German automakers (who had begun electronically limiting the top speed of their high-performance cars to 155 mph.) This sentiment was picked up by newspapers and talk radio stations, who would interview people calling for the car’s ban. Ultimately, the Opel executives associated with the project voted unanimously to not restrict the car’s top speed, and it was released to acclaim from the motoring press. Production of the Lotus Carlton/Omega began in 1990, four years after the original Omega went on sale. Opel had hoped to build 1,100 cars in total, but owing to the recession of the early 1990s, the £48,000 cars were not selling as well as anticipated and production at Lotus was halted in December 1992. Only 950 cars were completed: 320 Carltons and 630 Omegas, 150 short of the original target. The cars are now starting to become modern classics as low-mileage, well-looked-after examples become rare.
The second generation of the Vectra was introduced at the 1995 Frankfurt Auto Show, replacing the Vauxhall Cavalier in the UK (first generation sold as Vauxhall Cavalier (UK) Opel Vectra (European mainland) in Europe it sold as an Opel and Australia and New Zealand as a Holden. The range consisted of a 5 door Hatch, 4 door Saloon and 5 door Estate introduced in 1996. Petrol and Diesel engines started with a 8 valve 1.6 litre (later updated to 16v), a 2.0 L Family II engine and a 2.5 L V6, Diesel engines were an Isuza 1.7 litre and Ecotec engines of 2 and 2.2 litre. The Irmscher Vectra was a limited production of the i500, Super Touring and GSi by tuning and body specialist Irsmcher who run the Opel arm of the Super Touring assault
VOLKSWAGEN
Another of the cars from the line of yellow-painted machines, and also somewhat modified is this classic Beetle.
Making its customary appearance here was “Eeyore”, the name given by owner Beth Schofield to her very late model Type 2 VW. There were a couple of examples of the Type 2 “Bus”, the second generation of VW’s versatile van range, first seen in late 1967. It was built in Germany until 1979. In Mexico, the Volkswagen Kombi and Panel were produced from 1970 to 1994. Models before 1971 are often called the T2a (or “Early Bay”), while models after 1972 are called the T2b (or “Late Bay”). This second-generation Type 2 lost its distinctive split front windshield, and was slightly larger and considerably heavier than its predecessor. Its common nicknames are Breadloaf and Bay-window, or Loaf and Bay for short. At 1.6 litres and 47 bhp DIN, the engine was also slightly larger. The battery and electrical system was upgraded to 12 volts, making it incompatible with electric accessories from the previous generation. The new model also did away with the swing axle rear suspension and transfer boxes previously used to raise ride height. Instead, half-shaft axles fitted with constant velocity joints raised ride height without the wild changes in camber of the Beetle-based swing axle suspension. The updated Bus transaxle is usually sought after by off-road racers using air-cooled Volkswagen components. The T2b was introduced by way of gradual change over three years. The first models featured rounded bumpers incorporating a step for use when the door was open (replaced by indented bumpers without steps on later models), front doors that opened to 90° from the body, no lip on the front guards, unique engine hatches, and crescent air intakes in the D-pillars (later models after the Type 4 engine option was offered, have squared off intakes). The 1971 Type 2 featured a new, 1.6 litre engine with dual intake ports on each cylinder head and was DIN-rated at 50 bhp. An important change came with the introduction of front disc brakes and new roadwheels with brake ventilation holes and flatter hubcaps. Up until 1972, front indicators are set low on the nose rather than high on either side of the fresh air grille – giving rise to their being nicknamed “Low Lights”. 1972’s most prominent change was a bigger engine compartment to fit the larger 1.7- to 2.0-litre engines from the Volkswagen Type 4, and a redesigned rear end which eliminated the removable rear apron and introduced the larger late tail lights. The air inlets were also enlarged to accommodate the increased cooling air needs of the larger engines. In 1971 the 1600cc Type 1 engine as used in the Beetle, was supplemented with the 1700cc Type 4 engine – as it was originally designed for the Type 4 (411 and 412) models. European vans kept the option of upright fan Type 1 1600 engine but the 1700 Type 4 became standard for US spec models. In the Type 2, the Type 4 engine, or “pancake engine”, was an option for the 1972 model year onward. This engine was standard in models destined for the US and Canada. Only with the Type 4 engine did an automatic transmission become available for the first time in the 1973 model year. Both engines were 1.7 L, DIN-rated at 66 bhp with the manual transmission and 62 bhp with the automatic. The Type 4 engine was enlarged to 1.8 L and 67 bhp DIN for the 1974 model year and again to 2.0 L and 70 bhp DIN for the 1976 model year. The two-litre option appeared in South African manufactured models during 1976, originally only in a comparably well-equipped “Executive” model. The 1978 2.0 L now featured hydraulic valve lifters, eliminating the need to periodically adjust the valve clearances as on earlier models. The 1975 and later U.S. model years received Bosch L-Jetronic electronic fuel injection as standard equipment; 1978 was the first year for electronic ignition, utilising a hall effect sensor and digital controller, eliminating maintenance-requiring contact-breaker points. As with all Transporter engines, the focus in development was not on power, but on low-end torque. The Type 4 engines were considerably more robust and durable than the Type 1 engines, particularly in Transporter service. In 1972, exterior revisions included relocated front turn indicators, squared off and set higher in the valance, above the headlights. Also, square-profiled bumpers, which became standard until the end of the T2 in 1979, were introduced in 1973. Crash safety improved with this change because of a compressible structure behind the front bumper. This meant that the T2b was capable of meeting US safety standards for passenger cars of the time, though not required of vans. The “VW” emblem on the front valance became slightly smaller. Later model changes were primarily mechanical. By 1974, the T2 had gained its final shape. Very late in the T2’s design life, during the late 1970s, the first prototypes of Type 2 vans with four-wheel drive (4WD) were built and tested.
Conceived as a replacement for the popular Beetle Cabrio, and at the time unique in the market place, a convertible version of the Golf was presented to Volkswagen’s management by coachbuilder Wilhelm Karmann GmbH as early as 1976. This early prototype lacked the roll-over bar of the later version, and had a flat body line in the rear, where the soft top folded down below the sill level. The production version of the convertible Golf was designated Type 155. In Europe and Canada it was called the Golf Cabriolet, while in the United States it was sold as the Rabbit Convertible until 1985, when it was also renamed “Cabriolet”. The Cabriolet was sold from 1980 to 1993. It had a reinforced body, a transverse roll-over bar, and a high level of trim. From stamping to final assembly the Mk1 Cabriolet was built entirely at the Karmann factory. Volkswagen supplied engines, suspension, and interior trim for Karmann to install. The tops, of vinyl or cloth, were heavily insulated, with a heated glass rear window. The top was raised and lowered manually until 1991, when it became electrically operated. The body of the Cabriolet did not change through the entire production run except for a larger fuel tank. It kept the pre-1980 style of rear lamp clusters. A space saver spare wheel was fitted from the outset, including 1978 pre-production models, unlike the saloon which did not adopt this until 1984. All Cabriolets from 1988 on left the factory fitted with a “Clipper” bodykit that featured smooth body-coloured bumpers, wheel-arch extensions, and side skirts. Prior to the 1984 model year the highest standard specification Cabriolet was the GLI, which was essentially a GTI in all but name. It was only in late 1983 with the introduction of the 1984 model that an officially badged GTI version of the cabriolet finally became available
The Volkswagen Golf Mk2 is a hatchback, the second generation of the Volkswagen Golf and the successor to the Volkswagen Golf Mk1. It was Volkswagen’s highest volume seller from 1983 and ended in (German) production in late 1992, to be replaced by the Volkswagen Golf Mk3. The Mk2 was larger than the Mk1; its wheelbase grew slightly (+ 75 mm (3.0 in)), as did exterior dimensions (length + 180 mm (7.1 in), width + 55 mm (2.2 in), height + 5 mm (0.2 in)). Weight was up accordingly by about 120 kg (260 lb). Exterior design, developed in-house by VW design director Schäfer, kept the general lines of its Giugiaro-designed predecessor, but was slightly more rounded. All told, about 6.3 million second-generation Golfs were built. The second-generation Volkswagen Golf (also known as the Typ 19E until the 1991 model year, and Typ 1G thereafter) was launched in Europe at the Frankfurt Motor Show in September 1983, with sales beginning in its homeland and most other left-hand drive markets soon after. It debuted in March 1984 on the right-hand drive British market, and it was introduced as a 1985 model in the United States. It featured a larger bodyshell, and a wider range of engine options, including a GTD turbodiesel (in Euro markets, later using the 1.6 “umwelt” (ECO) diesel engine), a DOHC 1781 cc 16-valve version of the straight-four GTI (as well as the tried and tested 1781cc 8v GTI), the supercharged 8v “G60” with front- and four-wheel drive options, and a racing homologated variant of this, the “Rallye Golf”. This model was intended to be sold in the United States as well (badged as “Rallye GTI”), and prototypes were made, but it did not come to be. The original Golf had been one of the few front-wheel drive hatchbacks on sale when launched in 1974, but within a decade almost all mainstream manufacturers had launched a Golf-like family hatchback. Ford had switched to front-wheel drive hatchback format for its MK3 Escort in 1980, soon after General Motors had adapted that concept for its latest Opel Kadett (Vauxhall Astra in Britain). Austin Rover (formerly British Leyland) did not enter the small family hatchback market until the launch of its Maestro at the beginning of 1983, although it had launched its larger Maxi hatchback as long ago as 1969 and in 1976 had taken the then unusual step of launching a hatchback bodystyle on a luxury car (the Rover SD1). Peugeot would not launch its first Golf-sized hatchback (the 309) until late 1985, but it had taken ownership of Chrysler’s European division (which it renamed Talbot) in 1978, just after the launch of the Chrysler/Simca Horizon hatchback. However, the likes of Fiat, Renault and Volvo had all entered the small family hatchback market by the end of the 1970s. The hatchback bodystyle had also become popular on cars produced outside Europe, particularly on Japanese models. In 1985, British motoring magazine What Car? awarded the Golf Mk2 1985 “Car of the Year”, even though it had actually been launched on the UK market early in the previous year. It sold well in Britain, peaking at more than 50,000 sales a year by the end of the decade. However, the Golf was overshadowed in the 1984 European Car of the Year contest, finishing third but being heavily outscored by the victorious Fiat Uno and runner-up Peugeot 205, which were similar in size to Volkswagen’s smaller Polo. During the life of the Golf MK2, there were a number of external style revisions. Notable changes to the looks of the Golf MK2 included the removal of quarterlight windows in the front doors, and the introduction of larger grille slats with the August 1987 facelift. The most notable was the introduction of so-called “Big Bumpers”, which were introduced in the European market with an August 1989 facelift. They were available in the United States from August 1989 as well, as part of the “Wolfsburg Edition” package. They were not standardized until January 1990. This Golf was marketed for the first time with that name in the United States and Canada. The Rabbit name used on the Mk1 was meant to give a car a cuddly image, but with the 1980s redesign of the car, Carl Hahn, the former Volkswagen of America president who was now chairman of the whole company, dictated that Volkswagen model names be standardized globally. James Fuller, head of the Volkswagen brand in North America, concurred in using the Golf name to stress the car’s Teutonic character. The GTI body kit became available on a non-injection Golf and was sold as the “Driver” trim level in Europe. While the GTI remained a trim level in the Golf lineup in Europe, in some markets, it was (and continues to be) marketed as a separate model line. Volkswagen also produced their model in Yugoslavia, in a factory at Vogošća near Sarajevo, called Tvornica Automobila Sarajevo – TAS. The MK2 was produced from June 5, 1985, with a yearly production of 25,000 units until the outbreak of war in 1992. This model was produced only for the six Yugoslav republics, with a rear badge J, JX (which stands for less equipment than C and CL), C and CL and TAS badge on the front grille and Sarajevo city logo instead side blinkers. Such models were usually very poorly equipped, with the passenger side rear-view mirrors being optional equipment which had to be paid for. Engines were 1.3 (carburettor), 1.6 petrol and 1.6 diesel. Continental sales began that autumn, but the MK3 did not take over from the MK2 on the right-hand drive British market until February 1992. The Golf Mk2 was available as a 3- and 5-door hatchback. The 2-door and 4-door sedan variants of the Golf Mk2 were marketed under the Volkswagen Jetta name. No cabriolet version was developed from the Mk2; instead, the Mk1-based convertible continued to be produced, with minor changes. Trim levels included base, C, CL and GL and initially a range-topping Carat model (until 1986), later a GT (in 1987) version was also on offer. In North America, there was only a base model until 1986, in 1987 a GL and GT model, in 1988–1989, there were all three, and in 1990 until the end of its run there was again only a GL. The GTI model existed from 1985 to 1987, and again from 1990 to 1992, and the GTI 16v existed from 1987 to 1992. In Japan the range consisted of catalysed Ci/CLi/GLi models all sharing the same 1.6 or later 1.8 liter fuel-injected inline-four engines. In the course of the years, a host of “limited edition” models appeared on various markets, distinguished by cosmetic changes and/or an enriched features list. Generally, these were option packages on top of a base “model” (CL, GL, etc.). Also in some countries it could be found trim level TX (Austria) and JX (Yugoslavia). The base engine was initially the 1.3 option as used in the first generation Golf, accompanied by 1.6- and 1.8-litre petrol fours and 1.6-litre naturally aspirated or turbocharged diesel engines. In January 1984 a new base engine was introduced, a 1.05 litre inline-four mainly available in Italy and Greece. In North America, all Golf Mk2s had 1.8-litre petrol or 1.6 diesel engines (the GTI, while not a Golf model in North America, also had a 2.0-litre model). The MK2 was the last version of the Golf to feature carburettor petrol engines, as all versions of the MK3 came with fuel injection from its launch, to meet requirements that all new cars sold in the EEC after 1992 must be fitted with a catalytic converter or fuel injection. The MK2 Golf remained in production until the launch of the MK3 model in August 1991
The original “G-Lader” engine, the smaller version of the G60 engine, called the G40, was previously used in the Mk2 Volkswagen Polo Coupé GT G40 supermini. The G40 engine could propel it to a top speed of 196 km/h (121.8 mph). The larger G60 engine debuted in August 1988 in the B3 Volkswagen Passat G60 saloon, and the Mk2 Volkswagen Golf G60 hatchback. In the Golf G60, it was capable of propelling the car from a standstill to 100 km/h (62 mph) in 7.8 seconds, reaching a top speed of 216 km/h (134.2 mph). A month later, in September 1988, the Volkswagen Corrado G60 was released. Performance figures for the Corrado G60 state a 0 – 100 km/h (62 mph) time of 8.3 seconds and a top speed of 225 km/h (139.8 mph). In the United States, the G60 engine was used only in the Corrado, and this was dropped in 1992 in favour of the newer, more powerful VR6 engine. A limited-production, four-wheel drive Syncro variant of the Golf G60, called the Golf Rallye was also powered by the eight-valve G60, but the engine was reduced to 1,763 cc for sports homologation purposes. It included a larger intercooler, which is mounted across the full width of the radiator. Power remained at 160 PS/158 bhp. A 16-valve G60 engine was used in the ultra-rare Golf Limited, of which only 71 were produced by VW Motorsport, all with four-wheel drive. Power was raised to 209 PS/207 bhp, and the car could now accelerate from 0 – 100 km/h (62 mph) in 6.4 seconds, reaching a top speed of 247 km/h (153.5 mph). The G60 engine, like any supercharged or turbocharged engine, was sensitive to high air temperatures, so engine performance very much depended on the weather conditions. Some models, like the Golf Rallye, or even some variants of the Golf G60, had a bigger, better-placed intercooler, resulting in increased, and more consistent performance compared to the standard placed intercooler. Technologies found in the G40 and G60 engines have subsequently been used in other Volkswagen engines. They first used this technology with turbochargers in their Turbodiesel ‘TD’ engines. Then, this evolved into their highly regarded range of Turbocharged Direct Injection ‘TDI’ diesel engine. Seen here were both a Golf Rallye G60 and a Polo G40.
There were a number of other mode recent performance-oriented VWs here, of course, including this Golf R from the seventh generation of the long-running model.
VOLVO
For 1995, the special limited edition 850 T-5R was offered, and was a commercial success, leading Volvo to produce a second run in 1996. Originally, it was to be called 850 Plus 5. The vehicle was based on the 850 Turbo, utilizing the B5234T5 engine with a special ECU (Bosch #628 in U.S and #629 in EU) that added an additional 2 psi (0.1 bar) of turbocharger boost pressure, giving the engine an extra 18 bhp for a total of 243 bhp and 250 lb/ft (340 Nm) of torque. The engine was mated to a 4-speed automatic transmission or 5-speed manual transmission, the latter of which was not available in the United States. The T-5R was renowned as a sleeper car; despite its boxy, understated appearance, it boasted a drag coefficient of 0.29 and was capable of accelerating from 0 to 60 mph in 5.8 – 6.0 seconds (depending on transmission and body type). The top speed was electronically limited to 152.2 mph (244.9 km/h). The vehicle came standard with Pirelli P-Zero tyres, providing lateral grip of 0.88 g. The engine tuning was co-developed with Porsche, as was the transmission and other powertrain components. Porsche also aided in designing some of the interior, such as the Alcantara seat inserts. These cars came as standard with nearly every feature available, only a handful of options – such as heated rear seats – were available. On the North American market only two options could be chosen, a trunk-mounted Alpine 6-CD changer and no-cost 16″ wheels for a smoother, more comfortable ride and driveability in snow when using all-season tyres. Also included in the 1995 T-5R package was a front bumper with a lip, rear spoiler, side skirts, polished aluminium door sills, special graphite leather and Alcantara seats, and a black interior with deep walnut wood grain accents. Both yellow and black versions came with the same black interior as the only choice. The T-5R has an additional badge to the left of the “850” on the trunk, referred to as “The Motorsport badge”. The standard road wheel was the titanium-gray 5-spoke 17×7 “Titan”. 1995 was the only year that the a model was badged as a “T-5R”; the following year, as Volvo recognized the vehicle’s popularity, the model was renewed with the designation “850R”. The T-5R featured side airbags installed in the seat cushions. The side airbags were integrated into the rest of the Volvo model line the following year as an option, and became standard a year after that; other manufacturers soon followed suit. The car was also fitted with an early example of daytime running lamps. Also, just like the 940, it had three-point seatbelts at all five seating positions (previously, cars had only a lap belt for the centre rear seat). The T-5R also used the OBDII diagnostics system, a year before OBDII was made an automotive standard. 6964 T-5Rs were produced worldwide, of which the largest market was Germany (1,433), Italy (914; 2.0 turbo), United States (876), Japan (749), Netherlands (489), UK (440), Sweden (321), Spain (185), and Canada. The 1995 850 T-5R was limited in exterior paint colour choices: Cream Yellow – 2,537 worldwide including saloon and estate. Only 346 sedans in this color were imported into the United States; wagons, only 49.[40] Cream Yellow was marketed in the Australian market as ‘Faded Yellow’ to compensate for the unrelenting Australian sun. The Gothenburg engineers were aware of the 1990s paint technology, and the fact it wouldn’t retain its deep lustre over the course of time, and hence, the clever marketing descriptor, ‘Faded Yellow’ was coined; Stone Black – 2,516 worldwide including saloon and estate; Olive Green metallic – 1,911 worldwide including saloon and estate. Colour distribution was limited in some countries i.e. not all countries got all 3 colours, Norway only received yellow. Two white, two Aubergine and three grey T-5Rs were also produced. The white and aubergine cars were preproduction cars whereas the grey ones were produced by special demand for the Arabian market. Both aubergines, at least one grey and at least one white T-5R were still registered in Sweden as late as 2014.
This was a really great event – generally with these sort of meets, bigger is better, provided it does not get so big that you can’t take it all before cars move. So perhaps it would be fairer to say, in true Goldilocks terms that this one was “just right”. There is a QS evening meet coming up later in the month, in advance of the regular Sunda morning gathering in May. As it stands, my diary is clear to attend both, so look out to see if the record turn out is repeated.
