Since first opening up, just under three years ago, Caffeine & Machine, located just a few miles off the Fosse Way and near Stratford-on-Avon has become a firm favourite among car and bike enthusiasts. There are two types of visitor: those who arrange to meet as a group, often a Car Club, and the individual who just drops in to see what is parked up, and perhaps to avail themselves of the range of food and drinks on offer. I have visited many times now, in both capacities. This latest visit, the eight in 2021 alone, and it would doubtless have been more had we not been locked down until mid April, was one of those “let’s just stop by and see what is there” sort of visits. I had been in London at the Concours of Elegance event during the day and had a Midlands hotel for the evening as I was en route to Bridgnorth the following day, so it seemed quite logical to secure a ticket for the late afternoon slot (weekends are popular, so you have to buy a ticket in advance, and they often sell out), figuring that as well as seeing some interesting cars, I could also eat here before heading to the hotel. Late summer sun was much in evidence, which always encourages more people to come along, and the yard was quite busy when I arrived, and there were plenty of comings and goings in the hours that followed. Here is what I saw:
There’s usually at least one Abarth here, so it was quite a surprise to find that on this occasion there did not appear to be. And that was the case for at least a couple of hours after I arrived, but then I spotted a bright red Series 4 driving in. The Series 4 version of the familiar 595 reached the markets in the middle of 2016. After rumours had circulated all winter following the launch of the facelifted Fiat 500 last year, Abarth finally unveiled the Series 4 at the end of May 2016. Initially, we were told that the cars would not be available in the UK until September, but that came forward somewhat, with dealers all receiving demo cars in June, and the first customers taking delivery in July. Three regular production versions of both the closed car and the open-topped C were initially available, all badged 595, and called Custom, Turismo and Competizione, as before, though numerous limited edition models have since appeared and in most case disappeared. The most significant changes with the Series 4 are visual, with a couple of new colours, including the much asked for Modena Yellow and a different red, called Abarth Red, which replaces both the non-metallic Officina and – slightly surprisingly – the tri-coat pearlescent Cordolo Red. as well as styling changes front and rear. The jury is still out on these, with many, me included, remaining to be convinced. At the front, the new air intake does apparently allow around 15 – 20 % more air in and out, which will be welcome, as these cars do generate quite a lot of heat under the bonnet. Competizione models for the UK retain the old style headlights, as they have Xenon lights as standard, whereas the Custom and Turismo cars have reshaped units. At the back, there are new light clusters and a new rear bumper and diffuser. Inside, the most notable change is the replacement of the Blue & Me system with a more modern uConnect Audio set up, which brings a new colour screen to the dash. Mechanically, there is an additional 5 bhp on the Custom (now 145) and Turismo (now 165 bhp) and the option of a Limited Slip Diff for the Competizione, which is likely to prove a popular option. Details of the interior trim have changed, with a filled-in glovebox like the US market cars have always had, and electric windows switches that are like the US ones, as well as a part Alcantara trim to the steering wheel in Competizione cars. These cars have now been on offer for five years and with Abarth sales on the rise, this is the model you see most often. This car belongs to someone known online as Emily Abarth, and she is a regular at the venue.
This glorious machine is rather special, as it is not quite a regular 105 Series Giulia GT, but rather one which has had the Alfaholics treatment, at great expense.
Rather than replacing the 916 Series GTV with a single model, Alfa elected to produce two successors., The more commodious of the two, the GT, was the first to appear, making its debut in March 2003 at the Geneva Motor Show, finally going on sale in early 2004. It was built at the Pomigliano plant, alongside the 147 and 159. The GT was based on the Alfa 156 platform, which was also used for the 147, providing the 2-door coupé with genuine five-passenger capacity. It was styled by Bertone. Most mechanicals were taken directly from the 156/147 using the same double wishbone front suspension and MacPherson rear setup. The interior was derived form the smaller hatchback 147 and shared many common parts. The GT shared the same dash layout and functions, the climate control system as well as having a similar electrical system. Some exterior parts were taken from 147 with the same bonnet, wing mirrors and front wings (from 147 GTA). The engine range included both a 1.8 TS, and 2.0 JTS petrol engine, a 1.9 MultiJet turbodiesel, and a top-of-the-range 240 bhp 3.2 V6 petrol. There were few changes during the GT’s production life. In 2006 Alfa introduced a 1.9 JTD Q2 version with a limited slip differential, and also added a new trim level called Black Line. In 2008 Alfa introduced the cloverleaf model as a limited edition complete with new trim levels, lowered suspension, body kit, 18 inch alloy wheels and was only available in the colours black, Alfa red, or blue. with 1.8 and 2.0 litre petrol engines as well as the 1.9 litre Multijet turbo diesel. The GT was acclaimed for its attractive styling and purposeful good looks, in 2004 being voted the world’s most beautiful coupe in the annual ‘World’s Most Beautiful Automobile’ (L’Automobile più Bella del Mondo) awards. The car sold reasonably well, with 80,832 units being produced before the model was deleted in 2010.
First seen as a concept at the 2011 Geneva Show, the production model 4C Competizione did not debut for a further 2 years. Production got underway later that year at the Maserati plant in Modena, and the first deliveries were late in 2013. Production was originally pegged at 1000 cars a year and a total of just 3500, which encouraged many speculators to put their name down in the hope of making a sizeable profit on selling their cars on. That plan backfired, and in the early months, there were lots of cars for sale for greater than list price. Press reaction to the car has been mixed, with everyone loving the looks, but most of them feeling that the driving experience is not as they would want. Owners generally disagree – as is so often the case! For sure, it has no radio, and no carpets and no luggage space to speak of, but you know that when you buy it. It won’t be the car everyone, but if you can live with these limitations, you are sure to enjoy it. Indeed, all owners I have ever spoke to do love their car. I know I would if I could find space (and funds!) for one in my garage!
There were also a couple of examples of Alfa’s highly rated Giulia here.
This is an example of the recently superceded B4 coupe, based on the F32-generation BMW 4 Series.
The styling of the Audi TT began in the spring of 1994 at the Volkswagen Group Design Center in California. The TT was first shown as a concept car at the 1995 Frankfurt Motor Show. The design is credited to J Mays and Freeman Thomas, with Hartmut Warkuss, Peter Schreyer, Martin Smith and Romulus Rost contributing to the interior design. A previously unused laser beam welding adaptation, which enabled seamless design features on the first-generation TT, delayed its introduction. Audi did not initially offer any type of automatic transmission option for the TT. However, from 2003, a dual clutch six-speed Direct-Shift Gearbox (DSG) became available, with the United Kingdom TT variants becoming the world’s first user of a dual clutch transmission configured for a right-hand drive vehicle, although the outright world first for a road car equipped with a dual clutch transmission was claimed earlier by a Volkswagen Group platform-mate, the left hand drive Volkswagen Golf Mk4 R32. The Audi TT takes its name from the successful motor racing tradition of NSU in the British Isle of Man TT (Tourist Trophy) motorcycle race. NSU marque began competing at the Isle of Man TT in 1907 with the UK manager Martin Geiger finishing in fifth position in the single-cylinder race. The 1938 Isle of Man Lightweight TT race was won by Ewald Kluge with a 250 cc supercharged DKW motor-cycle and the DKW and NSU companies later merged into the company now known as Audi. The TT name has also been attributed to the phrase “Technology & Tradition”. The production model (internal designation Type 8N) was launched as a coupé in September 1998, followed by a roadster in August 1999. It is based on the Volkswagen Group A4 (PQ34) platform as used for the Volkswagen Golf Mk4, the original Audi A3, the Škoda Octavia, and others. The styling differed little from the concept, except for slightly reprofiled bumpers, and the addition of rear quarterlight windows behind the doors. Factory production commenced in October 1998. Early TT models received press coverage following a series of high-speed accidents and the related fatalities which occurred at speeds in excess of 112 mph (180 km/h) during abrupt lane changes or sharp turns. Both the coupé and roadster variants were recalled in late 1999/early 2000, to improve predictability of the car’s handling at very high speeds. Audi’s Electronic Stability Programme (ESP) or Anti Slip Regulation (ASR) and rear spoiler were added, along with modifications to the suspension system. All changes were incorporated into subsequent production. Mechanically, the TT shares an identical powertrain layout with its related Volkswagen Group-mates. The TT uses a transversely mounted internal combustion engine, with either front-wheel drive or ‘quattro four-wheel drive’ available as an option. It was first available with a 1.8-litre inline four-cylinder 20-valve turbocharged engine in two states of DIN-rated power outputs; 180 PS (178 bhp) and 225 PS (222 bhp). The engines share the same fundamental design, but the 225 PS version features a larger K04 turbocharger (180 PS version came with a smaller K03), an additional intercooler on the left side (complementing the existing right-side intercooler), larger 20mm wrist-pins, a dual tailpipe exhaust, intake manifold with inlet on driver’s side, and a few other internals – designed to accommodate the increase in turbo boost, from roughly 10 pounds per square inch (0.7 bar) peak, to 15 pounds per square inch (1.0 bar). Haldex Traction enabled four-wheel drive, ‘branded’ as “Quattro” was optional on the 180 engine, and standard on the more powerful 225 version. The original four-cylinder engine range was complemented with a 3,189 cc VR6 engine rated at 250 PS (247 bhp) and 320 Nm (236 lb/ft) of torque in early 2003, which came as standard with the quattro four-wheel-drive system. In July 2003, a new six-speed dual clutch transmission – dubbed the Direct-Shift Gearbox (DSG), which improves acceleration through much-reduced shift times, was offered, along with a stiffer suspension. The
second generation TT was launched in 2006.
The second generation of the R8 (model code: Type 4S) was unveiled at the 2015 Geneva Motor Show and is based on the Modular Sports System platform shared with the Lamborghini Huracan. The development of the Type 4S commenced in late 2013 and was completed in late 2014. Initial models included the all-electric e-Tron and the V10 5.2 FSI along with the V10 plus. Unlike its predecessor, there was no manual transmission available and the entry-level V8 trim was also dropped. In 2016, the convertible (Spyder) variant was added to the line up which was initially available in the base V10 trim. In mid-2017, the high performance V10 plus Spyder was added to the range. A rear-wheel-drive model called the R8 RWS was introduced. In 2018, the R8 received a mid-cycle refresh with mechanical and exterior changes. The newer and more aggressive design language carried over from famous Audi models of the past and it’s appearance is slightly more angular up front. Some of the aerodynamic features such as the front aeroblades are shared with the Lamborghini Huracàn. The refreshed model had substantial performance improvements over its predecessor. The base R8 gets a power boost from 532 hp to 562 hp, while the V10 Plus was renamed V10 Performance Quattro and the engine saw a power increase by 10 bhp, now up to 612 bhp. The Audi R8 e-tron (2015) was an all-electric version of the second-generation R8. Unlike the earlier 2010 prototype based on the first-generation R8, it actually entered production, but only on a small scale, with less than 100 units sold. It featured a 92-kWh battery.
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.
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 40 bhp 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 Nm (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. It remains in production.
Final BMW to catch my eye was this M6 Coupe, a rather more elegant car than its 8 Series replacement, to my eyes.
Firmly placed in Ferrari’s history as one of their finest big GTs, the 550 Maranello’s combination of stylish Pininfarina lines and front mounted 12-cylinder engine meant this car had the potential to become an instant classic, following in the footsteps of its forebear, the 365 GTB/4 ‘Daytona’, and if you look at the way the prices are steading to go, it’s clear that the potential is being realised. Launched in 1996, and with modern styling cues, a 5.5 litre V12 engine producing around 485bhp and a reported top speed of 199mph, the 550 Maranello was a serious motor car. A less frenetic power delivery, the six speed manual box and excellent weight distribution were all factors in the 550 becoming the perfect European Grand Tourer. Ferrari updated the car to create the 575M. Launched in 2002, it is essentially an updated 550 Maranello featuring minor styling changes from Pininfarina. The 575M was replaced by the 599 GTB in the first half of 2006. Updates from the 550 included a redesigned interior and substantial mechanical improvements, including bigger brake discs, a larger and more powerful engine, improved weight distribution, refined aerodynamics and fluid-dynamics along with an adaptive suspension set-up (the four independent suspensions are also controlled by the gearbox, to minimize pitch throughout the 200-milliseconds shift time). Two six-speed transmissions were available, a conventional manual gearbox and, for the first time on a Ferrari V12, Magneti Marelli’s “F1” automated manual gearbox. The 575 model number refers to total engine displacement in cc, whilst the ‘M’ is an abbreviation of modificata (“modified”).
Launched at the 2015 Geneva Show, the 488GTB followed the lead set by the California T in bringing turbocharging into a modern-day, mid-engined V8 Ferrari supercar for the first time. The engine is completely new when compared with its V8 stablemate, not only in components but also in feel and character. It is a twin-turbocharged 3902cc unit whilst that in the California T is 3855cc. In the 488 GTB, it produces 660bhp at 8000rpm and 560lb ft at 3000rpm. Both outputs are significant increases over the normally aspirated 4.5-litre V8 used in the 562 bhp 458 Italia and 597 bhp 458 Speciale, and also greater than the car’s biggest rival, the McLaren 650S. The torque figure of the 488 GTB is such that it also exceeds the 509lb ft at 6000rpm of the normally aspirated V12 used in the range-topping Ferrari F12 Berlinetta. The mighty new engine in the 488 GTB drives the rear wheels through a revised seven-speed dual-clutch automatic gearbox derived from the 458. It features a new ‘Variable Torque Management’ system which, Ferrari says, “unleashes the engine’s massive torque smoothly and powerfully right across the rev range”. The gear ratios are also tuned to “deliver incredibly progressive acceleration when the driver floors the throttle”. The 488 GTB can crack 0-62mph in just 3.0sec, 0-124mph in 8.4sec and reach a top speed of 205mph. Its 0-62mph and 0-124mph times match the McLaren 650S’s, but the Woking car’s top speed is slightly higher at 207mph. The engine also accounts for the ‘488’ element of the car’s name, because each of the engine’s eight cylinders is 488cc in capacity when rounded up. The GTB suffix, standing for Gran Turismo Berlinetta, is a hallmark of previous mid-engined V8 Ferraris such as the 308 GTB. Not only is the new turbo engine more potent than the 4.5-litre V8 from the 458 Italia, but it is also more economical. Combined fuel economy is rated at 24.8mpg, compared with 21.2mpg in the 458 Italia, and CO2 emissions are 260g/km – a 47g/km improvement. Ferrari’s HELE engine stop-start system features on the 488 GTB. Developments on the dynamic side include a second generation of the Side Slip Angle Control system, called SSC2. This allows the driver to oversteer without intruding, unless it detects a loss of control. The SSC2 now controls the active dampers, in addition to the F1-Trac traction control system and E-Diff electronic differential. Ferrari says the result is “more precise and less invasive, providing greater longitudinal acceleration out of corners” and flatter, more stable behaviour during “complex manoeuvres”. Learnings from the Ferrari XX programme have also been incorporated into the 488 GTB, something that Ferrari says allows all drivers and not just professionals, to make the most of its electronic and vehicle control systems. It also claims the 488 GTB is “the most responsive production model there is”, with responses comparable to a track car. The 488 GTB has lapped Ferrari’s Fiorano test track in 1min 23sec – two seconds faster than the 458 Italia, and half a second quicker than the 458 Speciale. The dimensions of the 488 GTB – it is 4568mm in length, 1952mm in width and 1213mm in height – closely match the 458 Italia from which it has evolved. Its dry weight is 1370kg when equipped with lightweight options – 40kg more than the McLaren 650S. The new look, styled at the Ferrari Styling Centre, features several new aerodynamic features that improve downforce and reduce drag. Most notable is the addition of active aerodynamics at the rear through a ‘blown’ rear spoiler, where air is channelled from the base of the glass engine cover under the spoiler. This contributes to the 50% increase in downforce over the 458 Italia. Also new is a double front spoiler, an aerodynamic underbody, a large air intake at the front that references the 308 GTB, a diffuser with active flaps, new positioning for the exhaust flaps and new-look lights. The interior has been redesigned to be made more usable, including new switchgear, air vents and instrument panel. The multi-function steering wheel remains, while the infotainment system gets a new interface and graphics. The Spider followed the closed coupe model six months later, and it soon became the bigger seller of the pair, as was the case with the 458 models.
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, though in fact there was a late model hatch here as well.
Ford played much the same guessing game about whether there would be an RS version of the third generation Focus as they had done with the earlier versions. Production of the regular cars started in late 2010, but it was not until the 2015 Geneva Motor Show before the production ready MKIII Ford Focus RS was unveiled. It came packing the turbocharged 2.3-litre inline-four engine found in the Mustang EcoBoost. In the Focus RS, the engine itself produces 350 hp. Power is sent to all four wheels via Ford’s all-new Torque-Vectoring All-Wheel-Drive system with a rear drive unit designed by GKN, as well as upgraded suspension and brakes. As well as that, the new Focus RS will be fitted with Drive Modes – including an industry-first Drift Mode that allows controlled oversteer drifts – and Launch Control. The RS will boast a model specific aerodynamic package that helps to differentiate it from other Focus models. The RS is capable of accelerating to 100 km/h (62 mph) in 4.7 seconds. Sales finally started in mid 2016, with long waiting lists having been created, though Ford did eventually catch up with expanded production levels allowing them to meet the demand.
The Ford Mustang Mach 1 is a performance-oriented option package of the Ford Mustang, originally introduced by Ford in August 1968 as a package for the 1969 model year. The Mach 1 title adorned performance oriented Mustang offerings until the original retirement of the moniker in 1978, returning briefly in 2003 and 2004. Best known of the Mach 1 cars those made in 1971 and 1972, as seen here, not least because the car had a starring role in the Bond film “Diamonds are for Ever”. A new fastback style was introduced for 1971, though the underpinnings were still related to the original Mustang of 1964.
Also here were a couple of examples of the latest Mustang, a car that is finally available from the dealer in right hand drive form. It has proved popular in the UK, with many opting for the V8 powered cars, despite the tax and economy hit that ensues.
The sixth generation Honda Civic was introduced in 1995 with 3-door hatchback, 4-door sedan and 2-door coupe body styles, replicating its predecessor’s lineup. A 5-door hatchback was also produced to replace the Honda Concerto hatchback in Europe but this model, while using the same design language as the rest of the Civic range, was quite distinct, instead being a hatchback version of the Honda Domani, sharing that car’s platform which was related to the fifth-generation (EG/EH/EJ) Civic. The Domani replaced the sedan version of the Concerto in Japan while the sedan version of the Concerto was directly replaced by the sixth generation Civic sedan in other markets. Two wagons were also made available; the JDM Orthia, based on the Civic sedan/3-door hatchback line, and a 5-door hatchback/Domani-based model, sold as the Civic Aerodeck, in Europe. Neither were offered in North America. The Civic 5-door hatchback also formed the basis for the 1995 Rover 400 although the 4-door sedan version of the Rover was quite distinct from the Domani. At its introduction in 1995, it won the Car of the Year Japan Award for the third time. Although the same basic model was sold around the world, there were a lot of differences in available engines and specs. The seventh generation model arrived in 2000.
Although some of the older cars lived for a few months more, whilst production ramped up, the Jaguar XJ6 and Daimler Sovereign cars that were launched in 1968 were intended to replace all the saloon cars. Offered initially with a choice of 2.8 and 4.2 litre XK engines, these cars wowed the press and the public just as much as many of their predecessors had done, both for their excellence and the fact that they were priced well below their competitors. It was not long before there was a long waiting list. As if this was not enough, the new V12 engine which had first been seen in the Series 3 Jaguar E Type was slotted under the bonnet of the cars in Spring 1972, creating one of the fastest and most refined saloons available in the world. At the time, the fact that it would only average around 11 mpg was not an issue, but within 18 months, and the onset of the Yom Kippur war and the resultant fuel crisis of late 1973, suddenly these cars – desirable as they were – became rather harder to sell. A Series 2 model was launched in the autumn of 1973, with new front end styling and bumper height set to meet the requirements of the critical US market.
Also here were a couple of examples of the current Jaguar sports car, the F Type.
In 1987, a new version of the mid-engined Esprit was unveiled, incorporating rounder styling cues given by designer Peter Stevens (who later designed the McLaren F1). A new Lotus patented process was introduced to create the new body, called the VARI (Vacuum Assisted Resin Injection) process, which offered more advantages than the previous hand laid process. Kevlar reinforcement was added to the roof and sides for roll-over protection, resulting in an increase of the Esprit’s torsional rigidity by 22 percent. Giugiaro is said to have liked the restyling, claiming it was perhaps too close to his original design. The Stevens styled cars retained the mechanical components of the previous High Compression Esprit and Turbo Esprit, but introduced a stronger Renault transaxle, which necessitated a move to outboard rear brakes. However, the MY 1988 North American Esprit Turbo kept its Citroën SM type transaxle and the Bosch K-Jetronic fuel injection system used in the previous model year. The car’s Type 910 engine retained 215 bhp and 220 lb·ft, but decreased its zero to sixty from 5.6 seconds to a varied time between 5.4 – 5.1 seconds and a top speed of over 150 mph. The exterior style changes were accompanied by a redesign of the interior, allowing a little more space for the occupants. The Stevens styled Esprit is often known by its project code of X180. In 1989, the Esprit was again improved with the GM multi-port, electronic fuel injection system and the addition of a water to air intercooler, which Lotus has named the Chargecooler, producing the SE (Special Equipment). This inline-four engine was known as the Type 910S. Horsepower was pushed up to 264 with 280 available on overboost and zero to sixty miles per hour times reduced to 4.7 seconds with a top speed of over 160 mph. Several modifications were made to the body kit as well, like side skirts which are parallel to the body, five air ducts in the front air dam, wing mirrors from the Citroën CX and the addition of a rear wing. Along with the SE, Lotus produced the little seen Esprit S, a midrange turbocharged car offering fewer appointments and 228 hp, as well as the standard turbo still offering 215 hp . The N/A and lower-powered turbo were cancelled after 1990, and the S in 1991. Another unusual variant was a two-litre “tax special” developed for the Italian market, fitted with an intercooled and turbocharged version of a new 1,994 cc version of the venerable 900-series four-cylinder engine. Equipped with SE trim, this appeared in December 1991 and produced 243 PS at 6,250 rpm. Beginning in the autumn of 1996, this engine became available in other markets as well. The Esprit was a popular and successful addition to the American IMSA Bridgestone Supercar Championship and as a result Lotus produced the SE-based X180R, with horsepower bumped to 300 and with racing appointments. The Sport 300 was a derivative of the X180R sold in Europe, which included many modifications. These are known as the fastest of the four-cylinder Esprits and among the most desirable. In 1993, another exterior and interior revamp of the car resulted in the S4 which was the first model to include power steering. The exterior redesign was done by Julian Thompson, which included a smaller rear spoiler placed halfway up the rear decklid. Other major changes were to the front and rear bumpers, side skirts and valence panels. New five spoke alloy wheels were also included in the redesign. The S4 retained the same horsepower as the SE at 264 hp.The S4 was succeeded in 1994 by the S4s (S4 sport), which upped power to 300 bhp and 290 lb·ft of torque, improving all-around performance while retaining the comfort of the previous version. Top speed was increased to 168 mph, skidpad increased to 0.91g, an increased slalom of 61.7 mph and a 0-60 mph time of 4.6 seconds. Although the engine kept its 2.2-litre capacity, many modifications were added to improve engine performance. Some of the changes were enlarged inlet ports, cylinder head modifications, a re-calibrated ECM and a revised turbocharger. The most
visible external styling changes was the addition of a larger rear wing taken from the Sport 300. In 1996 the Esprit V8 used Lotus’ self-developed all-aluminium, twin-turbocharged (Garrett T25/60 turbos) 90-degree V-8, Code-named Type 918, in front of the same Renault transmission as before with no Chargecooler. Derek Bell developed an uprated gearbox that overcame a lot of the gearbox problems with a much thicker single piece input shaft. The Type 918 engine was detuned from a potential 500 bhp to 350 bhp to prevent gearbox damage due to the fragility of the Renault UN-1 transmission. In period tests, zero to sixty miles per hour came in at 4.4 seconds and top speeds of over 175 mph were achieved. Produced alongside V8 models was the GT3, a turbocharged four-cylinder car with the type 920 2.0 litre chargecooled and turbocharged engine which had been used only in Italian market cars previously. In 1998 the V8 range was split into SE and GT specifications, both cars with a much changed interior configuration, both offering similar performance with the SE being the more luxurious of the two. The ultimate incarnation of the Esprit came in 1999 with the Sport 350. Only 50 were made, each offering 350 horsepower (per the name) and various engine, chassis and braking improvements, like the addition of AP Racing brakes, stiffer springs and a revised ECU. Several visual changes were made as well, including the addition of a large carbon fibre rear wing on aluminium uprights in place of the standard fibreglass rear wing. By this time the Esprit could reach 60 mph in 4.3 seconds as well as reaching 0-100 mph in less than 10 seconds, and weighed 1,300 kg (2,866 lb) as a result of many modifications. Thereafter, Lotus made little development aside from minor cosmetic changes including a switch to four round tail lights for the 2002 model year. Esprit production ceased in February 2004 after a 28 year production run. A total of 10,675 Esprits were produced.
There was only one Maserati here – mine. Sometimes if there is a space near the buildings, I get invited to park in what is considered the prime display area, but on this occasion, that area was full, so it had to go in the parking area around the back. It still seemed to be attracting interest and photographers, though.
Without question, the star attendee for most people would be this, a McLaren Senna.
Now an established part of the McLaren range, the 570S along with its slightly cheaper and less powerful brother, the 540C, was revealed at the 2015 New York Auto Show, going on sale towards the end of that year. These were labelled as part of McLaren’s Sports Series. This mid-engine sportscar features the lightweight carbon fibre MonoCell II chassis, and a highly efficient 3.8-litre twin turbo V8 engine generating 562bhp and 443lb/ft of torque. Although the model has been conceived with a greater focus on day-to-day usability and refinement, it is still very much a pure McLaren, boasting a class-leading power-to-weight ratio of 434PS per tonne, and electrifying performance. The 570S Coupé accelerates from 0 to 100km/h in just 3.2 seconds, reaches 200km/h (124mph) in 9.5 seconds, and on to a top speed of 204mph. Pricing for the 570S Coupé started at £143,250, though like all cars of this type, that figure can quickly rise once you raid the options list.
The Mercedes-Benz W140 is a series of flagship vehicles that were manufactured by the German automotive company Mercedes-Benz from 1991 to 1998. On November 16, 1990, Mercedes-Benz unveiled the W140 S-Class via press release, later appearing in several February and March editions of magazines. The W140 made its public debut at the Geneva Motor Show in March 1991, with the first examples rolling off the production line in April 1991 and North American examples on August 6, 1991. Short (SE) and long (SEL) wheelbase sedans were offered initially, as well as the coupé (SEC = S-Klasse-Einspritzmotor (Fuel injection engine)-Coupé) body style C140 from October 1992. Like all Mercedes-Benz lines, the W140 S-Class was rationalized in late 1993 using the new “letter-first” nomenclature. The SE, SEL, and SEC cars were renamed the S-Class, with alphanumerical designations inverted. For example, the 500 SE became the S 500, and the 500 SEL became the S 500 L. In 1996 the coupé models following a mid-life update were separated into the CL-Class. As with its predecessor, the W126, the W140 was the first of the “next generation” of Mercedes-Benz models to feature the company’s new design theme. This design was adopted for the new C-Class in 1989 and during 1991 for use on the facelifted W124 in 1993. Development on the W140 began in 1981, originally set for an October 1989 production start. From 1982 to 1986 several designs were reviewed, until December 9, 1986 when a definitive design by Olivier Boulay was approved. Several prototypes were tested onwards from early 1987 and the final production exterior design was frozen in September 1987, with domestic design patents being filed on February 23, 1988 and U.S. patents six months later on August 23. The design was said by lead designer Bruno Sacco to be influenced by Jaguar’s XJ40 sedan and BMW’s E32 7-Series. Before production started, the exterior appearance of the W140 was revised in the form of the grille on all W140s being recessed as opposed to a planned exclusive grille on the top model, a feature which later spread to the rest of the Mercedes-Benz range. In 1987, an 18-month delay was made from 1989 to 1991 to accommodate a V12 engine and a high-performance braking system. This resulted in the final development prototypes being completed in June 1990. Pilot production models were made from June 1990 to January 1991. The W140 introduced innovations such as double-pane window glazing, power-assisted closing for doors and trunk lid, electric windows which lowered back down upon encountering an obstruction, rear-parking markers which rose from the rear wings (discontinued on later vehicles, and replaced with sonar-assisted parking) and a heating system which, if desired, continued to emit warm air after the engine was turned off. For details like this, the W140 is often known as the last Mercedes to be “over-engineered,” a Mercedes trait that was costing the company in product delays and overbudgeting. According to Motor Trend, this action reportedly caused project cost overruns and resulted in the departure of Wolfgang Peter, Daimler-Benz’s chief engineer. The vehicle is believed to have cost Mercedes-Benz over $1 billion to develop. For the consumer, the W140 cost a considerable 25 percent more than its predecessor, the W126. The W140 was to feature air suspension as an option, but it was dropped shortly before launch because Mercedes was still perfecting the technology at the time. Mercedes chose to launch air-suspension (AIRMATIC) in the next generation S-Class in 1998. The W140 instead used a rear hydropneumatic suspension, first introduced on the W116 450 SEL 6.9 (introduced in 1975) to be used on the S 500 and S 600 models. Following the mid-year facelift in 1995, Mercedes-Benz made Electronic Stability Control an optional fixture to both sedan and coupé body styles in the W140 range. Both the sedan and coupé body styles were equipped with Acceleration Slip Regulation (ASR) traction control as a standard feature on V8 models after the 1994 model year (V12 models always had ASR standard), and then the 1997 model year for I6 models. Like its predecessor, the car was available in two wheelbase lengths (short W140 and long V140) along with the C140 coupé. In 1991, a new M120 6 litre 402 horsepower V12 engine joined the lineup for the first time with the 600 SEL and 600 SEC. A “V12” badge was affixed to the C-pillar. In 1993, the 402 bhp ( 408 bhp Europe ) V12 engine was slightly detuned to 389 bhp to comply with tighter emission control regulations in the United States and Europe. The V8 models were tuned down from 322 to 315 bhp. This de-tuning, among other changes, involved the deletion of the full-throttle enrichment circuit,. The W140 600 SEL was available with wooden rear ash tray covers, wood/leather shift knob, leather dashboard and a suede headliner, unlike the V8 and inline 6-cylinder models. Following the facelift in 1994, the S 600 was updated with a wood/leather steering wheel, a V12 badge on the wood/leather shifter, double needle stitching all over the interior and two tone nappa leather seating – further distinctions from its lower rung siblings. In June 1993, as part of the new corporate naming campaign, the model range was renamed. This resulted in all SE and SEL models now being redesignated as “S”, being followed by the numbering. In late 1991, after worldwide launch, work begun on improvements to the W140. By the end of 1992, final design changes were approved and later patented(application) on February 27, 1993, exactly 5 years after the original W140 design patent application in 1988. In March 1994, the updated models were unveiled at the Geneva Auto Salon and went on sale in April 1994 in mainland Europe and in other markets during the second half of the year. The clear turn signal indicator lenses on the front and new taillights were the most obvious change, as was the grille including a new and distinctive one for S 600s. Headlamps were fitted with separate low H7, H1 fog, and high H1 beam reflectors in 1994; pre-1995 models used an H4 bulb and H3 for the fog lamp. In April 1995, “Parktronic” replaced the parking guiders on the rear boot lid. In 1995, the two tone exterior appearance was made to be monotone, low-beam xenon headlamps were added and the rear indicator lenses became clear. The changes were later introduced in June 1996 as 1996.5 models in Europe and 1997 models in the United States. The range was replaced by the far less bulky looking W220 saloon and C215 coupe in 1998 by which time Mercedes-Benz had built 432,732 examples, comprising 406,710 sedans and 26,022 coupés.
A rather different sort of Mercedes is this, the latest version of the G Wagen
Following the successful showing of the Mitsubishi HSR and Mitsubishi HSX concept cars at the 1989 Tokyo Motor Show, Mitsubishi developed a production car which they called the 3000 GTO as a technologically advanced 2+2 seater sports coupe to compete with the Honda NSX, Mazda RX-7, Nissan 300ZX, Skyline GT-R, Subaru SVX and the Toyota Supra. They resurrected the GTO name, last used in the mid 1970s and the top spec Galant Coupe model, and the car went on to serve as Mitsubishi’s flagship for the remainder of the decade. However, despite the cachet of the badge at home, it was marketed as the Mitsubishi 3000GT and as the Dodge Stealth outside Japan; the company was concerned that connoisseurs would object to the evocative nameplate from the highly regarded Ferrari 250 GTO and Pontiac GTO being used on a Japanese vehicle. However, regardless of its badge or eventual target market, every car was built on the same production line at Mitsubishi’s plant in Nagoya, Japan. Its introduction in Japan in 1990 was unfortunately timed, as it coincided with the softening of the Japanese economy, known as the “bubble economy” which had an effect on sales. The car was packed with technology and many of Mitsubishi’s contemporary performance-enhancing technologies, such as full-time four-wheel drive, four-wheel steering, active aerodynamics featuring automatically adjusting front and rear spoilers, sport/tour exhaust modes and electronically controlled suspension (ECS). These “Active Aerodynamics” were not used on the Dodge Stealth. Visually, both the GTO/3000GT and Stealth featured pop-up headlights and noticeable “caps” on the bonnet to accommodate the ECS controllers at the top of the strut turrets. However the rest of factory body kit differed in styling with their respective badges. Most notable are the Dodge signature cross-hairs on the Stealth front bumper fascia, Ferrari inspired gills on the 3000GT rocker panels, Crescent shaped spoiler on the Stealth commonly referred to as the “Banana Wing” and front Active Aero air dam on 3000GT VR4. A mildly revised second generation car appeared in 1994. As the price increased, Mitsubishi also steadily removed some of the or costly (and gimmicky) technology features, and towards the end of production the front end was revised to incorporate fixed rather than pop up headlights. The car was phased out in 1999 for all markets apart form Japan, where it ran for another year.
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. Seen here was the 997 Turbo.
There were surprisingly few Porsche here compared to a more typical weekend slot, with this 987-generation Boxster being the only other model that I noted.
The Dauphine was huge success for Renault globally, with over two million of them being produced between 1956 and 1967, all of them in a single body style – a three-box, 4-door saloon – as the successor to the Renault 4CV. All the cars looked the same, though there were variants, such as the sport model, the Gordini, a luxury version, the Ondine, and the 1093 factory racing model, and the car formed the basis for the Caravelle/Floride, a Dauphine-based two-door coupé and two-door convertible. The car’s predecessor, the 4CV had been a success for Renault, too, with over 500,000 produced by 1954. The Dauphine was born during a conversation with Lefaucheux and engineer Fernand Picard. The two agreed the 4CV was appropriate in its postwar context, but that French consumers would soon need a car appropriate for their increasing standard of living. Internally known as “Project 109” the Dauphine’s engineering began in 1949 with engineers Fernand Picard, Robert Barthaud and Jacques Ousset managing the project. A 1951 survey conducted by Renault indicated design parameters of a car with a top speed of 110 km/h (68 mph), seating for four passengers and fuel consumption of less than 7 L/100 km(40 mpg). The survey indicated that women held stronger opinions about a car’s colours than about the car itself. Engineers spent the next five years developing the Dauphine. Within the first year, designers had created a ⅛th-scale clay model, studied the model’s aerodynamics, built a full-scale clay model, studied wood interior mockups of the seating, instrument panel, and steering column – and built the first prototype in metal. Having largely finalised the exterior design, testing of the prototype began at Renault’s facilities at Lardy by secrecy of night, on July 24, 1952. Using new laboratories and new specially designed tracks, engineers measured maximum speed, acceleration, braking and fuel consumption as well as handling, heating and ventilation, ride, noise levels and parts durability. Engineers tested parts by subjecting them to twisting and vibration stresses, and then redesigning the parts for manufacture. By August 1953 head engineer Picard had an almond-green prototype delivered to Madrid for dry condition testing, ultimately experiencing only five flat tyres and a generator failure after 2,200 km. Subsequently, Lefaucheux ordered engineers to test a Dauphine prototype directly against a Volkswagen Beetle. The engineers determined that noise levels were too high, interior ventilation and door sealing were inadequate and most importantly, the engine capacity was insufficient at only 4 CV (748 cc). The four-cylinder engine was redesigned to increase its capacity to 845 cc by increasing the bore to 58 mm, giving the car a new informal designation, the 5CV. By 1954 a second series of prototypes incorporated updates, using the older prototypes for crash testing. Lefaucheux followed the testing carefully, often meeting with his engineers for night testing to ensure secrecy, but did not live to see the Dauphine enter production. He was killed in an accident on February 11, 1955, when he lost control of his Renault Frégate on an icy road and was struck on the head by his unsecured luggage as the car rolled over. The Flins factory was renamed in his honour, and he was succeeded on the project by Pierre Dreyfus. By the end of testing, drivers had road tested prototypes in everyday conditions including dry weather and dusty condition testing in Madrid, engine testing in Bayonne, cold testing at the Arctic Circle in Norway, suspension testing in Sicily, weatherseal testing in then-Yugoslavia – a total of more than two million kilometres of road and track testing.In December 1955, Pierre Bonin (director of the Flins Renault Factory) and Fernand Picard presented the first example to leave the factory to Pierre Dreyfus, who had taken over the project after Lefaucheux’s death. Renault officially revealed the model’s existence to the press through L’Auto Journal and L’Action Automobile et Touristique in November 1955, referring to it simpl
y by its unofficial model designation “the 5CV”. Advance press preview testing began on February 4, 1956, under the direction of Renault press secretary Robert Sicot, with six Dauphines shipped to Corsica. Journalists were free to drive anywhere on the island, while under contract not to release publication before the embargo date of March 1, 1956. The Dauphine debuted on March 6, 1956 at Paris’ Palais de Chaillot with over twenty thousand people attending, two days before its official introduction at the 1956 Salon International de l’Auto in Geneva. Renault considered the name Corvette for its new model, but to avoid a conflict with the recently launched Chevrolet Corvette instead chose a name that reinforced the importance of the project’s predecessor, the 4CV, to France’s postwar industrial rebirth. At introduction, the Dauphine was positioned in the marketplace between the concurrently manufactured 4CV, and the much larger Frégate. The new model followed the 4CV’s rear-engine, four-door three-box sedan format, while providing greater room and power and pioneering a new focus for Renault on interior and exterior color and design.The Dauphine used a version of the 4CV’s water-cooled Ventoux engine with capacity increased from 760 cc to 845 cc, and power increased from 19–32 hp. Engine cooling was facilitated by air intakes behind each rear door and a vented rear fascia. The Dauphine had a front-hinged boot lid, which housed the headlights and opened to a seven-cubic-foot boot. The spare tyre was carried horizontally under the front of the car, behind an operable panel below the bumper. The interior featured adjustable front bucket seats and a rear bench seat, a heater, painted dash matching the exterior, twin courtesy lamps, a white steering wheel, rear bypassing (vs. roll down) windows, twin horns (town and country) selectable by the driver and twin open bins on the dashboard in lieu of gloveboxes. Exterior finishes included a range of pastel colours. The Gordini version was offered with a 4-speed transmission, four-wheel disc brakes from 1964 and increased horsepower, performance tuned by Amédée Gordini to 37 hp. The 1093 was a factory racing model limited edition of 2,140 homologated, which were tuned to 55 hp and featured a twin-barrel carburettor, rear track rods, four-speed manual transmission and tachometer, had a top speed of 140 km/h (87 mph), and were produced in 1962 and 1963. All were painted white with two thin blue stripes running front to back along the hood, roof and boot. The Dauphine was made under licence in a number of countries around the world. This one had been beautifully restored – and then (sadly, in my opinion, but others will disagree!), slammed.
Expectations were high for another class-leading sporty Clio when Renault debuted the third generation model in 2005, and enthusiasts were not disappointed when Renault premiered the car, which was called the Clio RS 197. The new Clio III drew technology from Formula One, including a rear diffuser and brake cooling side vents, they upgraded the engine, now to 194 bhp (197 PS). The car is heavier than its predecessor, but the acceleration figures are slightly improved due to a combination of more power, torque and the new six-speed gearbox with shorter gearing according to the official figures published on the Renaultsport website. The facelifted Clio III was further enhanced with the inclusion of a front splitter and the engine now produced 197 bhp (200 PS). This has been made possible by tweaks to the exhaust system, valve timing and ECU also stated to give a slight increase in fuel economy. Acceleration figures were slightly improved due to shorter gearing in 1, 2 and 3 and enhancements have been made to the cup chassis including making the steering rack more responsive. Cosmetic enhancements include the addition of larger tailpipes protruding slightly from the rear diffuser, i.d. coloured front bumper insert, wing mirror covers and rear diffuser and i.d. interior trim. Renault also introduced a new i.d. paint option of Alien Green. The 200 is highly regarded by EVO magazine, remaining their hot hatch of choice since 2009. “After the mild disappointment of the Clio 197, Renaultsport has got the Clio back to its very best, producing a cracking small hot hatch more than capable of chasing down supercars on eCOTY 2009 for a top five finish”. It was hailed by CAR Magazine as “the 911 GT3 of hot hatches” and remained CAR Magazine’s “Best in Class” since its release in 2009. Renault produced a significant number of limited edition variants during the model’s life cycle. Production ceased in 2012 when the fourth generation was launched.
This Favorit eventually succeeded the ageing rear-engined, rear-wheel drive Škoda 105/120 Estelle, and was a considerable move towards the modern mainstream in design terms thanks to its Bertone-designed hatchback body and front-wheel drive. However, the Favorit initially took a long time to get to market – Škoda’s then owner, the communist government of Czechoslovakia approved the development of this new front-wheel drive car back in 1982, with actual development not starting until 1983. Disputes between the government’s brief, and Nuccio Bertone, the designer, meant that the car was not designed until mid-1985, and full production wouldn’t commence until 1987. Probably the worst aspects of this dispute is that a four-door saloon and two-door hatchback coupe were fully designed, but never went into production. The Favorit proved itself as one of Central Europe’s most popular cars, and was also exported to a number of countries including Argentina, Bosnia and Herzegovina, Chile, China, Colombia, Ecuador, Perú, Israel, Poland, Russia, Turkey and other countries. It is perhaps comparable to the Volkswagen Polo (fuel injected versions share the Bosch Mono-Motronic 1.2.3 engine management system with the Volkswagen Polo Mk2 and Volkswagen Golf Mk3) due to its large engine compartment, contributing to the possibility of easy repair. Parts are very universal with other Eastern European cars. Its general design and mechanical functionality is very practical, especially in comparison to a Western car which requires expensive parts, or maintenance for simple knobs, buttons or other simple mechanical and rudimentary apparatus. A five-door estate version named the Škoda Forman (Type 785) appeared in 1990. This was known as the Favorit Estate in the UK from its launch in June 1991, two years after British buyers were first able to buy the hatchback. The name originates from the Czech word “forman”, which in English is “wagoneer”, or someone who transports goods by wagon. It is a common misconception that the name is somehow related to famous Czech filmmaker Miloš Forman. A two-door two-seat pick-up truck, called the Škoda Pick-up (Type 787), was introduced the following year. Following the takeover of Škoda Auto in 1991 by the Volkswagen Group, new developments and upgrades were rapidly implemented on the Favorit. This included new fuel injected catalytic converter versions, marketed as the Li, GLi and the GLXi models were introduced. At the same time many cosmetic improvements were made to the Favorit, such as improved door hinges, Volkswagen seats and interiors, dashboards and instrumentation. Quality control improvements were also implemented, along with safety features such as strengthened beams in the doors, and a redesigned front. During 1993, another range of modernisations took place, which included mechanical and electrical upgrades to the engine, a facelift of the bodywork, and bigger bumpers. Special versions were made in limited numbers. “Black Line” was sold with a pop-up sunroof, Hella clear rear lights, tinted windows all-around, power door locks, tachometer, digital clock in the centre overhead console, smart intermittent wipers, leather-wrapped steering wheel and gearchange knob, Hella headlight washer, and a Blaupunkt stereo with 4 speakers. The car is recognisable from the all-black paint, and the factory 13″ Ronal F-Series alloy wheels. “Silver Line” was similar, only in metallic silver colour with a black fascia around the back window and the B pillars. These packages were available with both hatchback and estate body styles. “Solitaire” was very rare, including all of the above plus spoiler on the rear door, factory alarm system, power front windows and fuel injection. The other special versions came with either carburetted or fuel-injected engines. The Favorit was replaced in 1994 by the Škoda Felicia, which was developed in conjunction with Volkswagen Group, who were by then the owners of Škoda Auto. Some 50,000 examples of the Favorit were sold in the UK from 1989 to 1995, although just 232 were stil
l on the road by December 2016, and they were disappearing fast.
Sole Subaru here was this latest generation WRX STI. These cars sell in very small quantities in the UK, and seem somewhat at odds with the rest of the Subaru range, which has retreated back to offering all-wheel drive but otherwise rather bland machines, though of course there is a real rallying pedigree in the ancestry to this particular model even if Subaru long ago gave up their exploits in the forests and the rally stages.
This is an example of the sixth, and penultimate generation Celica. Launched in October 1993, the styling of this version was quite different from the car it replaced. Initially it was offered in notchback coupe or liftback form, with a convertible coming later, though the 2 door Coupe was not sold in the UK. ST and GT trims were offered, with the former using a new 1.8 litre 4 cylinder engine and the latter using the larger 2.2 litre that had been in its predecessor. There was also a GT-Four version, the most powerful Celica to date, which produced 239 hp in export versions from an updated 3S-GTE engine. Influenced strongly by Toyota Team Europe, Toyota’s factory team in the World Rally Championship, the final version of the GT-Four included improvements such as an all-aluminium bonnet to save weight, four-channel ABS (with G-force sensor), an improved turbocharger (incorrectly known by enthusiasts as the CT20B), and Super Strut Suspension. The 2500 homologation cars built to allow Toyota to enter the GT-Four as a Group A car in the World Rally Championship also sported extras such as all of the plumbing required to activate an anti-lag system, a water spray bar for the Intercooler’s front heat exchanger, a water injection system for detonation protection, a hood spoiler mounted in front of the windscreen to stop hood flex at high speed and the standard rear spoiler mounted on riser blocks. The car proved to be quite competitive in the 1995 World Championship. However, the team was banned from competition for a year after the car’s single victory due to turbocharger fixing – a device that meant there was no air path restriction on the intake – when the jubilee clip was undone this would flick back into place so as to go un-noticed by inspectors. Toyota has always claimed that they knew nothing of the fix – but opponents say it was one very cleverly engineered device. In some respects this car was a true sports car; in order to qualify for rallying it has a lot of special features and a unique strut arrangement. A minor facelift was applied for 1996, with new bumpers, a smaller air dam and revised rear spoiler. This version of the Celica was replaced in 1999 by the last car to bear the name.
The first generation of the Volkswagen Type 2 with the split windshield, informally called the Microbus, Splitscreen, or Splittie among modern fans, was produced from 8 March 1950 through the end of the 1967 model year. From 1950 to 1956, the T1 (not called that at the time) was built in Wolfsburg; from 1956, it was built at the completely new Transporter factory in Hanover. Like the Beetle, the first Transporters used the 1100 Volkswagen air-cooled engine, an 1,131 cc 24 bhp, air-cooled flat-four-cylinder ‘boxer’ engine mounted in the rear. This was upgraded to the 1200 – an 1,192 cc 30 bhp in 1953. A higher compression ratio became standard in 1955; while an unusual early version of the 40 bhp engine debuted exclusively on the Type 2 in 1959. Any 1959 models that retain that early engine today are true survivors. Since the engine was totally discontinued at the outset, no parts were ever made available. The early versions of the T1 until 1955 were often called the “Barndoor” (retrospectively called T1a since the 1990s), owing to the enormous rear engine cover, while the later versions with a slightly modified body (the roofline above the windshield is extended), smaller engine bay, and 15″ roadwheels instead of the original 16″ ones are nowadays called the T1b (again, only called this since the 1990s, based on VW’s retrospective T1,2,3,4 etc. naming system.). From the 1964 model year, when the rear door was made wider (same as on the bay-window or T2), the vehicle could be referred to as the T1c. 1964 also saw the introduction of an optional sliding door for the passenger/cargo area instead of the outwardly hinged doors typical of cargo vans. In 1962, a heavy-duty Transporter was introduced as a factory option. It featured a cargo capacity of 1,000 kg (2,205 lb) instead of the previous 750 kg (1,653 lb), smaller but wider 14″ roadwheels, and a 1.5 litre 42 bhp DIN engine. This was so successful that only a year later, the 750 kg, 1.2 L Transporter was discontinued. The 1963 model year introduced the 1500 engine – 1,493 cc as standard equipment to the US market at 51 bhp DIN with an 83 mm bore, 69 mm stroke, and 7.8:1 compression ratio. When the Beetle received the 1.5 litre engine for the 1967 model year, its power was increased to 54 bhp DIN. German production stopped after the 1967 model year; however, the T1 still was made in Brazil until 1975, when it was modified with a 1968–79 T2-style front end, and big 1972-vintage taillights into the so-called “T1.5” and produced until 1996. The Brazilian T1s were not identical to the last German models (the T1.5 was locally produced in Brazil using the 1950s and 1960s-era stamping dies to cut down on retooling, alongside the Beetle/Fusca, where the pre-1965 body style was retained), though they sported some characteristic features of the T1a, such as the cargo doors and five-stud 205 mm (8.1 in) Pitch Circle Diameter rims. Wheel tracks varied between German and Brazilian production and with 14-inch, 15-inch and 16-inch wheel variants but commonly front track varied from 1290 mm to 1310 mm and rear track from 1370 mm to 1390 mm. Among American enthusiasts, it is common to refer to the different models by the number of their windows. The basic Kombi or Bus is the 11-window (a.k.a. three-window bus because of three side windows) with a split windshield, two front cabin door windows, six rear side windows, and one rear window. The DeLuxe model featured eight rear side windows and two rear corner windows, making it the 15-window (not available in Europe). Meanwhile, the sunroof DeLuxe with its additional eight small skylight windows is, accordingly, the 23-window. From the 1964 model year, with its wider rear door, the rear corner windows were discontinued, making the latter two the 13-window and 21-window respectively. The 23- and later 21-window variants each carry the nickname “Samba” or in Australia, officially “Alpine”. The Volkswagen Samba, in the United States also known as Sunroof Deluxe, was the most luxurious version of the T1. Volkswagen started producing Sambas in 1951. In the USA Volkswagen vans were informally classified according to the number of windows they had. This particular model had 23 and later 21 windows including eight panoramic windows in the roof (the 23 window version had additional curved windows in the rear corners). To distinguish it from the normal Volkswagen van the name Samba was coined. Instead of a sliding door at the side the Samba had two pivot doors. In addition the Samba had a fabric sunroof. At that time Volkswagen advertised with the idea of using the Samba to make tourist trips through the Alps. Sambas were painted standard in two colours. Usually, the upper part was coloured white. The two colored sections were separated by a decorative strip. Further the bus had a so-called “hat”: at the front of the van the roof was just a little longer than the car itself to block the sun for the driver. The windows had chrome tables and the van had a more comprehensive dashboard than the normal T1. When Volkswagen started producing the successor of the T1 (the T2) the company also stopped producing the Samba so there are no Sambas in later versions of the Transporter.
VW launched the second generation Golf in August of 1983, nearly 9 years after production of the first model to bear the name had begun. This time, a GTi version was included in the product plans from the start, and the new GTi was announced in May 1984. Like the regular Golf 2, it was almost 7″ longer than the Mark 1, with 3″ extra in the wheelbase and a 2″ wider track. It was also 10% heavier, but with significantly improved aerodynamics, resulting from attention to detail which included integrated gutters and flush glass as well as more rounded styling, the cd fell from 0.42 to 0.34. Initially it was powered by the same 1781cc fuel injected engine, but there were all round disc brakes and longer suspension travel improved the ride. Competitors came snapping at its heels, though, so after 2/5 years, VW responded by giving the car 24% more power, achieved by doubling the number of valves to 16. Lower stiffer suspension and bigger front brakes were also fitted, all of which restored the Golf GTi 16V to the top of the Hot Hatch pile. For most people that is, though the 8v car retained a following thanks to its broader torque spread. This less powerful car changed from a mechanical K-Jetronic injection system to a new Digifant electronic set up in 1987 at which point the front quarterlights were deleted, and a digital instrument pack became an option on the 16v car. Power steering became standard in late 1990 and the 8v gained the interior from the 16v model. Production ran through to February 1992, by which time the Mark 3 GTi was waiting in the wings. over 600,000 were built over an 8 year period, around 10% of all Mark 2 Golf production.
There are usually plenty of recent performance VW models here and on this occasion it was a seventh generation of the Golf, in Golf R guise which attracted my camera.
Volvo introduced the 850 saloon in 1991, the first large front wheel drive model in their range, positioned as a slightly more sporting model compared to the established 940 and 960 cars against which it was produced. An estate model and a wider range of engines soon joined that initial car. 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, utilising the B5234T4 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 hp for a total of 243 hp 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 (97 km/h) 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-grey 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 recognised 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 (103). The 1995 850 T-5R was limited in exterior paint colour choices: Stone Black – 2,516 worldwide including saloon and estate; Olive Green metallic – 1,911 worldwide including saloon and estate; Cream Yellow – 2,537 worldwide including saloon and estate. Only 346 sedans in this colour were imported into the United States; wagons, only 49. Cream Yellow was marketed in the Australian market as ‘Faded Yellow’ to compensate for the unrelenting Australian sun. The Gothenburg boffins 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. Colour distribution was limited in some countries i.e. not all countries got all 3 colours, Norway only recei
ved yellow. Two white, two Aubergine and three grey T-5Rs were also produced. The white and aubergine cars were pre-production 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. Seen here was an 850R.
As ever, I enjoyed my visit here. Although I had gone alone, and not part of any group, it was not that long before I engaged in conversation, with two of the Alfa drivers, one of whom told me that he did also have an Abarth. We were chatting for quite some time, and the light started to fade, meaning that I probably missed getting photos of a few cars, but then the whole point of this location is to allow enthusiasts to meet and share stories and enjoy the cars. It won’t be long before I am back for my ninth visit of the year.