With seemingly limitless demand for venues where car enthusiasts can meet up, look at each other’s cars and grab a bite to eat, it is no real surprise to see a continued increase in the number of mid-week evening events that take advantage of the extended hours of daylight in the summer months. The event being reported on here is a case in point. Wood Brothers is a farm and distillery,  with an on-site bar that is located at the end of a long but narrow country lane from the centre of the Oxfordshire village of Bampton, that only ends as it reached the perimeter fence of RAF Brize Norton. There’s ample space on site to accommodate quite a lot of cars, so when some local enthusiasts with a penchant for old American cars were in discussion with the owners, it was probably quite easy for them to agree to try out an event. I understand that even the very first one was successful and such is the power of the internet, word quickly spread. My good friend, Jeremy Ingham, came across the event and spoke highly of the venue and calibre of car that he had seen there when he went to investigate, so it did not take much to persuade to come and see for myself, especially, as these events are held on a Friday evening when there are fewer diary clashes and the day after required me to be not far away for an events at Millets Farm, a report on which will follow shortly. With some lovely evening sunshine, I arrived to find the main site was full but there is plenty of additional parking at the end of the lane, which is where I ended up. Here is what I saw:

ABARTH

The Abarth 124 Spider was developed in parallel with the Fiat model. It does cost a lot more, and there are those who think you don’t get enough extra for your money, but those who have driven it will tell you otherwise. You certainly get more power. The 1.4 MultiAir turbo unit jumps up from 138bhp to 168bhp, while torque also increases by a modest 10Nm to 250Nm, which gives it a 0-62mph time of 6.8 seconds, which is half a second quicker than the 2.0-litre Mazda MX-5. The top speed is 143mph. It weighs just 1060kg meaning a power-to-weight ratio of 158bhp-per-tonne, and with the new Record Monza exhaust system it sounds great even at idle. The Abarth version gets a stiffer suspension setup than the regular Fiat 124 Spider, with Bilstein dampers and beefed-up anti-roll bars. Bigger Brembo brakes also feature, with aluminium calipers. It can be had with a six-speed manual or six-speed automatic transmission with paddles, and the latter gets a Sport mode for quicker shifts. Many of the UK cars sport the ‘Heritage Look’ pack, which is a no-cost option. It brings a matt black bonnet and bootlid, plus red exterior trim detailing and has proved popular. The £29,565 starting price gets you standard equipment such as cruise control, climate control, Bluetooth, a DAB radio and satnav, plus Alcantara black and red (or pure black) seat trim. The automatic gearbox is a £2,035 extra, while an optional visibility pack brings LED DRLs, auto lights and wipers and rear parking sensors. Sales ceased during 2019, with around 1800 cars having been brought into the UK, so this is always going to be a rare car, and values are already increasing at a rate reflecting its desirability and the difficulty in finding one.

ALFA ROMEO

There’s a complex history to this much-loved classic. The first car was called the Alfa Romeo Giulia Sprint GT, and was revealed at a press event held at the then newly opened Arese plant on 9 September 1963, and displayed later the same month at the Frankfurt Motor Show. In its original form the Bertone body is known as scalino (step) or “step front”, because of the leading edge of the engine compartment lid which sat 1/4 an inch above the nose of the car. The Giulia Sprint GT can be distinguished from the later models by a number of features including: Exterior badging: Alfa Romeo logo on the front grille, a chrome script reading “Giulia Sprint GT” on the boot lid, and rectangular “Disegno di Bertone” badges aft of the front wheel arches; flat, chrome grille in plain, wide rectangular mesh without additional chrome bars; single-piece chrome bumpers; no overriders. Inside the cabin the padded vinyl dashboard was characterised by a concave horizontal fascia, finished in grey anti-glare crackle-effect paint. Four round instruments were inset in the fascia in front of the driver. The steering wheel was non-dished, with three aluminium spokes, a thin bakelite rim and a centre horn button. Vinyl-covered seats with cloth centres and a fully carpeted floor were standard, while leather upholstery was an extra-cost option. After initially marketing it as a four-seater, Alfa Romeo soon changed its definition of the car to a more realistic 2+2. The Giulia Sprint GT was fitted with the 1,570 cc version of Alfa Romeo’s all-aluminium twin cam inline four (78 mm bore × 82 mm stroke), which had first debuted on the 1962 Giulia Berlina. Breathing through two twin-choke Weber 40 DCOE 4 carburettors, on the Sprint GT this engine produced 105 hp at 6,000 rpm. Like all subsequent models, the Sprint GT was equipped with an all-synchromesh 5-speed manual transmission. The braking system comprised four Dunlop disc brakes and a vacuum servo. The rear brakes featured an unusual arrangement with the slave cylinders mounted on the axle tubes, operating the calipers by a system of levers and cranks. According to Alfa Romeo the car could reach a top speed of “over 180 km/h (112 mph)”. In total 21,902 Giulia Sprint GT were produced from 1963 to 1965, when the model was superceded by the Giulia Sprint GT Veloce. Of these 2,274 were right hand drive: 1,354 cars fully finished in Arese, and 920 shipped in complete knock-down kit form for foreign assembly. For 1966, the Giulia Sprint GT was replaced by the Alfa Romeo Giulia Sprint GT Veloce, which was very similar but featuring a number of improvements: a revised engine—slightly more powerful and with more torque—better interior fittings and changes to the exterior trim. Alongside the brand new 1750 Spider Veloce which shared its updated engine the Sprint GT Veloce was introduced at the 36th Geneva Motor Show in March 1966, and then tested by the international specialist press in Gardone on the Garda Lake. Production had began in 1965 and ended in 1968. The Giulia Sprint GT Veloce can be most easily distinguished from other models by the following features: badging as per Giulia Sprint GT, with the addition of round enamel badges on the C-pillar—a green Quadrifoglio (four-leaf clover) on an ivory background—and a chrome “Veloce” script on the tail panel; black mesh grille with three horizontal chrome bars; the grille heart has 7 bars instead of 6; stainless steel bumpers, as opposed to the chromed mild steel bumpers on the Giulia Sprint GT. The bumpers are the same shape, but are made in two pieces (front) and three pieces (rear) with small covers hiding the joining rivets. Inside the main changes from the Giulia Sprint GT were imitation wood dashboard fascia instead of the previous anti-glare grey finish, front seats revised to a mild “bucket” design, and a dished three aluminium spoke steering wheel, with a black rim and horn buttons through the spokes. The Veloce’s type 00536 engine, identical to the Spider 1600 Duetto’s, featured modifications compared to the Giulia Sprint GT’s type 00502—such as larger diameter exhaust valves. As a result it produced 108 hp at 6,000 rpm, an increase of 3 hp over the previous model, and significantly more torque. The top speed now exceeded 185 km/h (115 mph). Early Giulia Sprint GT Veloces featured the same Dunlop disc brake system as the Giulia Sprint GT, while later cars substituted ATE disc brakes as pioneered on the GT 1300 Junior in 1966. The ATE brakes featured an handbrake system entirely separate from the pedal brakes, using drum brakes incorporated in the rear disc castings. Though the Sprint GT Veloce’s replacement—the 1750 GT Veloce—was introduced in 1967, production continued throughout the year and thirty final cars were completed in 1968. By then total Giulia Sprint GT Veloce production amounted to 14,240 examples. 1,407 of these were right hand drive cars, and 332 right hand drive complete knock-down kits. The Alfa Romeo 1750 GT Veloce (also known as 1750 GTV) appeared in 1967 along with the 1750 Berlina sedan and 1750 Spider. The same type of engine was used to power all three versions; this rationalisation was a first for Alfa Romeo. The 1750 GTV replaced the Giulia Sprint GT Veloce and introduced many updates and modifications. Most significantly, the engine capacity was increased to 1779 cc displacement. Peak power from the engine was increased to 120 hp at 5500 rpm. The stroke was lengthened from 82 to 88.5 mm over the 1600 engine, and a reduced rev limit from 7000 rpm to 6000 rpm. Maximum torque was increased to 137 lb·ft at 3000 rpm. A higher ratio final drive was fitted (10/41 instead of 9/41) but the same gearbox ratios were retained. The result was that, on paper, the car had only slightly improved performance compared to the Giulia Sprint GT Veloce, but on the road it was much more flexible to drive and it was easier to maintain higher average speeds for fast touring. For the United States market, the 1779 cc engine was fitted with a fuel injection system made by Alfa Romeo subsidiary SPICA, to meet emission control laws that were coming into effect at the time. Fuel injection was also featured on Canadian market cars after 1971. Carburettors were retained for other markets. The chassis was also significantly modified. Tyre size went to 165/14 from 155/15 and wheel size to 5 1/2J x 14 instead of 5J x 15, giving a wider section and slightly smaller rolling diameter. The suspension geometry was also revised, and an anti-roll bar was fitted to the rear suspension. ATE disc brakes were fitted from the outset, but with bigger front discs and calipers than the ones fitted to GT 1300 Juniors and late Giulia Sprint GT Veloces. The changes resulted in significant improvements to the handling and braking, which once again made it easier for the driver to maintain high average speeds for fast touring. The 1750 GTV also departed significantly from the earlier cars externally. New nose styling eliminated the “stepped” bonnet of the Giulia Sprint GT, GTC, GTA and early GT 1300 Juniors and incorporated four headlamps. For the 1971 model year, United States market 1750 GTV’s also featured larger rear light clusters (there were no 1970 model year Alfas on the US market). Besides the chrome “1750” badge on the bootlid, there was also a round Alfa Romeo badge. Similar Quadrofoglio badges to those on the Giulia Sprint GT Veloce were fitted on C pillars, but the Quadrofoglio was coloured gold instead of green. The car also adopted the higher rear wheelarches first seen on the GT 1300 Junior. The interior was also much modified over that of earlier cars. There was a new dashboard with large speedometer and tachometer instruments in twin binnacles closer to the driver’s line of sight. The instruments were mounted at a more conventional angle, avoiding the reflections caused by the upward angled flat dash of earlier cars. Conversely, auxiliary instruments were moved to angled bezels in the centre console, further from the driver’s line of sight than before. The new seats introduced adjustable headrests which merged with the top of the seat when fully down. The window winder levers, the door release levers and the quarterlight vent knobs were also restyled. The remote release for the boot lid, located on the inside of the door opening on the B-post just under the door lock striker, was moved from the right hand side of the car to the left hand side. The location of this item was always independent of whether the car was left hand drive or right hand drive. Early (Series 1) 1750 GTV’s featured the same bumpers as the Giulia Sprint GT Veloce, with the front bumper modified to mount the indicator / sidelight units on the top of its corners, or under the bumper on US market cars. The Series 2 1750 GTV of 1970 introduced other mechanical changes, including a dual circuit braking system (split front and rear, with separate servos). The brake and clutch pedals on left hand drive cars were also of an improved pendant design, instead of the earlier floor-hinged type. On right hand drive cars the floor-hinged pedals were retained, as there was no space for the pedal box behind the carburettors. Externally, the series 2 1750 GTV is identified by new, slimmer bumpers with front and rear overriders. The combined front indicator and sidelight units were now mounted to the front panel instead of the front bumper, except again on the 1971-72 US/Canadian market cars. The interior was slightly modified, with the seats retaining the same basic outline but following a simpler design. 44,269 1750 GTVs were made before their replacement came along. That car was the 2000GTV. Introduced in 1971, together with the 2000 Berlina sedan and 2000 Spider, the 2 litre cars were replacements for the 1750 range. The engine displacement was increased to 1962 cc. The North American market cars had fuel injection, but everyone else retained carburettors. Officially, both versions generated the same power, 130 hp at 5500 rpm. The interior trim was changed, with the most notable differences being the introduction of a separate instrument cluster, instead of the gauges installed in the dash panel in earlier cars. Externally the 2000 GTV is most easily distinguished by its grille with horizontal chrome bars, featuring protruding blocks forming the familiar Alfa heart in outline, smaller hubcaps with exposed wheel nuts, optional aluminium alloy wheels of the same size as the standard 5. 1/2J × 14 steel items, styled to the “turbina” design first seen on the alloy wheels of the Alfa Romeo Montreal, and the larger rear light clusters first fitted to United States market 1750 GTV’s were standard for all markets. From 1974 on, the 105 Series coupé models were rationalised and these external features became common to post-1974 GT 1300 Junior and GT 1600 Junior models, with only few distinguishing features marking the difference between models. 37,459 2000 GTVs were made before production ended and these days they are very sought after with prices having sky-rocketed in recent years.

ARIEL

In January 2015, Ariel introduced the Nomad, a road-legal buggy designed along the same principles as the Atom, at the Autosport International Show.[9] The Nomad utilises a 2.4 litre Honda engine producing 235bhp.

ASTON MARTIN

With the DB7, produced from September 1994 to December 2004, Aston Martin made more cars from a single model than all Astons previously made, with over 7000 built. Known internally as the NPX project, the DB7 was made mostly with resources from Jaguar and had the financial backing of the Ford Motor Company, owner of Aston Martin from 1988 to 2007. The DB7’s platform was an evolution of the Jaguar XJS’s, though with many changes. The styling started life as the still-born Jaguar F type (XJ41 – coupe / XJ42 – convertible) designed by Keith Helfet. Ford cancelled this car and the general design was grafted onto an XJS platform. The styling received modest changes by Ian Callum so that it looked like an Aston Martin. The first generation Jaguar XK-8 also uses an evolution of the XJ-S/DB7 platform and the cars share a family resemblance, though the Aston Martin was significantly more expensive and rare. The prototype was complete by November 1992, and debuted at the Geneva Motor Show in March, 1993, with the car positioned as an “entry-level” model below the hand-built V8 Virage introduced a few years earlier. With production of the Virage (soon rechristened “V8” following Vantage styling revisions) continuing at Newport Pagnell, a new factory was acquired at Bloxham, Oxfordshire that had previously been used to produce the Jaguar XJ220, where every DB7 would be built throughout its production run. The DB7 and its relatives were the only Aston Martins produced in Bloxham and the only ones with a steel unit construction inherited from Jaguar . Aston Martin had traditionally used aluminium for the bodies of their cars, and models introduced after the DB7 use aluminium for the chassis as well as for many major body parts. The convertible Volante version was unveiled at the North American International Auto Show in Detroit in 1996. Both versions have a supercharged straight-six engine that produced 335 bhp and 361 lb·ft of torque. The Works Service provided a special Driving Dynamics package, which greatly enhanced performance and handling for drivers who wanted more than what the standard configuration offered. In 1999, the more powerful DB7 V12 Vantage was introduced at the Geneva Motor Show. Its 5.9 litre, 48-valve, V12 engine produced 420 bhp and 400 lb·ft of torque. It has a compression ratio of 10.3:1. Transmissions were available with either a TREMEC T-56 six speed manual or a ZF 5HP30 five speed automatic gearbox. Aston Martin claimed it had a top speed of either 186 mph with the manual gearbox or 165 mph with the automatic gearbox, and would accelerate from 0–60 mph in 4.9 seconds. It is 4,692 mm long, 1,830 mm (72.0 in) wide, 1,243 mm (48.9 in) high, with a weight of 1,800 kg (3,968.3 lb). After the launch of the Vantage, sales of the supercharged straight-6 engine DB7 had reduced considerably and so production was ended by mid-1999. In 2002, a new variant was launched, named V12 GT or V12 GTA when equipped with an automatic transmission. It was essentially an improved version of the Vantage, its V12 engine producing 435 bhp and 410 lb·ft of torque for the manual GT, although the automatic GTA retained the 420 bhp and 400 lb·ft of torque of the standard DB7 Vantage. Additionally, the GT and GTA chassis had substantially updated suspension from the DB7 Vantage models. Aesthetically, compared to the Vantage it has a mesh front grille, vents in the bonnet, a boot spoiler, an aluminium gear lever, optional carbon fibre trim and new wheels. It also has 14.0 in front and 13.0 in rear vented disc brakes made by Brembo. When being tested by Jeremy Clarkson on Top Gear in 2003, he demonstrated the car’s ability to pull away in fourth gear and continue until it hit the rev limiter: the speedometer indicated 135 mph. Production of the GT and GTA was extremely limited, as only 190 GT’s and 112 GTA’s were produced worldwide with 17 of them shipped to the US market, for a total of 302 cars.

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.

AUSTIN

The Ten was a model which Austin launched in 1932, to plug the gap between the diminutive Seven and the larger Twelve models in their range which had been updated in early 1931. The Ten became the marque’s best seller and was produced, in a number of different versions through to 1947. A number of improvements were made to the car in the months following launch, but it was for 1937 when the first really big change came about with the launch of the almost streamlined Cambridge saloon and Conway cabriolet. Compared with the preceding cars, the passengers and engine were positioned much further forward, the back seat now being rather forward of the back axle. There were six side windows like the Sherborne and the quarter lights were fixed. Again like the Sherborne the forward doors opened rearwards. At the back there was now a compartment large enough to take a trunk as well as more luggage on the open compartment door when it was let down. A new smoother single plate spring-drive clutch was now fitted, the two friction rings carried by the centre plate were held apart by leaf springs. Other changes included Girling brakes with wedge and roller shoe expansion and balance lever compensation using operating rods in tension with automatic compensation between front and rear brakes all four of which might be applied by hand or foot. Drums were now 9 inches diameter. 16-inch steel disc wheels replaced the 18-inch wires Top speed from the 1141cc engine rose to 60 mph.

AUSTIN HEALEY

The Sebring Sprite Coupés, of which only about 6 examples were produced by John Sprinzel’s London tuning business, were raced and rallied by him and other enthusiasts, in the 1960’s. The alloy coupé tops and fibreglass Sebring bonnets were built by Williams & Pritchard. Two of the cars took part in the 1961 Sebring 4 hours race in the hands of Stirling and Pat Moss. There were other similar examples, including a fastback version produced (more cheaply) by Peel Coachworks. This is a Sebring Sprite replica. Built during 2010, Ian Ashfield’s fastback Sebring was completed just in time to take centre-stage on the Midget & Sprite Club stand at the Classic Car Show at the Birmingham N.E.C. in November, that year. Painted in metallic Arctic Blue, it has a Peter May 1,330cc balanced and modified engine with a Weber carburettor. The car was built-up using a new Wheeler and Davies bodyshell and a lot of second parts. It uses a Jack Knight close ratio, straight cut gearbox, has a Panhard rod fitted at the rear, and sports a three-mouth Monza bonnet.

BEDFORD

One of the “O” Series Bedfords, that shared its distinctive front end with the well known OB Bus that first appeared in 1939, and produced in small numbers before the War intervened and then again unchanged post War until 1951, the O Series trucks were one of three series of that the Luton manufacturer introduced to meet the haulage needs of its customers. Each was a 2-axle vehicles with a separate bonnet, and they were called  “K”, “M” and “O”. The K Series had a carrying capacity of 1.5-2.0 tons, and had a a standard wheelbase of 3050mm, while the “M” Series could carry  2 –  3 tons and were offered with two wheelbases of  3050 mm and 3630., and the largest, the “‘O” could haul 3  –  5 tons and came in 13 different  designs, also with two wheelbase lengths. They all used the same 6-cylinder engine which generated a heady 72 hp, coupled to a 4-speed transmission, and had leaf-spring suspension and hydraulic brakes. Models with a carrying capacity of 3 tons used a vacuum brake booster. The vehicles were adapted for military use during the War and then production resumed after the cessation of hostilities, with the “O”  Series now offered in OLA and OLB versions, differing in haulage capacity. The design was finally retired in 1953.

BENTLEY

This is a 1934 Bentley 3.5 litre Sport. Bentley models from this era are referred to as the “Derby” Bentley, and they usually have less sporting bodywork than this one.

BMW

The first example of the Z1 was released by BMW to the press in 1986 and later officially presented at the 1987 Frankfurt Motor Show. Initial demand was so fierce that BMW had 5,000 orders before production began. The Z1 was designed over a three-year period by an in-house division of BMW Forschung und Technik GmbH. The development of the Z1 is attributed to Ulrich Bez and his team at BMW Technik GmbH. The BMW Z1 was used to develop and debut several technologies. Z1 designer Harm Lagaay mentioned that Z1 production helped generate patents for BMW’s high-intensity discharge lamp, integrated roll-bar, door mechanism, and underbody tray. Both the engine and the five-speed manual transmission were sourced from the E30 325i. The 2.5 litre 12-valve SOHC straight-six engine sits tilted 20 degrees to the right to accommodate the low bonnet line. The engine produces 168 hp at 5,800 rpm and 164 lb·ft of torque in its original form. The rear suspension, called the Z Axle, was specially designed for the Z1 and this was one of the first BMWs to feature a multi-link design. In the 1990s, the Z Axle would be used on a variety of BMW Group vehicles, including the E36, 3 series, and the R40 Rover 75. The chassis was specially designed for the Z1 and featured a number of innovative features: removable body panels, continuously zinc welded seams, a composite undertray, and the unusual dropped doors. Parts of the car (including the engine, gearbox, and front suspension) were borrowed from the BMW E30 325i and 325Ix, but most of the Z1’s components are unique to the model, and that had the consequence of making it expensive. The body was made from plastic and could be removed completely from the chassis. The side panels and doors are made of General Electric’s XENOY thermoplastic. The hood, trunk, and roof cover are GRP components made by Seger + Hoffman AG. The car is painted in a special flexible lacquer finish developed jointly by AKZO Coatings and BMW Technik GmbH. During the Z1s launch, BMW suggested that owners purchase an additional set of body panels and change the colour of the car from time to time. The car could actually be driven with all of the panels completely removed, similar to the Pontiac Fiero. BMW noted that the body could be completely replaced in 40 minutes, although Z1 owners have reported that this may be optimistic. The entire vehicle was designed with aerodynamics in mind. Specifically, the entire undertray is completely flat and the exhaust and rear valance were designed as integral aerodynamic components to decrease turbulence and rear lift. The front end reportedly induces a high-pressure zone just forward of the front wheels to increase front-wheel traction. The Z1 has a drag coefficient of 0.36 Cd with the top up or 0.43 Cd with it down. The doors retract vertically down into the car’s body instead of swinging outward or upward. The Kaiser Darrin was the first car to have retractable doors; they slid forward into the front wings. The inspiration for these doors came from more traditional roadsters which often feature removable metal or cloth doors. Because removable doors did not fit within BMW’s design goals, the retractable doors were installed instead. The body with its high sills, offers crash protection independent of the doors, the vehicle may be legally and safely driven with the doors up or down, although this is not legal in the U.S. The windows may be operated independently of the doors, although they do retract automatically if the door is lowered. Both the window and door are driven by electric motors through toothed rubber belts and may be moved manually in an emergency. It took a while to get the Z1 into production, by which time demand had dropped considerably, perhaps due to reduced demand from speculators. In the end, BMW only produced 8,000 Z1 models. 6,443 of these were sold in BMW’s native German market. The country to receive the second-greatest number of Z1s, Italy, received less than 7% of the total sold domestically. BMW was reportedly unable to build more than 10 to 20 Z1 vehicles each day. None were initially sold in North America, although examples have been independently imported since the car’s launch. More than half of all Z1 vehicles (specifically, 4,091) were produced for the 1990 model year. Seventy-eight Z1 vehicles were reportedly used as test mules, although most were later sold without a warranty and, presumably, at a lower price. The Z1 was available in six exterior colours and four interior colours. Most (6,177) were red, black, or green with a dark grey interior. Light yellow exterior (fun-gelb in German or fun yellow in English, with 33 examples made and cars with a red interior (38 examples made) are the rarest Z1 colours. The colours swimming pool blue and oh-so-orange were reserved for the car’s designers, Bez and Lagaay. Reportedly, some 1,101 Z1 vehicles were delivered without a factory radio installed. In these vehicles, BMW AG installed an aftermarket Sony radio in its place. None of the Z1 vehicles were sold with air conditioning. The vehicle’s dashboard is very small and there was no room for both heat and cooling units. Some Z1 vehicles were converted using BMW E30 parts to have air conditioning, but reportedly the heater elements had to be removed. Although prices did drop from the new car cost of around £40,000, these have never been cheap cars to buy, and these days values are increasing again.

The BMW Z3 is a range of two-seater sports cars which was produced from 1995 to 2002. The Z3 was based on the E36/5 compact platform, a shortened version of the conventional E36 platform. This smaller and cheaper platform used the rear semi-trailing arm suspension design from the older E30 3 Series. It is the first mass-produced Z Series car. M models were introduced in 1998 in roadster and coupé body styles and were powered by the S50, S52, or S54 straight-six engine depending on country and model year. The M models came with a 5-speed manual transmission. The regular Z3s were offered with straight-sixes or four-cylinder engines. Development on the roadster began in 1991 and was led by Burkhard Göschel. The exterior was designed by Joji Nagashima, being completed in mid-1992 at 39 months before production and the design was frozen in 1993. Design patents were filed on April 2, 1994, in Germany and on September 27, 1994, in the US.[7] The Z3 was introduced via video press release by BMW North America on June 12, 1995. Production began on September 20, 1995. Development on the coupé model was run by a group of BMW engineers outside of work in their own time. The Z3 Coupé shares the identical platform and parts with the roadster, but features a chassis-stiffening hatch area and is 2.7 times stiffer in comparison. The Z3 Coupé was unveiled at the 1997 Frankfurt Motor Show. The Z3 was the first BMW model to be solely manufactured outside of Germany. It was manufactured in Greer, South Carolina. Roadster models entered production in September 1995, powered by 4-cylinder engines on launch. 6-cylinder engines were later introduced in 1996. A removable hardtop roof was available as an optional accessory. Coupé models entered production in January 1998. The unusual side profile has been given nicknames such as “clown shoe” and “bread van” by critics. In Germany, it has been referred to as a “turnschuh” (sports shoe). The coupé body style was only available with the engines that matched the 2.8, 3.0i, and M model Roadsters. The engine outputs varied as they spanned three generations of engine architecture, peaking at 325 bhp with the facelift M Coupé. Like the roadster models, it was rear-wheel drive only, and was available in either an automatic or manual transmission. Very few of these cars were made, making it rarer than most cars, the BMW M Coupe model especially so. Production ended on June 28, 2002, with the Z3 line replaced by the E85 Z4.

CHEVROLET

The Camaro was GM’s very definite response to the huge success of Ford’s Mustang, which had been codenamed Panther. Although there had been rumours that GM was doing something, this was an era when even the journalists were surprised. and on June 21, 1966, around 200 automotive journalists of them were when they received a telegram from General Motors stating, “…please save noon of June 28 for important SEPAW meeting. Hope you can be on hand to help scratch a cat. Details will follow…(signed) John L. Cutter – Chevrolet public relations – SEPAW secretary.” The following day, the same journalists received another General Motors telegram stating, “Society for the Eradication of Panthers from the Automotive World will hold first and last meeting on June 28…(signed) John L. Cutter – Chevrolet public relations SEPAW secretary.” These telegrams were something of a puzzle at the time. On June 28, 1966, General Motors held a live press conference in Detroit’s Statler-Hilton Hotel. It was to be the first time in history that 14 cities were connected in real time for a press conference via telephone lines. Chevrolet general manager Pete Estes started the news conference stating that all attendees of the conference were charter members of the Society for the Elimination of Panthers from the Automotive World and that this would be the first and last meeting of SEPAW. Estes then announced a new car line, project designation XP-836, with a name that Chevrolet chose in keeping with other car names beginning with the letter C such as the Corvair, Chevelle, Chevy II, and Corvette. He claimed the name, suggests the comradeship of good friends as a personal car should be to its owner and that to us, the name means just what we think the car will do… go. The Camaro name was then unveiled. Automotive press asked Chevrolet product managers, what is a Camaro? and were told it was a small, vicious animal that eats Mustangs. According to the book “The Complete Book of Camaro: Every Model Since 1967”, the name Camaro was conceived by Chevrolet merchandising manager Bob Lund and General Motors vice president Ed Rollett, while they were reading the book Heath’s French and English Dictionary by James Boïelle and by de V. Payen-Payne printed in 1936.  Lund and Rollett found the word “camaro” in the French-English dictionary to mean friend, pal, or comrade. The article further repeated Estes’s statement of what the word camaro was meant to imply, that the car’s name “suggests the comradeship of good friends, as a personal car should be to its owner”. In fact, the actual French word that has that meaning is “camarade”, from which the English word “comrade” is derived, and not “camaro”.  “Camaro” is not a recognised word in the French language. Be that as it may, the Camaro was first shown at a press preview in Detroit, Michigan, on September 12, 1966, and then later in Los Angeles, California, on September 19, 1966. Public introduction of the new model was on September 26, 1966. The Camaro officially went on sale in dealerships on September 29, 1966, for the 1967 model year It was an instant success. The first generation model ran for three years before an all new second generation car premiered (late) for the 1970 model year.

The third generation Corvette, which was patterned after the Mako Shark II concept car, and made its debut for the 1968 model year, then staying 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 mph 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 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.

DAIMLER

By the mid 60s, all new Daimler models were little more than rebadged and retrimmed Jaguar models, intended to appeal to traditionalists who preferred the image of the Daimler marque to the slightly caddish one of the Jaguar, so it was no surprised that an XJ6-based Sovereign was introduced in October 1969. Once again, it was externally virtually identical to its Jaguar source car with the exception of its fluted grille and Daimler badging. Internally there were trim variations, such as the deletion of the wood door cappings fitted to the Jaguar. This Sovereign was offered with either the 2.8-litre or the 4.2-litre version of the XK engine. When the Jaguar version was updated to create the Series 2 car in the autumn of 1973, a Daimler version was announced at the same time. The Series 2 cars, as seen here, sported a a raised front bumper and shallower grille; an extended wheelbase version was introduced, which eventually became the standard model. From 1975 the 2.8-litre was replaced by a 3.4-litre version of the XK engine. Both the Jaguar and Daimler models were replaced by a Series 3 in the spring of 1979.

DODGE

Representing the “muscle car” era of the late 1960s and early 1970s, was this Charger R/T. The Charger had first been seen in mid 1966, as Dodge’s answer to the Rambler Marlin and Ford Mustang. Based on the Coronet, there was huge demand for personal two door sporty cars like this, and sales were strong. That led to Dodge introducing a new version in 1968, when the entire B-body lineup in the range was redesigned. The Charger moved further away from the Coronet models thanks to its new styling, which featured a double-diamond coke bottle profile with curves around the front bumpers and rear quarter panels. The rear end featured a “kick up” spoiler appearance, inspired by Group 7 racing vehicles. On the roof, a “flying buttress” was added to give the rear window area a look similar to that of the 1966-67 Pontiac GTO. The Charger retained its full-width hidden headlight grille, but a vacuum operated cover replaced the electric motor rotating headlights. The previous full-width taillights were replaced with dual circular units at the direction of Styling Vice President, Elwood P. Engel. Dual scallops were added to the doors and hood. Inside, the interior was new with a conventional fixed rear seat replacing the folding bucket seat design. The conventional boot area included a vinyl mat, rather than the previous model’s carpeted cargo area. The centre console in the front remained, but there was no centre armrest. The tachometer was now optional instead of standard and the electroluminescent gauges disappeared in favour of a conventional design. The standard engine was the 318 cu in, 5.2 litre 2-bbl V8, until it was replaced in mid-year with a 225 cu in 3.7 litre slant-six. The 383-2 and 383-4 remained unchanged. A new high-performance package was added, the R/T (“Road/Track” with no ‘and’ between Road and Track). The R/T came standard with the previous year’s 440 “Magnum” and the 426 Hemi was optional. In 1968, the Chrysler Corporation began an ad campaign featuring a cartoon bee with an engine on its back featuring models called the “Scat Pack”. The Coronet R/T, Super Bee, Dart GTS, and Charger R/T received bumble-bee stripes (two thin stripes framing two thick stripes). The stripes were standard on the R/Ts and came in red, white, or black, but could be deleted at no extra cost. The 1968 model year Charger sales increased to 96,100, including over 17,000 Charger R/Ts. The car was little changed for model years 1969 and 1970 before an all new third generation car premiered for 1971.

FIAT

Known as project 110, the brief for the Nuova 500 was to create a micro-car that would not only carry on the tradition of the earlier Topolino, but which would also take sales away from the ever popular Lambretta and Vespa scooters of the day. It clearly needed to be smaller than the 600 which had been released with a conventional 4 cylinder engine. Not an easy task, but development started in 1953 and by August 1954, two designs were ready to be shown to Fiat management. They selected one, and serious development began. At first the car was referred to as the 400, as it was going to have a 400cc engine, but it was soon realised that this was just too small, so a larger 500cc air-cooled engine was developed. It was signed off in January 1956, with production starting in March 1957 in advance of a June launch. Fiat’s marketing department got busy, with hundreds of the new car taking to the streets of Turin, each with a pretty girl standing through the open sunroof that was a feature of all the early cars. The press loved it. 50 units were shipped to Britain, where the car made its debut at Brands Hatch, and again the reception was enthusiastic. But the orders just did not come in. Fiat went for a hasty rethink, relaunching the car at the Turin Show later that year. power was increased from 13 to 15 bhp, and the poverty spec was lessened a little, with headlight bezels, brightwork on the side and chrrome hubcaps, a Nuova500 badge on the engine cover, winding side windows (the launch cars just had opening quarterlights) and the option of a heater fan. It was enough to get sales moving. The original car was still offered, at a lower price, called the Economy. In the first year of production, 28,452 Fiat 500s were made. Over the next 19 years, the car changed little in overall appearance, but there were a number of updates with more power and equipment added. A 500 Sport was launched in August 1958, with a more powerful version of the 499cc engine. It lost the soft top, having a ridged steel roof, to increase strength of the body. It was only available in grey with a red side flash. The first major changes came in 1960 with the 500D. This looks very similar to the Nuova, but with two key differences. One is the engine size: the D features an uprated 499 cc engine producing 17 bhp as standard, an engine which would be used right through until the end of the L in 1973; and the other is the roof: the standard D roof does not fold back as far as the roof on the Nuova, though it was also available as the “Transformable” with the same roof as the Nuova. The D still featured “suicide doors”. There were larger rear light clusters, more space in the front boot thanks to a redesign of the fuel tank and new indicators under the headlights. A year later, Fiat added a light on the rear-view mirrors and a windscreen washer, but the car still lacked a fuel gauge. Sales increased from 20,900 in 1960 to 87.000 in 1961, 132,000 in 1962 and by 1964, the last year of production, they hit 194,000 units. The D was replaced in 1965 by the 500F, which finally moved the door hinges from back to the front, owing to changes in Italian safety laws. There was a deeper windscreen and thinner door pillars, which increased the height of the car by 10mm, improving visibility for the driver. The 500F ran through to 1975, from 1968 alongside the more luxurious 500L which was added to the range in 1968. The L is easy to tell apart, with its bumper overriders. The final updates created the 500R, which incorporated many changes from the 126 under the skin of the classic shape, and in this form production continued alongside the newer 126 until 1976.

FORD

Sporting Escorts appeared only a matter of months after the launch of the regular 1100 and 1300cc cars. The first of these was a higher performance version designed for rallies and racing, 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 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 with arguably the Escort’s greatest victory 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, which had a 1600cc “crossflow”-engined, as a special edition road version 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 a 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, in the autumn of 1973, 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.

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.

A completely new Fiesta, codenamed BE-13 was unveiled at the end of 1988 and officially went on sale in February 1989. The car was based on a new platform ditching the old car’s rear beam axle for a semi-independent torsion beam arrangement and looked radically different, addressing the principal weakness of the previous generation – the lack of a 5-door derivative, something that was by then available in its major rivals such as the Fiat Uno, Peugeot 205 and 106 and Opel Corsa/Vauxhall Nova. The other main change was to the running gear – the improved HCS (High Compression Swirl) version of the Kent/Valencia powerplant. The CVH units from the second generation were carried over largely unmodified. The diesel engine was enlarged to a 1.8L capacity. As for sports models, the XR2i was launched in August 1989 with an eight-valve CVH (standing for “compound valve-angle hemispherical combustion chamber”) engine with 104 PS. This was the first Fiesta to have a fuel-injected engine. This was then replaced by a Zetec 16 valve version in 1992, which also saw the RS Turbo being supplanted by the RS1800 as the CVH engine was being phased out. The RS1800 shared its 1.8 litre Zetec fuel-injected engine with the 130 bhp version of the then current Ford Escort XR3i and had a top speed of 125 mph. The XR2i name was also dropped in early 1994, and the insurance-friendly “Si” badge appeared in its place on a slightly less sporty-looking model with either the 1.4 L PTE (a development of the CVH) or the 1.6 L Zetec engine

Although the 1955–57 Thunderbird was a success, Ford executives—particularly Robert McNamara—were concerned that the car’s position as a two-seater limited its sales potential. As a result, the car was redesigned as a four-seater for 1958. Despite being released mid-model year, the new Thunderbird began a sales momentum previously unseen with the car, selling 200,000 units in three years, four times that of the two-year two-seat model run. This success spawned a new market segment, the personal luxury car. It was the first individual model line (as opposed to an entire brand’s line) to earn Motor Trend “Car of the Year” honours. It was offered in both hardtop and convertible body styles, although the latter was not introduced until June 1958, five months after the release of the hardtop.[23] The new Thunderbird was considerably larger than the previous generation, with a longer 113.0 in (2,870 mm) wheelbase to accommodate the new back seat. The increased size also increased the car’s weight by 800 lb (363 kg). Along with a new, more rigid unibody construction was new styling, including quad headlights, more prominent tailfins, a bolder chrome grille, and a larger, though nonfunctional, hood scoop. The engine was the new 300 hp 352 cu in (5.8 L) FE V8, available with a three-speed manual or automatic transmissions. The mid-1958 model year sales were 37,892 units, an increase of 16,000 over the previous year. For 1959, the Thunderbird featured a new grille and a newly optional 350 hp 430 cu in (7.0 L) MEL V8 engine. Sales increased to 67,456 units. For the 1960 model year, the grille was again redesigned along with minor styling changes. A new option was a manually operated sunroof for hardtop models. The dual-unit round taillights featured on the 1958 and 1959 were changed to triple-units. Sales increased again, with 92,843 sold in 1960. The car was redesigned again for 1961.

The 1960 Galaxie introduced all-new design with less ornamentation. A new body style was the Starliner, featuring a huge, curving rear observation window on a pillarless, hardtop bodyshell. The thin, sloping rear roof pillar featured three “star” emblems that served as the Galaxie signature badge for all 1960 – 62 models. The formal roofed 2-door hardtop was not available this year, but the roofline was used for the Galaxie 2-door pillared sedan, complete with chromed window frames. It had been the most popular body style in the line for 1959, and sales dropped off sharply. Contrary to Ford’s tradition of pie-plate round taillights, the 1960 featured “half-moon” lenses turned downward. The “A” pillar now swept backward instead of forward, making entering and exiting the car more convenient. For 1961, the bodywork was redone again, although the underpinnings were the same as for 1960. This time, the tailfins were almost gone; the small blade-like fins capped smaller versions of 1959’s “pie-plate” round taillamps once again. Performance was beginning to be a selling point, and the 1961 Galaxie offered a new 390 CID (6.4 L) version of Ford’s FE series pushrod V8, which was available with either a four-barrel carburettor or, for higher performance, three two-barrel carburettors. The latter was rated at 401 hp (gross). The 352 was downgraded in favor of the 390; it was equipped with a 2-barrel carburettor and single exhaust. The Starliner was again offered this year, and Ford promoted this model with luxury and power equipment, but it was dropped at the end of the year, as the re-introduced square-roof hardtop coupe, the Galaxie Club Victoria, took the bulk of sales. For 1962, the Galaxie name was applied to all of Ford’s full size models, as the Fairlane name was moved to a new intermediate model and Custom was temporarily retired. New top-line Galaxie 500 (two-door sedan and hardtop, four-door sedan and hardtop, and “Sunliner” convertible) models offered plusher interiors, more chrome trim outside, and a few additional luxury items over and above what was standard on the plainer Galaxie models. Base Galaxie models were available in two- and four-door sedans as well as the plain Ranch Wagon. In an effort to stimulate midseason sales, Ford introduced a group of sporty cars along with a “Lively Ones” marketing campaign. These models featured the bucket seats and console that were popularized by the Chevrolet Corvair Monza, and included a Fairlane 500 Sports Coupe, and a Falcon Futura. The full-size line was available with new bucket-seats-and-console “Lively One,” the Galaxie 500/XL (two-door hardtop and convertible). Ford stated in its sales literature that XL stood for “Xtra Lively.” The 223 cu in (3.7 L) “Mileage Maker” 6-cylinder was the base engine. The 292 cu in (4.8 L) V8 was standard on the 500/XL. The XL had sportier trim inside and out. This model was Ford’s response to Chevrolet’s Super Sport option for the big Impala, which was introduced the previous year and saw a significant rise in sales for 1962. A 406 cu in (7 L) engine was available in single four-barrel or triple-carbureted “six-barrel” form. Tailfins were gone, giving the 1962 models a more rounded, softer rear end look. Taillights were set lower into the rear panel and were partially sunken into the newly sculpted rear bumper. Outside, XL models got a thicker body side chrome spear, along with a new “Galaxie 500XL” emblem on each rear fender (including the convertible, where this badge replaced the “Sunliner” script). An oval version of the Galaxie “star” emblem replaced Ford crests on the roof sail panels on hardtops. Front fenders shapes were the same as 1961; a slightly modified flat-face grille featured a large “star”emblem in its center for all 500 and higher-priced Galaxie models. The 1962 models were overweight by comparison to the Super Duty Pontiacs with their aluminum body panels and larger-displacement engines. Therefore, late in the production run, Ford’s Experimental Garage was ordered to reduce the weight of the Galaxie. It produced 11 “lightweight Galaxies”, making use of fiberglass panels, as well as aluminium bumpers, fender aprons, and brackets; the result was a Galaxie weighing in at under 3,400 lb (1,542 kg). The base 2-door Club Sedan was 3,499 lb (1,587 kg). It was an improvement. The 1963 model was essentially unchanged save for some freshening and added trim; windshields were reshaped and a four-door hardtop 500/XL was added. A lower, fastback roofline was added mid-year to improve looks and make the big cars more competitive on the NASCAR tracks with less drag and reduced aerodynamic lift at high speed. This 1963½ model, the industry’s first official “½ year” model, was called the “sports hardtop” or “fastback” (it shared this feature with the for 1963½ Falcon). Galaxie buyers showed their preference as the new sports hardtop models handily outsold the “boxtop” square-roof models. The sports hardtop was available in both Galaxie 500, and Galaxie 500/XL trim. Mercury also received the new roofline (under the Marauder badge) in Monterey, Montclair, and Park Lane models. This year, a no-frills big Ford, priced around $100.00 below the base Galaxie sedans, was offered, badged as the Ford 300. It was offered for 1963 only, and was replaced by the Custom series in 1964. The “Swing-away” steering wheel became optional. The Fairlane’s newly enlarged “Challenger” V8 engine of 260 cu in (4.3 L) replaced the Y-block 292 cu in (4.8 L) as the entry level V8. Later in the year, the 260 was replaced with an enlarged version displacing 289 cubic inches. At the beginning of the 1963 model run, the 292 Y-block V8 was replaced as the base V8 engine with the Fairlane’s new small block 260. The 260 proved underpowered for the heavy full size Ford and was replaced midyear (coincident with the introduction of the 63 and 1/2 models) with the 289 V8. The 289 was then the largest of the “small block series” that was first used (221 cubic inch version) in the 1962 Fairlane. The 260 was offered on the Falcon Sprint and later, in mid 1964, in the early version of the 1965 Mustang. By 1965 model introduction (in the fall of 1964), the 260 (which had disappointing performance in all versions including the Sprint and Mustang) was replaced by the 289 in all models.  Ford continued to offer the FE series 352 in the 1963 full size, as well as 3 versions of the 390 V8 (regular, high performance, and police). Five different transmissions were offered for 1963. A 3-speed manual column shift was standard on all models except the 406 V8, which required the heavier duty Borg-Warner 4-speed manual. A three speed manual with overdrive was optional, but rarely ordered. The two-speed Ford-O-Matic was common with the 6-cylinder and small block V-8s, while the majority of big blocks (352 and 390) were ordered with the 3-speed Cruise-O-Matic automatic transmission. The availability of several different rear end ratios, along with 5 transmissions, and 8 different engines, led to a huge number of different driveline combinations for 1963. The most produced combination for the Galaxie and Galaxie 500 was the 352 V8, with Cruise-O-Matic and the 3.0 rear end ratio. Ford’s “Club,” “Town,” and “Victoria” monikers for body styles were retired in 1963, replaced by generic labels, “2-door”,”4-door”, and “Hardtop.” Partway through this year and in limited quantities, a new 427 replaced the 406 for racing applications. It was intended to meet NHRA and NASCAR 7-liter maximum engine size rules. This engine was rated at a 425 hp gross with 2 x 4 barrel Holley carburettors and a solid lifter camshaft. Ford also made available aluminum cylinder heads as a dealer option. The 1963½ was still overweight, however. To be competitive in drag racing Ford produced 212 (around 170 from Ford Norfolk, about 20 from Ford Los Angeles) lightweight versions of the “R” code 427, in the Galaxie 500 Sport Special Tudor Fastback. Available only in Corinthian White with red vinyl interior, and with a list price of about US$4,200 (when a base Ford 300 went for US$2,324, and XL Fastback was US$3,268), these cars came stock with Borg-Warner T-10 four-speed, 4.11:1 rear axle, heavy-duty suspension and brakes, and were fitted with a fiberglass hood (a flat piece at first, late in 1963 the popular blister hood also used on the Thunderbolt), trunk, front fenders, and fender aprons, as well as aluminum bumpers and mounting brackets, transmission cases, and bellhousing. Hood springs, heater, trunk lining and mat, spare wheel and tire (and mounting bracket), trunk lid torsion bar, jack, lug wrench, one horn (of the stock two), armrests, rear ashtrays, courtesy lights, and dome light were removed to reduce weight. The first 20 cars had functional fiberglass doors, which shaved 25 lb (11 kg); these were deleted because of Ford’s concern for safety if used on the highway. The cars had all sound-deadening material removed, lightweight seats and floormats, and no options. They were not factory equipped with cold-air induction, as the Thunderbolt would be. In addition, they were built on the 45 lb (20 kg)-lighter Ford 300 chassis, originally intended for a smaller-displacement V8. In all, the 427s were 375 lb (170 kg) lighter than before (425 lb (193 kg) with the fiberglass doors). The first two lightweight Galaxies, using 289 cu in (5 L) bodies, were assembled at Wayne, Michigan, late in January 1963, to be tested at the 1963 Winternats. They were delivered to Tasca Ford (East Providence, Rhode Island) and Bob Ford (Dearborn, Michigan). Bill Lawton’s Tasca Galaxie turned the best performance, with a 12.50 pass at 116.60 mph (187.65 km/h). It was not enough against the 1963 Chevrolet Impala Z-11s in Limited Production/Stock, however. Three more were assembled from parts and tested at Ford’s Experimental Garage in Dearborn. One of the next two, the last Winternationals test cars, was prepared by Bill Stroppe in Long Beach, California, for Les Ritchey; it was featured in the July 1963 issue of Hot Rod. For all their efforts, Ford discovered the Galaxies were still too heavy, and the project was abandoned. Some of these cars competed in England, Australia and South Africa after being modified by Holman and Moody who fitted them with disc brakes and other circuit racing components. Jack Sears won the 1963 British Saloon Car Championship driving Galaxies and Cortinas and the racing Galaxies were also driven by Sir Jack Brabham, Graham Hill and other notable drivers of the period. The heavy Galaxies suffered from persistent brake failure that led to a number of crashes, and in late 1963 started using the 12-inch disc brakes from the Ford GT40 program. By this time the Lotus Cortinas were being developed and the big Galaxie became uncompetitive. Model year 1964 was the fourth and final year of this body style. Interior trim was altered, and the exterior featured a more sculpted look which was actually designed to make the car more aerodynamic for NASCAR. The formal-roof “boxtop” style was no longer available, all non-wagon models now featuring the “fastback” roof design that was the runaway best-seller in 1963. The base 300 was replaced by a line of Custom and Custom 500 models. The 289 continued as the base V8 and was standard in the XL series. XL models got new thin-shell bucket seats with chrome trim. Federal regulations now required lap-style safety belts for both front outboard occupants. The ignition switch was moved from the left side of the steering column, to the right, but otherwise the attractive instrument panel remained unchanged from ’63. The 1964 XL two-door hardtop became the best seller of any XL produced in any year. The 427 cu in (7.0 L) engine was used in 50 lightweight fiberglass-equipped cars for drag racing. These competed in North America but were still too heavy and Ford introduced the lightweight Fairlane Thunderbolt. The Ford Country Squire station wagon, while wearing “Country Squire” badging, was actually part of the Galaxie 500 line. Some Country Squires had “Galaxie 500” badging on the glovebox indicating the series name. These station wagons featured the same trims as Galaxie 500s, and were a step up from the base-model Country Sedan.

There were a number of examples of the first generation Mustang. Drawing on inspiration from the mid-engined Ford Mustang I concept vehicle, Lee Iacocca ordered development of a new “small car” to vice-president of design at Ford, Eugene Bordinat. Bordinat tasked Ford’s three design studios (Ford, Lincoln-Mercury, and Advanced Design) to create proposals for the new vehicle. The design teams had been given five goals for the design of the Mustang: It would seat four, have bucket seats and a floor mounted shifter, weigh no more than 2,500 pounds (1,100 kg) and be no more than 180 inches (4,572 mm) in length, sell for less than $2,500, and have multiple power, comfort, and luxury options. The Lincoln–Mercury design studio ultimately produced the winning design in the intramural contest, under Project Design Chief Joe Oros and his team of L. David Ash, Gale Halderman, and John Foster. Development of the Mustang was completed in a record 18 months from September 1962 to March 1964. and Iacocca himself championed the project as Ford Division general manager. The styling is often credited to one person, and that is not accurate, as this was very much a team effort, it has been reported by those involved. To decrease developmental costs, the Mustang used chassis, suspension, and drivetrain components derived from the Ford Falcon and Fairlane. It used a unitised platform-type frame from the 1964 Falcon, and welded box-section side rails, including welded crossmembers. Although hardtop Mustangs accounted for the highest sales, durability problems with the new frame led to the engineering of a convertible first, which ensured adequate stiffness. Overall length of the Mustang and Falcon was identical, although the Mustang’s wheelbase was slightly shorter. With an overall width of 68.2 in (1,732 mm), it was 2.4 in (61 mm) narrower, yet the wheel track was nearly identical. Shipping weight, approximately 2,570 lb (1,166 kg) with the straight six-cylinder engine, was also similar to the Falcon. A fully equipped V8 model weighed approximately 3,000 lb (1,361 kg). Although most of the mechanical parts were from the Falcon, the Mustang’s body was completely different; sporting a shorter wheelbase, wider track, lower seating position and lower overall height. An industry first, the “torque box” was an innovative structural system that greatly stiffened the Mustang’s construction and helped contribute to better handling. The car was launched in 17th April 1964, as a hardtop and a convertible, with the fastback version following in August. It was an instant sensation, with demand massively exceeding supply. Since it was introduced four months before the normal start of the 1965 production year and manufactured alongside 1964 Ford Falcons and 1964 Mercury Comets, the earliest Mustangs are widely referred to as the 1964½ model. Nevertheless, all “1964½” cars were given 1965 U.S. standard VINs at the time of production, and – with limited exception to the earliest of promotional materials – were marketed by Ford as 1965 models. The low-end model hardtop used a “U-code” 170 cu in (2.8 litre) straight-6 engine borrowed from the Falcon, as well as a three-speed manual transmission and retailed for US$2,368. Standard equipment for the early 1965 Mustangs included black front seat belts, a glove box light, and a padded dash board. Production began in March 1964 and official introduction following on April 17 at the 1964 World’s Fair. V8 models got a badge on the front fender that spelled out the engine’s cubic inch displacement (“260” or “289”) over a wide “V.” This emblem was identical to the one on the 1964 Fairlane. Several changes to the Mustang occurred at the start of the “normal” 1965 model year in August 1964, about four months after its introduction. These cars are known as “late 65’s”. The engine lineup was changed, with a 200 cu in (3.3 litre) “T-code” engine that produced 120 hp. Production of the Fairlane’s “F-code” 260 cu in (4.3 litre) engine ceased when the 1964 model year ended. It was replaced with a new 200 hp “C-code” 289 cu in (4.7 litre) engine with a two-barrel carburettor as the base V8. An “A-code” 225 hp four-barrel carburettor version was next in line, followed by the unchanged “Hi-Po” “K-code” 271 hp 289. The DC electrical generator was replaced by a new AC alternator on all Fords (a way to distinguish a 1964 from a 1965 is to see if the alternator light on the dash says “GEN” or “ALT”). The Mustang GT version was introduced as the “GT Equipment Package” and included a V8 engine (most often the 225 hp 289), grille-mounted fog lamps, rocker panel stripes, and disc brakes. In the interior the GT option added a different instrument panel that included a speedometer, fuel gauge, temp. gauge, oil pressure gauge and ammeter in five round dials (the gauges were not marked with numbers, however.) A four-barrel carburettor engine was now available with any body style. Additionally, reverse lights were an option added to the car from August 1964 production. In 1965, the Shelby Mustang was born, it was available only in newly introduced fastback body version with its swept-back rear glass and distinctive ventilation louvres. The standard interior features of the 1965 Mustang included adjustable driver and passenger bucket seats, an AM radio, and a floor mounted shifter in a variety of colour options. Ford added additional interior options during the 1965 model year. The Interior Decor Group was popularly known as “Pony Interior” due to the addition of embossed running ponies on the seat fronts, and also included integral armrests, woodgrain appliqué accents, and a round gauge cluster that would replace the standard Falcon instrumentation. Also available were sun visors, a (mechanical) remote-operated mirror, a floor console, and a bench seat. Ford later offered an under-dash air-conditioning unit, and discontinued the vinyl with cloth insert seat option, offered only in early 1965 models. One option designed strictly for fun was the Rally-Pac. Introduced in 1963 after Ford’s success at that year’s Monte Carlo Rally and available on other Ford and Mercury compacts and intermediates, the Rally-Pac was a combination clock and tachometer mounted to the steering column. It was available as a factory ordered item for US$69.30. Installed by a dealer, the Rally-Pac cost US$75.95.A 14″ rim option was available for Rally-pac and GT350R vehicles widening front and rear track to 57.5″. Reproductions are presently available from any number of Mustang restoration parts sources. A compass, rear seat belts, A/C, and back-up lights were also optional. The 1966 Mustang debuted with moderate trim changes including a new grille, side ornamentation, wheel covers and filler cap. Ford’s new C-4 “cruise-o-matic” three-speed auto transmission became available for the 225 hp V8. The 289 “HiPo” K-code engine was also offered with a c4 transmission, but it had stronger internals and can be identified by the outer casing of the servo which is marked with a ‘C’. The long duration solid-lifter camshaft that allowed the high revving 289 to make the horsepower it was known for, was not friendly for a low stall speed automatic torque converter. The “HiPo” could be spotted very easily by the 1-inch-thick vibration damper, (as compared to 1/2 inch on the 225-hp version) and the absence of a vacuum advance unit on the dual point distributor. With the valve covers off, there is a large letter “K” stamped between the valve springs, along with screw in studs (vs. a pressed in stud for other 289s) for the adjustable rocker arms. A large number of new paint and interior color options, an AM/eight-track sound system, and one of the first AM/FM mono automobile radios were also offered. It also removed the Falcon instrument cluster; the previously optional features, including the round gauges and padded sun visors, became standard equipment. The Mustang would be the best-selling convertible in 1966, with 72,119 sold, beating the number two Impala by almost 2:1. The 1965 and 1966 Mustangs are differentiated by variations in the exterior, despite similar design. These variations include the emblem on the quarter-panels behind the doors. From August 1964 production, the emblem was a single vertical piece of chrome, while for 1966 models the emblem was smaller in height and had three horizontal bars extending from the design, resembling an “E”. The front intake grilles and ornaments were also different. The 1965 front grille used a “honeycomb” pattern, while the 1966 version was a “slotted” style. While both model years used the “Horse and Corral” emblem on the grille, the 1965 had four bars extending from each side of the corral, while on the 1966, these bars were removed. The 1966 model year saw introduction of ‘High Country Special’ limited edition, 333 of them were sold in Colorado, Wyoming, and Nebraska. When Ford wanted to introduce the Mustang in Germany, they discovered that Krupp company had already registered the name for a truck. The German company offered to sell the rights for US$10,000. Ford refused and removed Mustang badges from exported units, instead naming the cars as T-5 (a pre-production Mustang project name) for the German market until 1979 when Krupp copyrights expired. In 1965, Harry Ferguson Research purchased 3 Mustang notchbacks and converted them to 4×4 in an attempt to sell potential clients on their FF AWD system. A similar system was used in the Ferguson P99 Formula One car, and would go on to be featured in the Jensen FF, widely considered the first AWD passenger car. As in the Jensen FF, the AWD Mustangs also featured an ABS braking system, long before such a feature was commonplace. Ford Australia organised the importation and conversion of 1966 Mustang to right-hand-drive for the Australian market. This coincided with the launch of new XR Falcon for 1966, which was marketed as “Mustang-bred Falcon”. To set the official conversion apart from the cottage industry, the RHD Mustangs were called “Ford Australia Delivered Mustang” and had compliance plates similar to XR Falcon. About 209 were imported to Australia with 48 units were converted in 1965 while the further 161 were done in 1966. The 1967 model year Mustang was the first redesign of the original model. Ford’s designers began drawing up a larger version even as the original was achieving sales success, and while “Iacocca later complained about the Mustang’s growth, he did oversee the redesign for 1967 .” The major mechanical feature was to allow the installation of a big-block V8 engine. The overall size, interior and cargo space were increased. Exterior trim changes included concave taillights, side scoop (1967 model) and chrome (1968 model) side ornamentation, square rear-view mirrors, and usual yearly wheel and gas cap changes. The high-performance 289 option was placed behind the newer 335 hp 6.4 litre FE engine from the Ford Thunderbird, which was equipped with a four-barrel carburettor. During the mid-1968 model year, a drag racer for the street could be ordered with the optional 428 cu in (7.0 litre) Cobra Jet engine which was officially rated at 335 hp. All of these Mustangs were issued R codes on their VIN’s. The 1967 Deluxe Interior was revised, discontinuing the embossed running horse motif on the seat backs (the source for the “pony interior” nickname) in favor of a new deluxe interior package, which included special colour options, brushed aluminium (from August 1966 production) or woodgrain dash trim, seat buttons, and special door panels. The hardtop also included upholstered quarter trim panels, a carryover from the 1965-66 deluxe interior. The 1967 hardtop also had the chrome quarter trim caps, carried over from 1965-66, but these were painted to match the interior in 1968 models. The 1967 deluxe interior included stainless steel-trimmed seat back shells, similar to those in the Thunderbird. These were dropped at the end of the 1967 model year, and were not included in the woodgrain-trimmed 1968 interior. The deluxe steering wheel, which had been included in the deluxe interior for the 1965-66, became optional, and could also be ordered with the standard interior. The 1968 models that were produced from January 1968 were also the first model year to incorporate three-point lap and shoulder belts (which had previously been optional, in 1967-68 models) as opposed to the standard lap belts. The air-conditioning option was fully integrated into the dash, the speakers and stereo were upgraded, and unique center and overhead consoles were options. The fastback model offered the option of a rear fold-down seat, and the convertible was available with folding glass windows. Gone was the Rally-Pac, since the new instrument cluster had provisions for an optional tachometer and clock. Its size and shape also precluded the installation of the accessory atop the steering column. The convenience group with four warning lights for low fuel, seat belt reminder, parking brake not released, and door ajar were added to the instrument panel, or, if one ordered the optional console and A/C, the lights were mounted on the console. Changes for the 1968 model increased safety with a two-spoke energy-absorbing steering wheel, along with newly introduced shoulder belts. Other changes included front and rear side markers, “FORD” lettering removed from hood, rearview mirror moved from frame to windscreen, a 302 cu in (4.9 litre) V8 engine was now available, and C-Stripe graphics were added. The California Special Mustang, or GT/CS, was visually based on the Shelby model and was only sold in Western states. Its sister, the ‘High Country Special’, was sold in Denver, Colorado. While the GT/CS was only available as a coupe, the ‘High Country Special’ model was available in fastback and convertible configurations during the 1966 and 1967 model years, and as a coupe for 1968. The 1968 Ford Mustang GT Fastback reached iconic status after it was featured in the 1968 film Bullitt, starring Steve McQueen. In the film, McQueen drove a modified 1968 Mustang GT 2+2 Fastback chasing a Dodge Charger through the streets of San Francisco. There were further annual updates until the model’s replacement in 1973, but with each the car got steadily bigger and less overtly sporty. Sales reduced, too, suggesting that Ford were losing their way. Mustang II did not fix that, of course, but gradually, the legendary nameplate has returned to delivering the same sort of promise as those early and much loved cars were able to do.

Also here was an example of the currently on sale Mustang, the first generation to be offered with right hand drive from the factory.

And finally, there was an early 1930s Hot Rod, created from a Model B Ford.

JAGUAR

One of the most loved Jaguars of all time, both when it was new, and still now, is the Mark 2 saloon. Many will tell you that it is not the 3 Series BMW that “invented” the “compact sports saloon” car class, but this model, which dates back to 1959. A thorough revision of the small Jaguar saloon that had joined the range in 1955, the Mark 2 was notable in that it was the first car to use the Arabic numeral in its name, as opposed to the Roman numerals of the larger Jaguar models. At launch, the earlier model which had hitherto been known by its engine size was christened the Mark 1. Although clearly based on that car, the updated car looked significantly different, with an increase of 18% in cabin glass area greatly improving visibility. The car was re-engineered above the waistline. Slender front pillars allowed a wider windscreen and the rear window almost wrapped around to the enlarged side windows now with the familiar Jaguar D-shape above the back door and fully chromed frames for all the side windows. The radiator grille was amended and larger side, tail and fog lamps repositioned. Inside a new heating system was fitted and ducted to the rear compartment (although still notoriously ineffective). There was an improved instrument layout that became standard for all Jaguar cars until the XJ Series II of 1973. As well as the familiar 2.4 and 3.4 litre engines, what made this car particularly special was that it was also offered with the potent 220 bhp 3.8 litre unit that was fitted to the XK150 and which would later see service in the E Type. This gave the car a 0 – 60 time of around 8.5 seconds and a top speed of 125 mph. No wonder that the Mark 2 became popular as a get-away car for the criminal fraternity, and to keep up with and catch them, many police forces bought the car as well. With revised suspension and standard four wheel disc brakes, the car was effective on the track, taking plenty of class wins when new, and it is still popular in historic racing circles today. The quickest and most successful private entries came from John Coombs, a man with significant race experience who operated a large Jaguar dealership in Guildford. Coombs would undertake modifications to meet the demands of his customers, so not all the cars that he worked on are the same. Jaguar replaced the Mark 2 with simplified and slightly more cheaply finished 240 and 340 models, as an interim measure until an all-new model was ready to take over from them. The 3.8 litre disappeared from the range at this time, but in the 7 years it had been in production, it had been the best seller of the range, with around 30,000 cars produced, as compared to 28,666 of the 3.4 litre and 25,741 of the 2.4 litre model.

The Series 2 E Type introduced a number of design changes, largely due to U.S. National Highway Traffic and Safety Administration mandates. The most distinctive exterior feature is the absence of the glass headlight covers, which affected several other imported cars, such as the Citroën DS, as well. Unlike other cars, this step was applied worldwide for the E-Type. Other hallmarks of Series 2 cars are a wrap-around rear bumper, larger front indicators and tail lights re-positioned below the bumpers, and an enlarged grille and twin electric fans to aid cooling. Additional U.S.-inspired changes included a steering lock which moved the ignition switch to the steering column, replacing the dashboard mounted ignition and push button starter, the symmetrical array of metal toggle switches replaced with plastic rockers, and a collapsible steering column to absorb impact in the event of an accident. New seats allowed the fitment of head restraints, as required by U.S. law beginning in 1969. The engine is easily identified visually by the change from smooth polished cam covers to a more industrial “ribbed” appearance. It was de-tuned in the US with twin two-barrel Strombergs replacing three SUs. Combined with larger valve clearances horsepower was reduced from 265 to 246 and torque from 283 to 263. Air conditioning and power steering were available as factory options. Production totalled 13,490 of all types, with 4885 of the FHC, 5,326 of the 2+2 and 8,628 of the OTS model.

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

JEEP

The Jeep Comanche (designated MJ) is a pickup truck variant of the Cherokee compact SUV (1984–1992) manufactured and marketed by Jeep for model years 1986-1992 in rear wheel (RWD) and four-wheel drive (4WD) models as well as two cargo bed lengths: six-foot (1.83 meters) and seven-foot (2.13 meters). During the mid-1980s, according to AMC chairman W. Paul Tippett Jr. “People are finding trucks a reasonable and sophisticated alternative to cars.” To satisfy the demand and to compete with Japanese competitors, both AMC and Chrysler were preparing compact pickups for the 1986 and 1987 model years (respectively). Also at this time the financial health of AMC was poor and the automaker was in need of cash as it was preparing a new line of midsize sedans (the Eagle Premier) scheduled to be produced at a factory being built in Canada (Brampton Assembly), but the best thing the company had going for it was its popular line of Jeeps and introducing a compact Jeep pickup truck in the fall of 1985 was expected to help. The Jeep Comanche was introduced in mid-August 1985, at a lavish event staged at the ballroom of the MGM Grand Hotel and Casino (currently Bally’s Las Vegas) for AMC’s over 1,500 North American dealers. American Motors included Chinese officials as part of the negotiations establishing Beijing Jeep (now Beijing Benz). The goal was to produce and sell Comanches in China through this joint venture. The new trucks were unveiled by Jose Dedeurwaerder, an engineer and international business executive with 23 years of experience with Renault, who had just been appointed as AMC’s new president. The base price of the two-wheel drive model was $7,049, making it the lowest priced Jeep model for the 1986 model year. American Motors’ Jeep designers based the Comanche MJ body, styling, engineering, and powertrain on the XJ Cherokee, which had been introduced for the 1984 model year. The Comanche had a somewhat more conventional body-on-frame design behind the cab and a removable cargo box, but retained the unibody construction of the Cherokee in the front half of the vehicle. In the United States where the Comanche and Dodge Rampage were sold they are both considered pickup trucks. By contrast, in other markets the Volkswagen Rabbit Pickup was called the Volkswagen Caddy and considered a coupe utility, not a truck because the cargo bed is an integral part of the body structure and not removable. However this is not the legal definition of truck in the United States where the Comanche, Rampage and Rabbit were all sold. Two cargo bed lengths were used; one for the seven-foot long-bed model, which appeared first in 1986, and a second, shorter version for the six-foot cargo bed, which debuted for the 1987 model year. Unlike other pickups of the time that used C-channel frames, the Comanche’s frame design (called a “Uniframe” by Jeep) under the cargo bed was fully boxed, with a large X structure centred over the rear axle. For strength, the rails were over eight inches deep (top to bottom), much deeper than conventional midsize truck frames (1983 Jeep J-10 full-size truck frame is 6.75 inches at the deepest point). This structure was pioneered by AMC for the 1971 “Cowboy” compact pickup prototype. From 1986 to 1987, the Jeep Comanche grille had ten slots in a similar configuration to the 1984-1987 Cherokee XJ, while from 1988 to 1992, this configuration changed to eight slots to match with the SUV. A new “4×4” badge, similar to those found on the Cherokee and Wagoneer models, was affixed to the upper rear of the cargo box on all the four-wheel drive models. After the Chrysler buyout of American Motors for $1.5 billion on March 9, 1987, designed to capture “the highly profitable Jeep vehicles … and 1,400 additional dealers”, the Jeep Comanche, like the similar Cherokee, received only minor changes. These were primarily to improve reliability and parts interchangeability with other Chrysler-built vehicles. The Comanche used the XJ Cherokee’s “Quadralink” front suspension, with coil springs and upper/lower control arms on a solid axle. It was argued that the coil springs allowed for greater ride comfort and axle articulation during off-road excursions. A track bar (Panhard rod) is used to keep the axle centred under the truck. Modified versions of this same basic suspension system were later used on the 1993–2004 Grand Cherokee, 1997 and newer TJ Wranglers and 1994 and newer Dodge Rams. For the rear suspension, the truck used leaf springs that are considerably longer than the Cherokee’s, which give Comanches good load-carrying capacity without creating a hard ride. The standard rear axle was the same Dana 35 used in the Cherokee, except that the Comanche mounted the leaf springs underneath the axle, as do most other trucks, and the Cherokee mounted them on top of the axle. There was also a heavy duty Metric Ton package for the long-bed models. The package included heavier-duty leaf springs and wheels, larger tires, and upgraded the rear axle to a Dana 44, which increased the stock payload (cargo) capacity from 1,400 to 2,205 pounds (635 to 1,000 kg), well above that of any other mid-size truck. The Metric Ton Comanche’s payload rating was higher than that of many full-size pickups. The inaugural 1986 model year Comanches could be equipped with one of three engines: AMC’s 2.5 L four-cylinder as standard, with General Motors’ 2.8 L V6 or Renault’s 2.1 L I4 turbo diesel available as options. In base trim the four-cylinder engine was backed by a four-speed manual transmission, with either a five-speed manual or three-speed TorqueFlite A904 automatic built by Chrysler as an option. The V6 engine was available with either the five-speed manual or the automatic, while the turbodiesel was only available with the five-speed. The V6 was the same engine used in the competing Chevrolet S-10, and equipped with a two-barrel Rochester carburettor instead of the four-cylinder’s electronic throttle-body fuel injection system the optional six-cylinder was slightly less powerful than the standard four. The V6 thus offered little performance advantage over the base engine while penalizing the owner with poorer fuel economy. In the truck’s second year on the market the V6 was replaced by AMC’s new fuel-injected 4.0 L straight-six that developed 173 hp and 220 lb/ft (298 Nm): 50% more power and 47% more torque than the previous V6. The new six-cylinder was also more fuel-efficient. The performance of the base 2.5 L engine was also improved with a new air intake, raising peak output to 121 hp and 141 lb/ft. The slow-selling turbodiesel option was dropped during the model year. Concurrent with introduction of the new straight-six a new four-speed automatic built by Aisin-Warner replaced the former Chrysler three-speed. The 30-40LE featured electronic controls with a switch on the dashboard allowing the driver to choose between two performance modes: “Power”, in which the transmission downshifts more quickly and upshifts at higher rpm during hard acceleration, and “Comfort”, in which the upshifts are made at lower engine speeds to conserve fuel and reduce engine noise and vibration. In 1988 output of the 4.0 L engine was improved slightly to 177 hp and 224 lb/ft. Chrysler purchased AMC in 1987, and by the 1991 model year adapted their own engine control electronics to replace the original Renix systems used with the 2.5 L and 4.0 L engines. Power and torque in both engines improved as a result, with the four-cylinder having an additional 9 hp and 8 lb⋅ft and the six-cylinder improving by 1 lb⋅ft and 13 hp. The 4.0 L was badged “High Output” thereafter. As a result of the power improvements the Aisin-Warner automatic transmission’s output shaft was changed from 21 splines to 23, and the “Power-Comfort” switch was deleted. The four-cylinder was no longer available with the automatic in 1991 and 1992. During the production life of the Comanche six different transmissions were offered, manufactured by Aisin, Chrysler, and Peugeot. Chrysler provided the aforementioned TorqueFlite 904 three-speed automatic in 1986 models. In addition to the aforementioned 30-40LE four-speed automatic Aisin also provided the AX-4 (four-speed), AX-5 and AX-15 (five-speed overdrive) manual transmissions. The AX-15 was phased in midway through the 1989 model year to replace the Peugeot BA10/5 five-speed that had been used behind the 4.0 L engine from its introduction in 1987.  Comanches were available in either two or four-wheel-drive, with solid axles front and rear (two-wheel-drive Comanches used a simple beam axle with otherwise the same front suspension as four-wheel-drive models). Transfer cases were built by New Process Gear, and the Comanche was available with either part-time “Command-Trac” or full-time “Selec-Trac” systems. In 1986 Command-Trac transfer cases were model NP207 and Selec-Trac were NP228, both with a 2.61:1 low gear ratios. In 1987 the NP207 was replaced with the NP231 and NP228 was replaced with the NP242, both with 2.72:1 low gears. These remained the same through the rest of the Comanche’s production.  The decision to phase out the Jeep Comanche “came from a combination of two factors— low sales and Chrysler’s attempts to make the Jeep brand fit into the Chrysler hierarchy of Plymouth, Dodge, and Chrysler models” with Jeep housing SUVs and Dodge making trucks. As sales dropped, the Comanche was planned for discontinuation. In 1990, the National Council of Jeep-Eagle dealers asked Chrysler to discontinue the Comanche, and allow them to sell a version of the Dodge Dakota pickup. The company decided to cease production of the Comanche on June 12, 1992, after only a few thousand more trucks rolled off the Toledo, Ohio, assembly line. A total of 190,446 Comanches were made during its production run.

LAND ROVER

The Series 2 model, the successor to the successful Series I, saw a production run from 1958 to 1961. It came in 88 in and 109 in wheelbases (normally referred to as the ‘SWB’ and ‘LWB’). This was the first Land Rover to receive the attention of Rover’s styling department. Chief Stylist David Bache produced the familiar ‘barrel side’ waistline, with a 5 in greater width to cover the vehicle’s wider tracks, as well as the improved design of the truck cab variant, introducing the curved side windows and rounded roof still used on current Land Rovers. The series II was the first vehicle to use the well-known 2.25-litre petrol engine, although the first 1,500 or so short wheelbase (SWB) models retained the 52 hp 2.0-litre petrol engine from the series I. This larger petrol engine produced 72 hp and was closely related to the 2.0-litre diesel unit still in use. This engine became the standard Land Rover unit until the mid-1980s when diesel engines became more popular. The 109-inch series II station wagon introduced a twelve-seater option on top of the standard ten-seater layout. This was primarily to take advantage of UK tax laws, by which a vehicle with 12 seats or more was classed as a bus, and was exempt from Purchase Tax and Special Vehicle Tax. This made the twelve-seater not only cheaper to buy than the 10-seater version, but also cheaper than the seven-seater 88-inch Station Wagon. The twelve-seater layout remained a highly popular body style for decades, being retained on the later series and Defender variants until 2002, when it was dropped. The unusual status of the twelve-seater remained until the end—such vehicles were classed as minibuses and thus could use bus lanes and (if registered correctly) could be exempt from the London Congestion Charge. There was some degree of overlap between series I and II production. Early series-II 88-inch vehicles were fitted with the old 2-litre petrol engine to use up existing stock from production of the series I. The 107-inch Station Wagon continued until late 1959 due to continued demand from export markets and to allow the production of series-II components to reach full level. The SII and the SIIA are very difficult to distinguish. There were some minor cosmetic changes. Body configurations available from the factory ranged from short-wheelbase soft-top to the top-of-the-line five-door station wagon. A 2.25-litre diesel was added to the engine line, which after 1967 included a 2.6-litre inline six cylinder petrol engine for the long-wheelbase models, which also had servo-assisted brakes. 811 of these were NADA (or North American Dollar Area) trucks, which were the only long-wheelbase models made for the American and Canadian markets. From February 1969 (home market), the headlamps moved into the wings on all models, and the sill panels were redesigned to be shallower a few months afterwards. The series IIA is considered by many the most hardy series model constructed. It is quite possibly also the type of classic Land Rover that features strongly in the general public’s perception of the Land Rover, from its many appearances in popular films and television documentaries set in Africa throughout the 1960s, such as Born Free. In February 1968, just a few months after the Rover Company had been subsumed, under government pressure, into the Leyland Motor Corporation, the Land Rover celebrated its twentieth birthday, with total production to date just short of 600,000, of which more than 70% had been exported. Certainly it was whilst the series IIA was in production that sales of utility Land Rovers reached their peak, in 1969–70, when sales of over 60,000 Land Rovers a year were recorded. (For comparison, the sales of the Defender have been around the 25,000 level since the 1990s.) As well as record sales, the Land Rover dominated many world markets- in Australia in the 1960s Land Rover held 90% of the 4×4 market. This figure was repeated in many countries in Africa and the Middle East. The Series 3 replaced this version in 1971.

The Lightweight 1/2 ton was a British military vehicle supplied by Land Rover. It was a vehicle designed to be light enough to be carried by the Westland Wessex, a medium-lift helicopter in service for over 40 years with the U.K armed services. It was produced from 1968 to 1984, and served widely internationally and in private use. In the early 1960s both the Royal Marines, then largely based aboard commando carriers, and the British Army required a vehicle that could be carried by air to replace the Austin Champ. They had taken delivery of the Westland Wessex helicopter, which could carry a 2,500 lb (1,134 kg) load slung beneath. The smallest Land Rover available at the time was a Series IIA 88 inch (2235 mm) wheelbase, which was too heavy. Land Rover began work on a lightweight version to fit the specifications in 1965. A new modification to the basic Series IIA was devised by making many body components easily detachable and removing many non-essential items. The result was the Land Rover Half-Ton, known widely as the Lightweight or Airportable. In practice, to reduce weight sufficiently for the helicopters of the day to lift them in combat conditions, the tilt (roof) and sticks, the upper parts of the body, the doors and windscreen were removed, to be refitted later. The most significant change, however, was a reduction in width by 4 inch (100 mm), by redesigning the standard Series IIA axles and fitting shorter half-shafts, which meant it would fit on a standard pallet. Complete, the 24 Volt FFR Lightweight IIA had an unladen weight of 3,329 lb (1,510 kg), which was over the specified weight. The term Lightweight appears misleading as a standard 88 Land Rover weighed 1,318 kg (2,906 lb), but the higher total weight was due to the various frame reinforcement required for military usage. However, with the removable body panels taken-off it the 24 Volt FFR weighed 2,808 lb (1,274 kg) below the limit. Since improvements to the helicopters meant more lift was available, the MoD accepted it for use. The main applications were actually to be shipped by cargo aircraft or stacked on train wagons, with helicopter transport a rare occurrence. The first production models were completed on 11 November 1968, and production continued until 1984. Although a very few prototypes had been built between 1965 and 1967, and about six pre-production models early in 1968, ‘Lightweight’ Series IIA quantity production began on 11 November 1968, with a total of 15 vehicles being produced on that day. Total production of Series IIa ‘Lightweights’ was between 1,500 and 2,000 vehicles. Later Series IIa models had the headlamps moved out into a revised front wing, to comply with revised lighting regulations. It is easy to confuse later Series IIa models with the Series III, though nothing was changed on these vehicles other than the location of the headlamps. The Series IIA Lightweight was replaced by the Series III Lightweight in 1972, soon after the replacement of the civilian Series IIA with the Series III. The vehicle remained in essence the same, with a few relatively minor changes – there are detail differences to the chassis; and a revised gearbox had synchromesh on second through fourth gears instead of just third and fourth. In the electrical department the Series III was fitted with an alternator in place of the dynamo of the Series IIa; the new indicator switch incorporates a headlamp flasher and horn; and the ignition switch was now fitted in a new steering column cowl instead of on the dashboard. The Lightweight did retain the earlier Series IIa metal dashboard even after the upgrade. Around 1980, in line with civilian models, the engine had five main bearings instead of three. Lightweight production ended in 1984, when the parent Land Rover Series III was replaced by the models 90 and 110. A total of 37,897 Lightweights, petrols and diesels, were built.

LOTUS

Production of the Emira, Lotus’ only sports car at present, finally got underway in 2022 and so the car is now a reasonably common sight at enthusiast meetings such as this one.

MASERATI

Sole Maserati here was my Grecale.

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

As one of Britain’s most popular classic cars, it was no surprise to find several examples of the MGB here, with cars from throughout the model’s long life, both in Roadster and MGB GT guise, as well as one of the short-lived V8 engined cars. Launched in October 1962, this car was produced for the next 18 years and it went on to become Britain’s best selling sports car. When first announced, the MGB was an innovative, modern design, with a monocoque structure instead of the traditional body-on-frame construction used on both the MGA and MG T-types and the MGB’s rival, the Triumph TR series, though components such as the brakes and suspension were developments of the earlier 1955 MGA and the B-Series engine had its origins back in 1947. The lightweight design reduced manufacturing costs while adding to overall vehicle strength, and with a 95hp 3-bearing 1798cc engine under the bonnet, performance was quite respectable with a 0–60 mph time of just over 11 seconds. The car was rather more civilised than its predecessor, with wind-up windows now fitted as standard, and a comfortable driver’s compartment offered plenty of legroom. The roadster was the first of the MGB range to be produced. The body was a pure two-seater but a small rear seat was a rare option at one point. By making better use of space the MGB was able to offer more passenger and luggage accommodation than the earlier MGA while being 3 inches shorter overall. The suspension was also softer, giving a smoother ride, and the larger engine gave a slightly higher top speed. The four-speed gearbox was an uprated version of the one used in the MGA with an optional (electrically activated) overdrive transmission. A five-bearing engine was introduced in 1964 and a number of other modifications crept into the specification. In late 1967, sufficient changes were introduced for the factory to define a Mark II model. Alterations included synchromesh on all 4 gears with revised ratios, an optional Borg-Warner automatic gearbox, a new rear axle, and an alternator in place of the dynamo with a change to a negative earth system. To accommodate the new gearboxes there were significant changes to the sheet metal in the floorpan, and a new flat-topped transmission tunnel. US market cars got a new safety padded dashboard, but the steel item continued for the rest of the world. Rostyle wheels were introduced to replace the previous pressed steel versions in 1969 and reclining seats were standardised. 1970 also saw a new front grille, recessed, in black aluminium. The more traditional-looking polished grille returned in 1973 with a black “honeycomb” insert. Further changes in 1972 were to the interior with a new fascia. To meet impact regulations, in late 1974, the chrome bumpers were replaced with new, steel-reinforced black rubber bumpers, the one at the front incorporating the grille area as well, giving a major restyling to the B’s nose, and a matching rear bumper completed the change. New US headlight height regulations also meant that the headlamps were now too low. Rather than redesign the front of the car, British Leyland raised the car’s suspension by 1-inch. This, in combination with the new, far heavier bumpers resulted in significantly poorer handling. For the 1975 model year only, the front anti-roll bar was deleted as a cost-saving measure (though still available as an option). The damage done by the British Leyland response to US legislation was partially alleviated by revisions to the suspension geometry in 1977, when a rear anti-roll bar was made standard equipment on all models. US emissions regulations also reduced horsepower. In March 1979 British Leyland started the production of black painted limited edition MGB roadsters for the US market, meant for a total of 500 examples. Due to a high demand of the limited edition model, production ended with 6682 examples. The United Kingdom received bronze painted roadsters and a silver GT model limited editions. The production run of home market limited edition MGBs was split between 421 roadsters and 579 GTs. Meanwhile, the fixed-roof MGB GT had been introduced in October 1965, and production continued until 1980, although export to the US ceased in 1974. The MGB GT sported a ground-breaking greenhouse designed by Pininfarina and launched the sporty “hatchback” style. By combining the sloping rear window with the rear deck lid, the B GT offered the utility of a station wagon while retaining the style and shape of a coupe. This new configuration was a 2+2 design with a right-angled rear bench seat and far more luggage space than in the roadster. Relatively few components differed, although the MGB GT did receive different suspension springs and anti-roll bars and a different windscreen which was more easily and inexpensively serviceable. Although acceleration of the GT was slightly slower than that of the roadster, owing to its increased weight, top speed improved by 5 mph to 105 mph because of better aerodynamics. 523,826 examples of the MGB of all model types were built, and although many of these were initially sold new in North America, a lot have been repatriated here.

MINI

Issigonis’ friend John Cooper, owner of the Cooper Car Company and designer and builder of Formula One cars, saw the potential of the Mini for competition. Issigonis was initially reluctant to see the Mini in the role of a performance car, but after John Cooper appealed to BMC management, the two men collaborated to create the Mini Cooper. The Austin Mini Cooper and Morris Mini Cooper debuted in September 1961. The 848 cc engine from the Morris Mini-Minor was given a longer stroke to increase capacity to 997 cc increasing power from 34 to 55 bhp. The car featured a race-tuned engine, twin SU carburettors, a closer-ratio gearbox and front disc brakes, uncommon at the time in a small car. One thousand units of this version were commissioned by management, intended for and designed to meet the homologation rules of Group 2 rally racing. The 997 cc engine was replaced by a shorter stroke 998 cc unit in 1964. In 1962, Rhodesian John Love became the first non-British racing driver to win the British Saloon Car Championship driving a Mini Cooper. A more powerful Mini Cooper, dubbed the “S”, was developed in tandem and released in 1963. Featuring a 1071 cc engine with a 70.61 mm bore and nitrided steel crankshaft and strengthened bottom end to allow further tuning; and larger servo-assisted disc brakes, 4,030 Cooper S cars were produced and sold until the model was updated in August 1964. Cooper also produced two S models specifically for circuit racing in the under 1,000 cc and under 1,300 cc classes respectively, rated at 970 cc and a 1,275 cc both had a 70.61 mm bore and both were also offered to the public. The smaller-engine model was not well received, and only 963 had been built when the model was discontinued in 1965. The 1,275 cc Cooper S models continued in production until 1971. Sales of the Mini Cooper were: 64,000 Mark I Coopers with 997 cc or 998 cc engines; 19,000 Mark I Cooper S with 970 cc, 1,071 cc or 1,275 cc engines; 16,000 Mark II Coopers with 998 cc engines; 6,300 Mark II Cooper S with 1,275 cc engines. There were no Mark III Coopers and 1,570 Mark III Cooper S.

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.

Without doubt, the rarest version of the classic Issigonis-designed Mini is the Pickup, as seen here. Introduced in 1961, at the same time as the Van, whose longer platform this version shared, there was an open-top rear cargo area and a drop down tailgate. The factory specified the weight of the Pick-up as less than 1,500 lb (680 kg) with a full 6 gallon tank of fuel. As with the Van, the Pick-up had stamped metal slots for airflow into the engine compartment. The Pickup was basic, although the factory brochure described a “fully equipped Mini Pick-up is also available which includes a recirculatory heater.” Passenger-side sun visor, seat belts, laminated windscreen, tilt tubes and cover were also available at extra cost. Equipment levels improved gradually over time.  Like the van, the Pick-up was renamed as the Mini 95 in 1978. Production ceased in 1983 by which time 58,179 Mini Pick-up models had been built, barely 10% of the number of Vans made.

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.

MORRIS

The Eight was produced from 1935 to 1948, inspired by the sales popularity of the similarly shaped Ford Model Y. The success of the car enabled Morris to regain its position as Britain’s largest motor manufacturer. The Eight was powered by a Morris UB series 918 cc four-cylinder side-valve engine with three bearing crankshaft and single SU carburettor with maximum power of 23.5 bhp. The gearbox was a three-speed unit with synchromesh on the top two speeds and Lockheed hydraulic brakes were fitted. Coil ignition was used in a Lucas electrical system powered by a 6 volt battery and third brush dynamo. The body which was either a saloon or open tourer was mounted on a separate channel section chassis with a 7 feet 6 inches wheelbase. The tourer could reach 58 mph and return 45 mpg; the saloons were a little slower. The chrome-plated radiator shell and honeycomb grille were dummies disguising the real one hidden behind. In September 1934 the bare chassis was offered for £95. For buyers of complete cars prices ranged from £118 for the basic two-seater to £142 for the four door saloon with “sunshine” roof and leather seats. Bumpers and indicators were £2 10 shillings (£2.50) extra. Compared with the similarly priced, but much lighter and longer established Austin 7, the 1934/35 Morris Eight was well equipped. The driver was provided with a full set of instruments including a speedometer with a built in odometer, oil pressure and fuel level gauges and an ammeter. The more modern design of the Morris was reflected in the superior performance of its hydraulically operated 8 inch drum brakes. The Morris also scored over its Ford rival by incorporating an electric windscreen wiper rather than the more old-fashioned vacuum powered equivalent, while its relatively wide 45 inch track aided directional stability on corners. The series I designation was used from June 1935 in line with other Morris models, cars made before this are known as pre-series although the official Morris Motors designation was by the model year even though they were introduced in October 1934. Of the 164,102 cars produced approximately 24,000 were tourers.

NISSAN/DATSUN

Although not many of the Datsun 240Z were sold in the UK, or indeed Europe, this car proved phenomenally popular in the US, and was really the beginning of the end for the British sports cars which American buyers had been buying in large quantities throughout the 1960s. Known internally as the Nissan S30, and sold in Japan as the Nissan Fairlady Z, the car we call the the Datsun 240Z, and the later 260Z and 280Z was the first generation of Z GT two-seat coupe, produced by Nissan from 1969 to 1978. It was designed by a team led by Yoshihiko Matsuo, the head of Nissan’s Sports Car Styling Studio. With strong performance from the 2.4 litre engine, and excellent ride and handling from the four-wheel independent suspension, the car was good to drive, In the United States, Datsun priced the 240Z within $200 of the MGB-GT, and dealers soon had long waiting lists for the “Z”. Its modern design, relatively low price, and growing dealer network compared to other imported sports cars of the time (Jaguar, BMW, Porsche, etc.), made it a major success for the Nissan Motor Corporation, which at the time sold cars in North America under the name Datsun. As a “halo” car, the 240Z broadened the image of Japanese car-makers beyond their econobox success. The car was updated to the 260Z in 1975, when a larger 2.6 litre engine was used.

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 997 GT3 RS was first announced in early 2006 as a homologation version of the GT3 RSR racing car for competition events like Sebring and the 24 Hours of Le Mans. The drivetrain of the RS is based on the 911 GT3, except for the addition of a lightweight flywheel and closer gear ratios for further improved response under acceleration. Unlike the GT3, the RS is built on the body and chassis of the 911 Carrera 4 and Turbo, and accordingly has a wider rear track for better cornering characteristics on the track. Visually, the RS is distinguished by its distinctive colour scheme – bright orange or green with black accents, which traces its roots to the iconic Carrera RS of 1973. The plastic rear deck lid is topped by a wide carbon-fibre rear wing. The front airdam has been fitted with an aero splitter to improve front downforce and provide more cooling air through the radiator. The European version of the RS is fitted with lightweight plexiglass rear windows and a factory-installed roll cage. Production of the first generation 997 GT3 RS ended in 2009, with worldwide production estimated to be under 2,000 vehicles. In August 2009, Porsche announced the second generation of the 997 GT3 RS with an enlarged 3.8-litre engine having a power output of 450 PS (444 hp), a modified suspension, dynamic engine mounts, new titanium sport exhaust, and modified lightweight bodywork. In April 2011, Porsche announced the third generation of the 997 GT3 RS with an enlarged 4.0-litre engine having a power output of 500 PS (493 hp), Porsche designed the GT3 RS 4.0 using lightweight components such as bucket seats, carbon-fibre bonnet and front wings, and poly carbonate plastic rear windows for weight reduction, while using suspension components from the racing version. Other characteristics include low centre of gravity, a large rear wing and an aerodynamically optimised body. The lateral front air deflection vanes, a first on a production Porsche, increase downforce on the front axle. Aided by a steeply inclined rear wing, aerodynamic forces exert an additional 190 kg, enhancing the 911 GT3 RS 4.0’s grip to the tarmac. The GT3 RS 4.0 weighs 1,360 kg.

The commercially very significant Boxster was also represented here. Grant Larson’s design, inspired by the 356 Cabriolet, Speedster, and 550 Spyder, stimulated a commercial turnaround for Porsche. Through consultation with Toyota. Porsche began widely sharing parts among models and slashed costs. By October 1991 following a visit to the Tokyo Motor Show, Porsche in dire straits, began to devise solutions to succeed the poor selling 928 and incoming 968 (a heavy update of the 944). In February 1992, Porsche began development of a successor to the 928 (mildly updated for 1992) and recently released 968. By June 1992, out of 4 proposals based on dual collaboration between the 986 and 996 (993 successor) design teams, a proposal by Grant Larson and Pinky Lai was chosen by Harm Lagaay. In August 1992, a decision was made to develop the concept into a show vehicle, in time for the 1993 North American International Auto Show. After garnering widespread acclaim from the press and public upon presentation of the Boxster Concept in January 1993, the final production 986 production exterior design by Larson was frozen in March 1993. However, by the second half of 1993, difficulties arose with fitment of some components, resulting in lengthening of the hood and requiring another design freeze by fourth quarter of that year. Prototypes in 968 bodies were built to test the mid-engine power train of the 986 by the end of 1993, with proper prototypes surfacing in 1994. Pilot production began in the second half of 1995, ahead of series production in mid-1996. The Boxster was released ahead of the 996. The 986 Boxster had the same bonnet, front wings, headlights, interior and engine architecture as the 996. All 986 and 987 Boxsters use the M96, a water-cooled, horizontally opposed (“flat”), six-cylinder engine. It was Porsche’s first water-cooled non-front engine. In the Boxster, it is placed in a mid-engine layout, while in the 911, the classic rear-engine layout was used. The mid-engine layout provides a low center of gravity, a near-perfect weight distribution, and neutral handling. The engines had a number of failures, resulting in cracked or slipped cylinder liners, which were resolved by a minor redesign and better control of the casting process in late 1999. A failure for these early engines was a spate of porous engine blocks, as the manufacturer had difficulty in the casting process. In addition to causing problems with coolant and oil systems mingling fluids, it also resulted in Porsche’s decision to repair faulty engines by boring out the cast sleeves on the cylinders where defects were noted in production and inserting new sleeves rather than scrapping the engine block. Normally, the cylinder walls are cast at the same time as the rest of the engine, this being the reason for adopting the casting technology. The model received a minor facelift in 2002. The plastic rear window was replaced by a smaller glass window. The interior received a glove compartment, new electro-mechanical hood and trunk release mechanism (with an electronic emergency release in the fuse box panel) and an updated steering wheel. Porsche installed a reworked exhaust pipe and air intake. In addition, the front headlight’s amber indicators were replaced with clear indicators. The rear light cluster was also changed with translucent grey turn signals replacing the amber ones. The side marker lights on the front wings were changed as well from amber to clear, except on American market cars where they remained amber. The bumpers were also changed slightly for a more defined, chiselled appearance, and new wheel designs were made available. The second generation of the Boxster debuted at the 2004 Paris Motor Show

The third-generation Boxster (internally known as the 981) was announced on 13 March 2012 at the Geneva Motor Show with sales starting in early summer 2012. The 981 Boxster reflected the new design language from the 911 (991) and 918, and featured new and revised engine and transmission specifications. Together with a new body, the type 981 Boxster featured a new, 40 per cent more torsionally rigid chassis, the front track was 40 mm (1.6 in) wider, the rear 18 mm (0.7 in) wider and the wheelbase extended by 60 mm (2.4 in), but with a small weight reduction of up to 35 kg (77 lb) compared to the previous type 987 Boxster. The standard Boxster was fitted with a new 2.7-litre flat-6 engine, and the Boxster S was fitted with the existing 3.4-litre engine but with revised performance. Both engines were equipped with a 6-speed manual gearbox and an optional 7-speed reworked PDK. Both manual and automatic models were available with several technical options, including Porsche Torque Vectoring (PTV) and a Sport Chrono Package that included active transmission mounts, and made the PDK-equipped model even faster. Porsche claimed that the new generation Boxster provided fuel savings of 15% over the outgoing model. The range was expanded in March 2014 with the addition of the GTS derivative, with slightly altered front and rear bumpers and an additional 15 PS/ 15 bhp from the 3.4-litre engine. In 2015 the GT4 derivative was introduced, seeing the engine from a 991.1 Carrera S rotated 180 degrees. The GT4 also saw a lowered ride height, altered bumpers, a rear wing and additional GT package upgrades including brakes and certain suspension components from a 991.1 GT3. These special cars were manufactured from 2015 – 2016 with a total of 2500 being made, making this model one of the more desirable collector’s cars in Porsche’s lineup. The GT4 was widely considered one of the best cars of 2015/2016 where it won many awards for its impeccable handling and performance. The third generation Cayman was unveiled at the 2012 Geneva Motor Show. The production version of the 981 Cayman was released as a 2014 model in the spring of 2013. The new car was available in both the standard trim with a 2.7-litre engine, and in the S trim with a 3.4-litre engine. Both versions were available with either a 6-speed manual or a dual-clutch 7-speed PDK transmission. The 981 Cayman featured upgrades including a new body, a longer wheelbase, a wider front track, electrically powered steering, and a redesigned interior that matched the firm’s contemporaneous 911 models. The new model gained acclaim in the motoring press as one of the best handling sports cars at any price, due to its mid-engine layout and driving dynamics. The Cayman S benefited from the same engine and running gear as Porsche’s 3.4-litre version of the 911. A heavily revamped version of both models, known as the 982 generation was launched in 2016 to replace these cars.

RILEY

The Riley RM Series was the last model developed independently by Riley. RM vehicles were produced from 1945, after the Second World War, until the 1952 merger of Riley’s parent company, the Nuffield Organisation with Austin to form BMC. They were originally made in Coventry, but in 1949 production moved to the MG works at Abingdon. The RM models were marketed as the Riley 1½ Litre and the Riley 2½ Litre. There were three types of RM vehicles produced: the RMA was a large saloon, and was replaced by the updated RME, both of which had the 1.5 litre engine; the RMB was an even larger car, and was replaced by the RMF, and these cars had the 2.5 litre engine; the RMC and RMD were open topped cars produced in  limited numbers, intended largely for the all important export markets, with about 500 of each being made. These were nicely produced quality cars and considered quite sporting in their day, with the sort of appeal that many years later would be inherent in a BMW. Ironically, of course, BMW now own the rights to the Riley brand.

TRIUMPH

Launched in 1955, the TR3 was an evolution of the TR2 and not a brand new model. It  was powered by a 1991 cc straight-4 OHV engine initially producing 95 bhp, an increase of 5 hp over the TR2 thanks to the larger SU-H6 carburettors fitted. This was later increased to 100 bhp at 5000 rpm by the addition of a “high port” cylinder head and enlarged manifold. The four-speed manual gearbox could be supplemented by an overdrive unit on the top three ratios, electrically operated and controlled by a switch on the dashboard. In 1956 the front brakes were changed from drums to discs, the TR3 thus becoming the first British series production car to be so fitted. The TR3 was updated in 1957, with various changes of which the full width radiator grille is the easiest recognition point  and the facelifted model is commonly referred to as the Triumph “TR3A”, though unlike the later TR4 series,  where the “A” suffix was adopted, the cars were not badged as such and the “TR3A” name was not used officially, Other updates included exterior door handles, a lockable boot handle and the car came with a full tool kit as standard (this was an option on the TR3). The total production run of the “TR3A” was 58,236. This makes it the third best-selling TR after the TR6 and TR7. The TR3A was so successful that the original panel moulds eventually wore out and had to be replaced. In 1959 a slightly modified version came out that had raised stampings under the bonnet and boot hinges and under the door handles, as well as a redesigned rear floor section. In addition, the windscreen was attached with bolts rather than the Dzus connectors used on the early “A” models. Partly because it was produced for less time, the original TR3 sold 13,377 examples, of which 1286 were sold within the UK; the rest being exported mainly to the USA.

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

VAUXHALL

Announced 2 October 1957, this is probably the best-known Cresta these days. It mimicked the American fashion for tail-fins, wrap-around windows and white-wall tyres, taking its cues from the 1957 model Buick Special announced twelve months before the Cresta, though understated compared to the Cadillacs and Buicks of the time. All factory-built PAs were four-door saloons: the estate cars were converted by Friary of Basingstoke, Hampshire and are rare today. The PA Cresta had independent front suspension using coil springs and an anti-roll bar with a rigid axle and semi-elliptic leaf springs at the rear. The Lockheed brakes used 9 in drums all round. Carried over from the last of the E series cars, the 2,262 cc six-cylinder engine had pushrod-operated overhead valves and a compression ratio of 7.8:1 (a low compression 6.8:1 version was available); it produced 82.5 bhp at 4,400 rpm. A single Zenith carburettor was used. The transmission had three forward speeds. It was well equipped with leather and nylon upholstery for its bench front and rear seats and woven pile carpet. A heater was fitted as standard. The radio remained an option on the home market. Other options included fog lamps, reversing light, locking filler cap and external mirrors. In order to keep the front floor clear to seat six people the handbrake lever was mounted under the dashboard and the gearchange lever was column mounted. The car could be ordered painted in either single or two tone colours. In August 1959 the Cresta was given a facelift, with a new, larger, grille and the replacement of the three piece rear window with a single wrap around screen. The previous ribbed roof panel was replaced with a smoothly contoured version (with structural revisions to the C pillars and rear parcel shelf area to retain structural strength). The Vauxhall flutes on the front wings finally disappeared, replaced by a straight chrome side moulding which was also the division point for the two tone colour scheme. Further changes came in August 1960 with the introduction of a new engine of square dimensions with a redesigned, longer, cylinder block and a capacity of 2651cc. A further increase in compression ratio to 8.0:1 and larger valves in wedge shaped combustion chambers contributed to a power output of 95bhp at 4,600rpm. Increased diameter wheels allowed larger brakes to be fitted, but these were still of the drum type (Ford had introduced front disc brakes as an option on the rival Zephyr/Zodiac models in September 1960 and would make them standard in June 1961). Externally, there was a redesign of the rear lights, with shallower units replacing the elongated oval ones of the previous versions. The direction indicators, previously in the rear tail fins were now incorporated in the main lamp unit and the fins were now solid with a V for Vauxhall badge. The rear bumper was now a higher mounted straight topped design. The front sidelights and direction indicators, previously separate were now in a combined housing and there were redesigned wheel trims and hub caps. Inside, a redesigned fascia with a padded top and a horizontal speedometer was featured. In October 1961 the final updates to the PA series were made. Front disc brakes became an optional extra (four months after Ford had made them standard on the Zephyr/Zodiac). Separate front seats became an option to the standard bench and there was now wood trim to the fascia and door cappings. The PA Cresta continued in production in this form until replaced by the PB series in October 1962.

VOLKSWAGEN

Most stylish of the VWs here was, in my opinion, a splendidly presented Type 1 Karmann Ghia Coupe. This model debuted at the October 1953 Paris Auto Show as a styling concept created for Ghia by Luigi Segre. In the early 1950s, Volkswagen was producing its economy car, the Type 1 (Beetle), but with an increase in post-war standards of living, executives at Volkswagen proposed adding a halo car to its model range, contracting with German coachbuilder Karmann for its manufacture. Karmann in turn contracted the Italian firm Ghia, who adapted styling themes previously explored for Chrysler and Studebaker to a Beetle floorpan widened by 12 in. Virgil Exner claimed that the design was his, based on the 1953 Chrysler D’Elegance. In contrast to the Beetle’s machine-welded body with bolt-on wings, the Karmann Ghia’s body panels were butt-welded, hand-shaped, and smoothed with English pewter in a time-consuming process commensurate with higher-end manufacturers, resulting in the Karmann Ghia’s higher price. The design and prototype were well received by Volkswagen executives, and in August 1955 the first Type 14 was manufactured in Osnabrück, Germany. Public reaction to the Type 14 exceeded expectations, and more than 10,000 were sold in the first year. The Type 14 was marketed as a practical and stylish 2+2 rather than as a true sports car. As they shared engines, the Type 14’s engine displacement grew concurrently with the Type 1 (Beetle), ultimately arriving at a displacement of 1584 cc, producing 60 hp. In August 1957, Volkswagen introduced a convertible version of the Karmann Ghia. Exterior changes in 1961 included wider and finned front grilles, taller and more rounded rear taillights and headlights relocated to a higher position – with previous models and their lower headlight placement called lowlights. The Italian designer Sergio Sartorelli, designer of the larger Type 34 model, oversaw the various restylings of the Type 14. In 1970, larger taillights integrated the reversing lights and larger wrap-around indicators. Still larger and wider taillights increased side visibility. In 1972, large square-section bumpers replaced the smooth round originals. For the USA model only, 1973 modifications mandated by the National Highway Traffic Safety Administration (NHTSA) included energy-absorbing bumpers. A carpeted package shelf replaced the rear seat. In late 1974 the car was superceded by the Porsche 914 and the Golf based Scirocco.

A popular classic now, this was a nice example of the first generation Golf GTi. The model was first seen at the Frankfurt Motor Show in 1975. The idea behind it was rather straightforward – take a basic-transportation economy car and give it a high-performance package, making it practical and sporty. It was one of the first small cars to adopt mechanical fuel injection, which meant that the 1588cc engine put out 110 bhp, a big increase on what was available in the regular Golf models, which, in conjunction with a light weight of just 810 kg, gave it a top speed of aorund 100 mph and a 0 – 60 time of 9 seconds, impressive figures in their day. Volkswagen initially built the GTI only for the home market of West Germany, but launched it onto the British market in 1977 in left-hand drive form, with a right-hand drive version finally becoming available in 1979 as demand and competition increased. Many regard the Golf GTI Mk1 as the first “hot hatch” on the market, it was in fact preceded by the Autobianchi A112 Abarth in 1971, although it would prove to be far more popular than the earlier car in the UK market since the A112 Abarth was never available in RHD. It also competed with a number of quick small saloons including the Ford Escort RS2000. When the Escort switched to front-wheel drive and a hatchback for the third generation model in 1980, Ford launched a quick XR3 model which was comparable to the Golf GTI in design and performance. The Golf GTI was among the first “hot hatch” with mass market appeal, and many other manufacturers since have created special sports models of their regular volume-selling small hatchbacks. Within a few years of its launch, it faced competitors including the Fiat Ritmo, Ford Escort XR3/XR3i, Renault 5 GT Turbo and Vauxhall Astra/Opel Kadett GTE. A five speed gearbox became available in 1981 and in 1982, the engine was enlarged to 1780cc, which increased the available power a little. The car proved popular in the UK from the outset, with over 1500 being sold in 1979. Although the subsequent recession saw new car sales fall considerably during 1980 and 1981, sales of the Golf GTI reached nearly 5,000 in 1981. This also came in spite of the arrival of a popular new British-built competitor – the Ford Escort XR3. By 1983, the GTI accounted for more than 25% of total Golf sales (some 7,000 cars).

RAF BRIZE NORTON

When I said in the preamble to this report that the lane that leads to the venue ends because of the perimeter of RAF Brize Norton, I really did mean it. You can peak through the chain link fence, as I did and may get lucky in seeing one or more planes parked up. I also saw one come in to land and another one take off. This is indeed an active air field! I believe the plane seen here is an A400M Atlas, a military transport aircraft used for strategic and tactical airlift, as well as other roles. It’s a four-engine turboprop aircraft known for its versatility and ability to operate in diverse environments. It was designed by Airbus Military, now Airbus Defence and Space, as a tactical airlifter with strategic capabilities to replace older transport aircraft such as the Transall C-160 and the Lockheed C-130 Hercules. The RAF currently has 22 A400M aircraft, designated as Atlas C.1s, based primarily here at RAF Brize Norton.

“THE SWAN” in RADCOT

As cars started to depart, thoughts turned to food, and we decided to go to The Swan at Radcot, a picturesque pub on the banks of the river just a couple of miles away. The setting here really is rather lovely, and there is a massive garden area so it was possible to sit outside.

We did spot the Bedford O Series lorry driver had had the same idea, and there was also a Ferrari Roma parked up close by.

I thoroughly enjoyed my first visit to Wood Bro’s Distillery. There was some nice variety in the cars attending, and although there were some modern cars, mostly of the enthusiast type these did not dominate as can happen at some venues, so there was something for everyone here. The team running the car park were super friendly, as were the other attendees, and the sunshine was the proverbial icing the cake. That the countryside around the venue is so attractive is an added bonus, with view of the The Swan and the river proving particularly agreeable. For sure I plan to return here for the next event, which is likely to be in about a month hence.