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Morris Mini-Minor 1959 (621 AOK).jpg

The Mini is a small economy car produced by the English-based British Motor Corporation (BMC) and its successors from 1959 until 2000. The original is considered an icon of 1960s British popular culture. Its space-saving transverse engine, front-wheel drive layout – allowing 80% of the area of the car's floorpan to be used for passengers and luggage – influenced a generation of car makers. In 1999, the Mini was voted the second-most influential car of the 20th century, behind the Ford Model T, and ahead of the Citroën DS and Volkswagen Beetle.

This distinctive two-door car was designed for BMC by Sir Alec Issigonis. It was manufactured at the Longbridge and Cowley plants in England, the Victoria Park/Zetland British Motor Corporation (Australia) factory in Sydney, Australia, and later also in Spain (Authi), Belgium, Chile, Italy (Innocenti), Malta, Portugal, South Africa, Uruguay, Venezuela, and Yugoslavia. The Mini Mark I had three major UK updates – the Mark II, the Clubman, and the Mark III. Within these was a series of variations, including an estate car, a pick-up truck, a van, and the Mini Moke, a jeep-like buggy.

The performance versions, the Mini Cooper and Cooper "S", were successful as both race and rally cars, winning the Monte Carlo Rally in 1964, 1965, and 1967. In 1966, the first-placed Mini (along with nine other cars) was disqualified after the finish, under a controversial decision that the car's headlights were against the rules.


On its introduction in August 1959, the Mini was marketed under the Austin and Morris names, as the Austin Seven and Morris Mini-Minor. The Austin Seven was renamed Austin Mini in January 1962 and Mini became a marque in its own right in 1969. In 1980, it once again became the Austin Mini, and in 1988, just "Mini" (although the "Rover" badge was applied on some models exported to Japan).

BMW acquired the Rover Group (formerly British Leyland) in 1994, and sold the greater part of it in 2000, but retained the rights to build cars using the MINI name.

The Mini came about because of a fuel shortage caused by the 1956 Suez Crisis. Petrol was once again rationed in the UK, sales of large cars slumped, and the market for German bubble cars boomed, even in countries such as Britain, where imported cars were still a rarity. The Fiat 500, launched in 1957, was also hugely successful, especially in its native Italy.

Leonard Lord, the somewhat autocratic head of BMC, reportedly detested these cars so much that he vowed to rid the streets of them and design a 'proper miniature car'. He laid down some basic design requirements - the car should be contained within a box that measured 10×4×4 feet (3.0×1.2×1.2 m); and the passenger accommodation should occupy 6 feet (1.8 m) of the 10-foot (3.0 m) length; and the engine, for reasons of cost, should be an existing unit.

Alec Issigonis, who had been working for Alvis, had been recruited back to BMC in 1955 with a brief from Lord to design a range of technically advanced family cars in the same innovative spirit as his earlier Morris Minor to complement BMC's existing conventional models. Issigonis had set out design projects for three cars – large and small family cars and a very small economy car. His initial work was on the largest car, designated XC9001, with the smallest car, XC9003, having the lowest priority despite it being Issigonis' greatest personal interest. With Lord's dictum to produce a bubble car competitor and his revised design requirements being laid down in October 1956, work on XC9001 stopped and XC9003 became the priority. The team that designed the Mini was remarkably small; in addition to Issigonis, Jack Daniels (who had worked with him on the Morris Minor), Chris Kingham (who had been with him at Alvis), two engineering students, and four draughtsmen worked on the project. Together, by July 1957, they had designed and built the original XC9003 prototype, which was affectionately named the "Orange Box" because of its colour. Leonard Lord approved the car for production on 19 July and XC9003 became project ADO15.

The ADO15 used a conventional BMC A-Series four-cylinder, water-cooled engine, but departed from tradition by mounting it transversely, with the engine oil-lubricated, four-speed transmission in the sump, and by employing front-wheel drive. Almost all small front-wheel drive cars developed since have used a similar configuration, except with the transmission usually separately enclosed rather than using the engine oil. The radiator was mounted at the left side of the car so that the engine-mounted fan could be retained, but with reversed pitch so that it blew air into the natural low pressure area under the front wing. This location saved vehicle length, but had the disadvantage of feeding the radiator with air that had been heated by passing over the engine. It also exposed the entire ignition system to the direct ingress of rainwater through the grille. Early prototypes used the existing 948-cc A-Series unit, but this provided the ADO15 with performance far greater than its price and purpose required – a top speed over 90 mph. The engine was reduced to a new 848-cc capacity with a shorter stroke. This reduced power from 37 to 33 bhp and caused a significant drop in torque, so provided more realistic performance, especially when the ADO15 body was widened by 2 inches (5.08 cm) over the XC9003 prototype, which blunted the car's top speed while improving its stability and roadholding. Even so, the ADO15 had a top speed of 75 mph, which was better than many other economy cars of the time.

The suspension system, designed by Issigonis's friend Dr. Alex Moulton at Moulton Developments Limited, used compact rubber cones instead of conventional springs. This space-saving design also featured rising progressive-rate springing of the cones, and provided some natural damping, in addition to the normal dampers. Built into the subframes, the rubber cone system gave a raw and bumpy ride accentuated by the woven-webbing seats, but the rigidity of the rubber cones, together with the wheels' positioning at the corners of the car, gave the Mini go kart-like handling.

Initially, an interconnected fluid system was planned, similar to the one that Alec Issigonis and Alex Moulton were working on in the mid-1950s at Alvis. They had assessed the mechanically interconnected Citroën 2CV suspension at that time (according to an interview by Moulton with Car Magazine in the late 1990s), which inspired the design of the hydrolastic suspension system for the Mini and Morris/Austin 1100, to try to keep the benefits of the 2CV system (ride comfort, body levelling, keeping the roadwheel under good control and the tyres in contact with the road), but with added roll stiffness that the 2CV lacked. The short development time of the car meant this was not ready in time for the Mini's launch. The system intended for the Mini was further developed and the hydrolastic system was first used on the Morris 1100, launched in 1962; the Mini gained the system later in 1964. As launched, the Mini had simpler suspension made from conical springs of solid rubber. These were compact, saving on intrusion into the cabin space, and required no maintenance. The fully independent suspension the rubber cones provided was almost unheard of in low-cost cars of the time. The conical shape gave the springs a progressive action, becoming stiffer at greater degrees of compression. This gave the ADO15 a smooth ride over small bumps, but minimised roll and pitch on more uneven surfaces. It also allowed the springs to cope with the huge variance in load between an unladen car (about 600 kg or 1300 lb) and a fully laden one (just over 1000 kg or 2240 lb, or a 70% increase).

1959 Morris Mini-Minor Heritage Motor Centre, Gaydon.jpg

Ten-inch (254 mm) wheels were specified, so new tyres had to be developed, the initial contract going to Dunlop. Issigonis went to Dunlop stating that he wanted even smaller, 8 in (203 mm) wheels (even though he had already settled on 10-inch). An agreement was made on the 10-inch size, after Dunlop rejected the eight-inch proposition.

Many features were designed into the ADO15's interior to maximise its passenger and luggage space on top of the major savings allowed by the transverse engine and 10-inch wheels. Sliding windows allowed single-skin doors to be fitted, improving elbow room and reducing costs. A bracing bar was fitted across the door frame to brace the single skin and this was later adapted into a large storage bin on each door. Issigonis later said that he had sized the bins to carry the ingredients of his favourite drink, a dry martini in the correct proportions (one bottle of vermouth and 27 of Gordon's Gin). Similar bins were provided outboard of the rear seats, also serving a dual function of bracing the single-skin body panel. Small items could also be stowed under the rear seats, and early Minis were sold with optional wicker baskets specially shaped to slot under the seats. The fixed rear parcel shelf contributed to the rigidity of the body shell, although it did preclude fitting the ADO15 with a hatchback. The boot lid was hinged at the bottom so that the car could be driven with it open to increase luggage space. On early cars, the number plate was hinged at the top so that it could swing down to remain visible when the boot lid was open. This feature was later discontinued after it was discovered that exhaust gases could leak into the cockpit when the boot was open.

The Mini was designed as a monocoque shell with welded seams visible on the outside of the car running down the A and C pillars, and between the body and the floor pan. Those that ran from the base of the A-pillar to the wheel well were described as 'everted' (lit., 'turned outward') to provide more room for the front seat occupants. To further simplify construction, the hinges for the doors and boot lid were mounted externally. This also saved a small amount of cabin space. It also made the ADO15 very easy to assemble from complete knock-down kits in overseas markets with only basic industry. Cars could be assembled with minimal use of jigs as the external seams made the panels largely 'self-aligning'. They also allowed panels to be stacked flat on top of one other for easy shipping. As originally built, all the structural body panels were welded to the top of the single floor pressing, but this caused major problems with water ingress to the cabin and was quickly changed in the first months of production.

Early prototypes were fully unitary in construction, but the cars broke apart under the high loads from the large lever ratios used with the rubber cone suspension. The design was changed to use steel subframes to carry the drivetrain and suspension for the front and rear. This also simplified production, as both subframes could be built up independently and then mated to the already-completed bodyshell. It also opened up the possibility of easily producing variants on the ADO15 as a body of any shape or design could be used provided it could accommodate the subframes.

In 1959, BMC and Alec Issigonis won the Dewar Trophy, for the design and production of the Mini.

The Mini shape had become so well known that by the 1990s, Rover Group – the heirs to BMC – were able to register its design as a trademark in its own right.

The production version of the Mini was demonstrated to the press in April 1959, and by August, several thousand cars had been produced ready for the first sales. The Mini was officially announced to the public on 26 August 1959. Some 2,000 cars had already been sent abroad and were displayed that day in almost 100 countries.

The first example, a Morris Mini-Minor with the registration 621 AOK, is on display at the Heritage Motor Centre in Warwickshire. Another early example from 1959 is on display at the National Motor Museum in Hampshire.

Morris Cooper, 1969.jpg

1970 Mini by Keld Gydum.jpg

Mini


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