The Porsche 959 is a sports car manufactured by German automobile manufacturer Porsche from 1986 to 1993, first as a Group B rally car and later as a road legal production car designed to satisfy FIA homologation regulations requiring at least 200 units be produced.
Porsche 959 Komfort
|Body and chassis|
|Class||Sports car (S)|
|Body style||2-door coupé|
|Engine||2.8 L (2,849 cc) twin-turbocharged flat-6|
|Power output||450 PS (331 kW; 444 hp)|
500 N⋅m (369 lbf⋅ft) of torque
|Wheelbase||2,272 mm (89.4 in)|
|Length||4,260 mm (167.7 in)|
|Width||1,840 mm (72.4 in)|
|Height||1,280 mm (50.4 in)|
|Curb weight||1,558–1,590 kg (3,435–3,505 lb)|
|Successor||Porsche Carrera GT|
The twin-turbocharged 959 was the world's fastest street-legal production car when introduced, achieving a top speed of 317 km/h (197 mph), with some variants even capable of achieving 339 km/h (211 mph). During its production run, the 959 was considered as the most technologically advanced road-going sports car ever built, and forerunner of all forthcoming sports cars. It was one of the first high-performance sports cars with all-wheel drive, providing the basis for Porsche's first all-wheel drive 911 Carrera 4 model. Its performance convinced Porsche executives to make all-wheel drive standard on all turbocharged versions of the 911 starting with the 993. The twin-turbo system utilised on the 959 also made its way to future turbocharged Porsche sports cars. In 2004, Sports Car International named the 959 number one on its list of Top Sports Cars of the 1980s.
Development history and overviewEdit
Development of the 959 (originally called the Gruppe B) started in 1981, shortly after the company's then-new Managing Director, Peter Schutz, took his office. Porsche's chief engineer at the time, Helmuth Bott, approached Schutz with some ideas about the Porsche 911, or more aptly, a new one. Bott knew that the company needed a sports car that they could continue to rely on for years to come and that could be developed as time went on. Curious as to how much they could do with the rear-engined 911, Bott convinced Schutz that development tests should take place, and even proposed researching a new all wheel drive system. Schutz agreed, and gave the project the green light. Bott also knew through experience that a racing program usually helped to accelerate the development of new models. Seeing Group B rally racing as the perfect arena to test the new development mule and its all wheel drive system, Bott again went to Schutz and got the approval to develop a car, based on his development mule, for competition in Group B.
The powerplant is a sequential twin-turbocharged DOHC flat-six engine equipped with 4 valves per cylinder, fuel fed by Bosch Motronic 2.1 fuel injection with air-cooled cylinders and water-cooled heads, with a bore x stroke of 95 mm × 67 mm (3.74 in × 2.64 in) for a total displacement of 2,849 cc (173.9 cu in). It was coupled to a unique manual transmission offering five forward speeds plus a "gelände" (terrain) off-road gear, as well as reverse. The engine was largely based on the 4-camshaft 24-valve powerplant used in the Porsche 956 and 962 race cars. These components allowed Porsche to extract 450 PS (331 kW; 444 hp) at 6,500 rpm and 500 N⋅m (369 lb⋅ft) of torque at 5,000 rpm from the compact and efficient power unit. The use of sequential twin turbochargers rather than the more usual identical turbochargers for each of the two cylinder banks allowed for smooth delivery of power across the engine speed band, in contrast to the abrupt on-off power characteristic that distinguished Porsche's other turbocharged engines of the period. The engine was used virtually unchanged in the 959 road car as well.
To create a rugged, lightweight shell, Porsche adopted an aluminium and Aramid (Kevlar) composite for the body panels and chassis construction along with a Nomex floor, instead of the steel floor normally used on their production cars.
Porsche also developed the car's aerodynamics, which were designed to increase stability, as was the automatic ride-height adjustment that became available on the road car (961 race cars had a fixed suspension system). Its drag coefficient was as low as 0.31 and aerodynamic lift was eliminated completely.
The 959 also featured Porsche-Steuer Kupplung (PSK) all-wheel-drive system. Capable of dynamically changing the torque distribution between the rear and front wheels in both normal and slip conditions, the PSK system gave the 959 the adaptability it needed both as a race car and as a "super" street car. Under hard acceleration, PSK could send as much as 80% of the available power to the rear wheels, helping make the most of the rear-traction bias that occurs at such times. It could also vary the power bias depending on road surface and grip changes, helping maintain traction at all times. The dashboard featured gauges displaying the amount of rear differential slip as well as transmitted power to the front axle. The magnesium alloy wheels were unique, being hollow inside to form a sealed chamber contiguous with the tyre and equipped with a built-in tyre pressure monitoring system.
The 959 was actually produced at Karosserie Baur, not at the Porsche factory in Zuffenhausen, on an assembly line with Porsche inspectors overseeing the finished bodies. Most of Porsche's special order interior leather work was also done by the workers at Baur.
The 1983 Frankfurt Motor Show was chosen for the unveiling of the Porsche Group B prototype. Even in the closing hours of October 9, finishing touches were being applied to the car to go on display the next morning. After the first two prototypes, the bodywork was modified to include air vents in the front and rear wheel housings, as well as intake holes behind the doors. The first prototype receiving those modifications was code named "F3", and was destroyed in the first crash test.
The road version of the 959 debuted at the 1985 Frankfurt Motor Show as a 1986 model, but numerous issues delayed production by more than a year. The car was manufactured in two levels of trim, "Sport" and "Komfort", corresponding to the trim with more creature comforts and a more track focused trim. First customer deliveries of the 959 street variant began in 1987, and the car debuted at a cost of DM431,550 (US$225,000) each, still less than half what it cost Porsche to build each car. Production ended in 1988 with 292 cars completed. In total, 337 cars were built, including 37 prototypes and pre-production models. At least one 959 and one 961 remain in the Porsche historic hall in Stuttgart, Germany.
In 1992/1993, Porsche built eight more cars assembled from spare parts from the inventory at the manufacturing site in Zuffenhausen. All eight were "Komfort" versions: four in red and four in silver. These cars were much more expensive (DM 747,500) than the earlier ones. The later cars also featured a newly developed speed-sensitive damper system. The cars were sold to selected collectors after being driven by works personnel for some time and are today by far the most sought-after 959 models.
The 959 was not street legal in the United States prior to 1999 when the "Show or Display" law was passed, although an unknown number were imported via the "grey market" during the late 1980s as show pieces. Porsche didn't provide the United States Department of Transportation with four cars required for crash testing, so the car was never certified by the National Highway Traffic Safety Administration for street use in the U.S. In 2001, with the passage of "Show and Display", the crash test requirements were removed and import of the 959 was allowed, assuming the car could meet the emissions standards applicable in 1987. The 959 could be fitted with a catalytic converter and a re-programmed computer which allowed it to meet those emissions requirements. As the 959 was a pre-1996 car, it was not required to pass any emissions testing; due to the fact that most cars are now over 25 years old and are therefore completely legal for US import, they are no longer required to comply with show and display laws.
Test results for the 959 "Sport" (450 PS):
- 0–97 km/h (60 mph): 3.6 seconds
- 0–161 km/h (100 mph): 8.2 seconds
- 0–100 km/h (62 mph): 3.7 seconds
- 0–120 km/h (74.6 mph): 5.1 seconds
- 0–140 km/h (87.0 mph): 6.3 seconds
- 0–160 km/h (99.4 mph): 7.9 seconds
- 0–180 km/h (111.8 mph): 9.6 seconds
- 0–200 km/h (124.3 mph): 11.4 seconds
- 0–400 m (1⁄4 mile): 11.8 seconds at 202 km/h (126 mph)
- Standing kilometre: 21.6 seconds at 245 km/h (152.2 mph)
- Top Speed: 319 km/h (198 mph)
Test results for the 959 "Komfort" version (450 PS):
- 0–48 km/h (30 mph): 1.5 seconds
- 0–64 km/h (40 mph): 2.2 seconds
- 0–80 km/h (50 mph): 2.9 seconds
- 0–97 km/h (60 mph): 3.6 seconds
- 0–113 km/h (70 mph): 4.8 seconds
- 0–129 km/h (80 mph): 5.8 seconds
- 0–145 km/h (90 mph): 7.1 seconds
- 0–161 km/h (100 mph): 8.8 seconds
- 0–177 km/h (110 mph): 10.4 seconds
- 0–193 km/h (120 mph): 12.4 seconds
- 0–209 km/h (130 mph): 15.9 seconds
- 0–225 km/h (140 mph): 19.2 seconds
- 0–241 km/h (150 mph): 22.5 seconds
- 48 km/h (30 mph)-80 km/h (50 mph): 11.9 seconds, using 6th gear (~1,786 rpm)
- 80 km/h (50 mph)-113 km/h (70 mph): 8.8 seconds, using 6th gear
- Standing 1⁄4 mile (402 m): 12.0 seconds at 187 km/h (116 mph)
- Braking 113–0 km/h (70–0 mph): 166 ft (50 m)
- Top speed: 317 km/h (197 mph)
If desired, even more power was available to customer cars by Porsche. According to Paul Frère there was an optional 530 PS (390 kW; 523 hp) factory upgrade, with an increased top speed of 336 km/h (209 mph) along with the 0–100 km/h (62 mph) acceleration time reduced to 3.4 seconds.
The Porsche 959 S was a 959 "Sport" with larger turbochargers that increased power output to 515 PS (379 kW; 508 hp) thus resulting in a top speed of 339 km/h (211 mph) as tested by Auto, Motor und Sport at the Nardò Ring in 1988. 29 cars were built.
The 959 was originally meant for Group B racing but development time took longer than expected. The first development race cars, essentially modified 911 Carrera models with all-wheel-drive system known internally as the 953, were entered in the Paris-Dakar Rally, finishing 1st (René Metge), 6th (Jacky Ickx) and 25th. Porsche didn't had the budget or enough time to develop cars to enter the World Rally Championship at the time. Further, the Dakar rally had less strict homologation rules than the former so this move was made. These cars tested the all-wheel-drive system to be used in the 959. In 1985, two cars were entered in the Dakar rally with the proposed 959 body and the rest of the systems but they still used the engine of the 953 rally cars. These cars didn't finish due to reliability problems. Porsche fitted the cars with twin-turbochargers mid-way of the 1985 season but reliability issues plagued the car and one of the are caught fire. However, in 1986 season, the 959 finished 1-2 and 6th.
By the time the 959 was ready for production and homologation in 1987, the Group B programme was cancelled altogether a year prior thus ending Porsche's participation in Group B. The 959 was modified for LeMans class racing (now called the 961) and participated in the 1986 and 1987 seasons. It also participated once in IMSA class racing.
LeMans and IMSAEdit
In 1986, the racing variant of the 959, the Porsche 961, made its debut at the 24 Hours of Le Mans. Driven by René Metge partnering Claude Ballot-Léna, it finished first in its class and 7th overall. It returned in 1987 but while in 11th place Canadian/Dutch driver Kees Nierop mis-shifted from 6th into 2nd gear and crashed into the guard-rail. Upon re-joining the track, the car was observed on TV monitors in the Porsche pits to be on fire and the driver was told to stop and get out of the car. Sadly Nierop pulled over between marshal stations and this extra time taken to get to the car by the marshals allowed the fire to consume most of the rear end and destroy the car. It was later repaired and put on display at the Porsche Museum.
Canepa Design modificationsEdit
In 2003, Canepa Design initiated a 959 upgrade program. By making modifications to the 959's turbochargers, exhaust system and computer-control systems, Canepa enabled the 959 to pass emissions requirements (thereby making it street-legal in the United States). The new configuration allowed parallel turbo charging and simplified diagnostics. Canepa also modified the 959's lightweight magnesium wheels in order to fit it with tyres without the unique Dunlop Denloc bead. Modern Michelin high-performance tyres capable of handling the increased performance could then be mounted. The original RE71 tires were available in the U.S. and have always been more than capable of handling the power output of the 959.
In April 2018, Canepa announced the Generation III package for the 959. The package includes the replacement of the standard sequential twin-turbo system with a pair of Borg Warner parallel twin-turbochargers, new wiring harness and a new engine control unit along with a new exhaust system and a new clutch to handle the extra power produced by the car. The package enables the engine to produce 569 kW (774 PS; 763 hp) and 861 N⋅m (635 lb⋅ft) of torque. The package also includes the replacement of the standard suspension system with an evolution of the 959 S' suspension system fitted with modern dampers and titanium springs for improved handling and ride-height along with new tyres. The headlamps are replaced with new Xenon headlamps, providing better illumination than the original units.
In addition to the package, Canepa also introduced a limited production of the 959 SC (Sport Canepa) limited to 50 cars. The 959 SC comes standard with the Generation III Canepa upgrade along with a body overhaul and a new paint-to-sample paint job according to the customer's desire that takes 500 hours to complete. The car also features a reworked leather interior which is complimented with a steering wheel having hand-stitched leather and a more modern sound system with the interior alone taking 300 hours to complete. The process starts with a standard 959 and its teardown to the chassis with every rusty part replaced and every component coated with zinc. The package costs in excess of US$2 million including the cost of the car itself.
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