Saturday, July 23, 2011
Saturday, July 9, 2011
1988 Mercury Cougar For Sale 1500 or best offer
Here Is the link of my car for sale. Im also looking for a trade so let me know.
My email is jerry.cardona@yahoo.com
http://allentown.craigslist.org/cto/2485500969.html
My email is jerry.cardona@yahoo.com
http://allentown.craigslist.org/cto/2485500969.html
Thursday, July 7, 2011
Toyota Supra Love this cars
Mark IV (1993–2002)
The Mark IV Supra's twin turbos operated in sequential mode as opposed to parallel mode. Initially all of the exhaust is routed to the first turbine for reduced lag. This resulted in boost and enhanced torque as early as 1800 rpm, where it already had 300 lb·ft (410 N·m) of torque. Approaching 3500 rpm, some of the exhaust is routed to the second turbine for a "pre-boost" mode, although none of the compressor output is used by the engine at this point. Approaching 4000 rpm, the second turbo's output is used to augment the first turbo's output. As opposed to the parallel mode, the sequential turbos provides quicker low RPM response and increased high RPM boost. (The Mazda RX-7 Twin Turbo also uses a sequential turbo setup, while the Nissan Skyline GT-R, 300ZX Twin Turbo and the Mitsubishi VR4 used a parallel setup.) This high RPM boost was also aided with technology originally present in the 7M-GE's in the form of the Acoustic Control Induction System (ACIS) which is a way of managing the air compression pulses within the intake piping as to increase power.
For this generation, the Supra received a new 6-speed Getrag/Toyota V160 gearbox on the turbo models while the naturally aspirated models made do with a 5-speed manual W58, revised from the previous version. Each model was offered with a 4-speed automatic with manual shifting mode. Turbo models were equipped with larger brakes and tires than naturally aspirated models. All vehicles were equipped with 5-spoke aluminium alloy wheels and a space saver spare tire on a steel wheel to save weight and space. Additionally, there are other differences such as the differential, headlight assemblies, throttle body, oil cooler.
Toyota took measures to reduce the weight of the current model compared to the previous model. Aluminium was used for the hood, targa top (if so equipped), front crossmember, oil and transmission pans, and the suspension upper A-arms. Other measures included hollow carpet fibers, magnesium-alloy steering wheel, plastic gas tank and lid, gas injected rear spoiler, and a single pipe exhaust. Despite having more features such as dual airbags, traction control, larger brakes, wheels, tires, and an additional turbo, the car was at least 200 lb (91 kg) lighter than its predecessor. The base model with a manual transmission had a curb weight of 3,210 lb (1,460 kg). The Sport Roof added 40 lb (18 kg) while the automatic transmission added 55 lb (25 kg). It had a 51:49 (front:rear) weight distribution. The turbo model came in as 3,417 lb (1,550 kg) with the manual and the automatic added another 10 lb (4.5 kg). Weight distribution was 53% front/47% rear. Among other two-seat Japanese sports cars of the era, the Supra was heavier than the spartan Mazda RX-7 and aluminium-bodied Acura NSX but weighs less than the Nissan 300ZX Turbo and the Mitsubishi 3000GT VR4.
For the 1996 model year in the U.S., the turbo model was only available with the automatic transmission due to OBD-II certification requirements. The targa roof was also made standard on all turbo models. For 1997, the manual transmission returned for the optional engine along with a redesign of the tail lights, headlights, front fascia, chromed wheels, and other minor changes such as the radio and steering wheel designs. All 1997 models included badges that said "Limited Edition 15th Anniversary". All turbo models came standard with the rear spoiler. Only minor updating was done for 1998. Along with a 3-spoke steering wheel, the radio was redesigned once again. The naturally aspirated engine was enhanced with VVT-i which raised the output by 5 hp (4 kW; 5 PS) and 10 ft·lbf (14 N·m) of torque. In Japan, the turbo engines were installed with VVT-i. The SZ-R model was also updated with the introduction of a six-speed Getrag V161 transmission, the same used for the twin-turbo RZ models.
The stock Mark IV Supra chassis has also proven an effective platform for roadracing, with several top 20 and top 10 One Lap Of America finishes in the SSGT1 class. Despite its curb weight, in 1994 the Mark IV managed a remarkable skidpad rating of 0.95 lateral g's (200 ft) or 0.98 lateral g's. (300 ft) The Mark IV Supra also featured a four-sensor four-channel track tuned ABS system with yaw control whereby each caliper is sensored and the brakes are controlled individually according to the speed, angle, and pitch of the approaching corner. This unique Formula One-inspired braking system allowed the Supra Turbo to record a 70 mph (113 km/h) -0 braking distance of 149 ft (45 m), the best braking performance of any production car tested in 1997 by Car and Driver magazine. This record was finally broken in 2004 by a Porsche Carrera GT, which does it in 101 ft (31 m) .
Sales to Canada ceased in 1996, and to the US in 1998. The Turbo was not available in 1998 in CARB states. Production continued in Japan until August 2002, ceasing due to restrictive emission standards.
 | |
| Also called | Toyota Supra Mark IV |
|---|---|
| Production | Dec 1992–Aug 2002 |
| Assembly | |
| Platform | A80 |
| Engine | 2,997 cc (2.997 L; 182.9 cu in) Toyota 2JZ-GE I6 2,997 cc (2.997 L; 182.9 cu in) Toyota 2JZ-GTE I6 |
| Transmission | 5-speed W58 manual 6-speed V16x manual 4-Speed A340E automatic |
| Wheelbase | 2,550 mm (100.4 in) |
| Length | 4,515 mm (177.8 in) (1993–1998) 4,514 mm (177.7 in) (1999–2002) |
| Width | 1,811 mm (71.3 in) |
| Height | 1,265 mm (49.8 in) (1993–1998) 1,275 mm (50.2 in) (1999–2002) |
| Curb weight | 1,460 kg (3,219 lb) (non-turbo) 1,550 kg (3,417 lb) {turbo} |
| Related | Toyota Soarer (Z30) Lexus SC (First Generation) Ohno Naomi III |
With the new model of Supra, Toyota took a big leap in the direction of a more serious high performance car. Again using subframe, suspension and drivetrain assemblies from the Z30 Soarer (Lexus SC300/400), test model pre-production started in December 1992 with 20 models, and official mass production began in April 1993. The new Supra was completely redesigned, with rounded body styling and featured two new engines: a naturally aspirated Toyota 2JZ-GE producing 220 hp (164 kW; 223 PS) at 5800 rpm and 210 ft·lb (280 N·m) at 4800 rpm of torque and a twin turbocharged Toyota 2JZ-GTE making 276 hp (206 kW; 280 PS) and 318 ft·lb (431 N·m) of torque for the Japanese version. For the export model (America/Europe) Toyota upgraded the Supra turbo's engine (smaller, steel wheeled turbochargers, bigger fuel injectors, etc.). This increased the power output to 320 hp (239 kW; 324 PS) at 5600 rpm and 315 ft·lb (427 N·m) at 4000 rpm. The turbocharged variant could achieve 0–60 mph in as low as 4.9 seconds (0–62: 5.2 sec.) and 1/4 mile (402 m) in 13.3 seconds at 109 mph (175 km/h). The turbo version was tested to reach over 285 km/h (177 mph) all-stock, but the cars are restricted to just 180 km/h (112 mph) in Japan and 250 km/h (155 mph) elsewhere. European versions also had an air intake on the bonnet. Drag coefficient is .31 for the naturally aspirated models and .32 for the turbo models and N/A's with the rear spoiler.
The Mark IV Supra's twin turbos operated in sequential mode as opposed to parallel mode. Initially all of the exhaust is routed to the first turbine for reduced lag. This resulted in boost and enhanced torque as early as 1800 rpm, where it already had 300 lb·ft (410 N·m) of torque. Approaching 3500 rpm, some of the exhaust is routed to the second turbine for a "pre-boost" mode, although none of the compressor output is used by the engine at this point. Approaching 4000 rpm, the second turbo's output is used to augment the first turbo's output. As opposed to the parallel mode, the sequential turbos provides quicker low RPM response and increased high RPM boost. (The Mazda RX-7 Twin Turbo also uses a sequential turbo setup, while the Nissan Skyline GT-R, 300ZX Twin Turbo and the Mitsubishi VR4 used a parallel setup.) This high RPM boost was also aided with technology originally present in the 7M-GE's in the form of the Acoustic Control Induction System (ACIS) which is a way of managing the air compression pulses within the intake piping as to increase power.
For this generation, the Supra received a new 6-speed Getrag/Toyota V160 gearbox on the turbo models while the naturally aspirated models made do with a 5-speed manual W58, revised from the previous version. Each model was offered with a 4-speed automatic with manual shifting mode. Turbo models were equipped with larger brakes and tires than naturally aspirated models. All vehicles were equipped with 5-spoke aluminium alloy wheels and a space saver spare tire on a steel wheel to save weight and space. Additionally, there are other differences such as the differential, headlight assemblies, throttle body, oil cooler.
Toyota took measures to reduce the weight of the current model compared to the previous model. Aluminium was used for the hood, targa top (if so equipped), front crossmember, oil and transmission pans, and the suspension upper A-arms. Other measures included hollow carpet fibers, magnesium-alloy steering wheel, plastic gas tank and lid, gas injected rear spoiler, and a single pipe exhaust. Despite having more features such as dual airbags, traction control, larger brakes, wheels, tires, and an additional turbo, the car was at least 200 lb (91 kg) lighter than its predecessor. The base model with a manual transmission had a curb weight of 3,210 lb (1,460 kg). The Sport Roof added 40 lb (18 kg) while the automatic transmission added 55 lb (25 kg). It had a 51:49 (front:rear) weight distribution. The turbo model came in as 3,417 lb (1,550 kg) with the manual and the automatic added another 10 lb (4.5 kg). Weight distribution was 53% front/47% rear. Among other two-seat Japanese sports cars of the era, the Supra was heavier than the spartan Mazda RX-7 and aluminium-bodied Acura NSX but weighs less than the Nissan 300ZX Turbo and the Mitsubishi 3000GT VR4.
For the 1996 model year in the U.S., the turbo model was only available with the automatic transmission due to OBD-II certification requirements. The targa roof was also made standard on all turbo models. For 1997, the manual transmission returned for the optional engine along with a redesign of the tail lights, headlights, front fascia, chromed wheels, and other minor changes such as the radio and steering wheel designs. All 1997 models included badges that said "Limited Edition 15th Anniversary". All turbo models came standard with the rear spoiler. Only minor updating was done for 1998. Along with a 3-spoke steering wheel, the radio was redesigned once again. The naturally aspirated engine was enhanced with VVT-i which raised the output by 5 hp (4 kW; 5 PS) and 10 ft·lbf (14 N·m) of torque. In Japan, the turbo engines were installed with VVT-i. The SZ-R model was also updated with the introduction of a six-speed Getrag V161 transmission, the same used for the twin-turbo RZ models.
The stock Mark IV Supra chassis has also proven an effective platform for roadracing, with several top 20 and top 10 One Lap Of America finishes in the SSGT1 class. Despite its curb weight, in 1994 the Mark IV managed a remarkable skidpad rating of 0.95 lateral g's (200 ft) or 0.98 lateral g's. (300 ft) The Mark IV Supra also featured a four-sensor four-channel track tuned ABS system with yaw control whereby each caliper is sensored and the brakes are controlled individually according to the speed, angle, and pitch of the approaching corner. This unique Formula One-inspired braking system allowed the Supra Turbo to record a 70 mph (113 km/h) -0 braking distance of 149 ft (45 m), the best braking performance of any production car tested in 1997 by Car and Driver magazine. This record was finally broken in 2004 by a Porsche Carrera GT, which does it in 101 ft (31 m) .
Sales to Canada ceased in 1996, and to the US in 1998. The Turbo was not available in 1998 in CARB states. Production continued in Japan until August 2002, ceasing due to restrictive emission standards.
Monday, July 4, 2011
Sunday, June 26, 2011
Dreams..Are we dreaming?
One Day i was watching a wonderful movie that I truly love inception. Sometimes I wonder that maybe Im dreaming this world. Ever think that we do twice in this world(deja Vu). Maybe we wake up two or three times in one night? Is there ghost or crazy monsters wondering around us? My idea I do not know.
My feeling is that we are stuck in a dream. You can call whatever you want, but somethings in this world disappear and reappear, Cazy. Every think that somethings go backward or something come up the ground.
This world in like a maze... We are lost
My feeling is that we are stuck in a dream. You can call whatever you want, but somethings in this world disappear and reappear, Cazy. Every think that somethings go backward or something come up the ground.
This world in like a maze... We are lost
Sunday, June 12, 2011
Nissan Skyline
1st generation (1969-1972)
The first Skyline GT-R, known by the internal Nissan designation PGC10, was released on February 4, 1969. It was available originally as a four-door sedan after a public debut at the 15th annual Tokyo Motor Show. It was advertised alongside the Nissan R380A racecar to showcase its racing heraldry. It was equipped with the 2.0 L DOHC S20 I6 producing 160 hp (120 kW) at 7000 rpm and 118 N·m (87 ft·lbf) of torque. Power was delivered to the rear wheels by a 5-speed manual transmission. The first Skyline GT-R rode on a semi-trailing arm strut suspension. It was available as a coupe in March 1971 with the chassis code KPGC10.
A popular name for the PGC and KPGC10 Skyline GT-R was "Hakosuka," which is a combination of the Japanese word for box and the pronounced abbreviation of skyline.
2nd generation (1972-1977)
The KPGC10's successor, the KPGC110, was released in 1973 after its introduction at the 1972 Tokyo motor show. Powered by a 1989 cc I6 S20 engine, the second generation GT-R delivered power to the rear wheels through a 5-speed manual gearbox. The suspension was a semi-trailing ring arm setup and minor aerodynamic parts were added.
This edition of the GT-R was also known as the "Ken & Mary" Skyline, due to a popular advertisement featuring a young couple (Ken and Mary) enjoying the Hokkaido countryside. The advertisement later spawned a hit song by Buzz, and the tree featured in the advertisement later became a minor star itself.
Unfortunately, the second generation GT-R was unsuccessful, for a gas crisis hit in the early 1970s, drying out any demand for high-performance sports cars. A total of 197 cars were built by the end of its short production run. For the next decade, this would be the last GT-R until the production of the R32 in 1989.
3rd generation (1989–1994)
Nissan Kohki (Nissan's power train engineering and manufacturing facility) originally tested a twin turbocharged 2350cc bored and stroked version of the RB20 engine. This set up produced 233 kW (313 hp) and used a RWD drivetrain. Under Group A regulations, a turbocharged engine must multiply its engine displacement by 1.7, putting the new Skyline in the 4000 cc class, and requiring the use of 10-inch-wide tires. Knowing that they would be required to use 10-inch-wide tires, Nissan made the decision to make the car all wheel drive. Nissan developed a special motorsport-oriented AWD system for this purpose called the ATTESA E-TS. Although this assisted with traction, it made the car 100 kg (220 lb) heavier; the added weight put the GT-R at a disadvantage to other cars in the 4000 cc class. Nissan then made the decision to increase the displacement to 2600 cc, and put the car in the 4500 cc class, with the car's weight near-equal to competing cars. The 4500 cc class also allowed for 11-inch-wide tires. New engine block and heads were then developed to better match the increased displacement. The result was a 600 horsepower.[9] Later REINIK (Racing & Rally Engineering Division Incorporated Nissan Kohi) produced Group A racing engines between 373–485 kW (500–650 hp) depending on track conditions.
Veilside R32 Evolution III GTR - ARKHAMThe Skyline GT-R 'Nismo', introduced on February 22, 1990, has a total production of 560 units as required for the "Evolution" models regulation (over 500). Its purpose is to homologate a number of aerodynamic changes used in Group A racing. Changes include additional ducts in the front bumper to improve airflow to the intercooler, a bonnet lip spoiler to direct more air into the engine bay, and an additional boot lip spoiler to provide more downforce. The 'Nismo' GT-R was only available in Gunmetal Grey.
A rear view of an R32, showing the traditional four round taillights.The Skyline GT-R 'N1' model, introduced on July 19, 1991, was designed for home-market N1 racing with a total of 228 units produced. The most notable change was in the engine, which was upgraded to the R32-N1 specification. The car was also lightened by the removal of the ABS, air conditioning, sound system, rear wiper, trunk carpet, and the use of light-weight headlights. No color options were available and all 'N1' cars were delivered with a thin layer of Crystal White paint. The result was a 30 kg weight savings for a curb weight of 1,400 kg.
To celebrate the success of the GT-R in both Group N and Group A racing, Nissan introduced the Skyline GT-R V-Spec ("Victory SPECification") car on February 3, 1993. The V-Spec added Brembo brakes and a retuned ATTESA E-TS system to the Nismo and N1 packages, as well as 17" BBS wheels with 225/45/17 tires. The V-Spec has a list price of.
Finally on February 14, 1994 the Skyline GT-R V-Spec II was released, with the only change being wider 245/45/17 tires. In addition, both the V-Spec and V-Spec II had a curb weight of 1,480 kg (3,256 lbs), weighing 50 kg (110 lbs) more than the standard GT-R.[Total production of the V-Spec I and II was 1,453 and 1,303 units respectively.
Total production of the R32 Skyline GT-R was 43,394 units, with production starting on May 22, 1989. An above average proportion of the GT-R's were sold in white: this is likely because white is the national racing color of Japan in international motorsport.
The E-BCNR33 (R33) was developed in 1995 as a successor to the venerable R32 model. The engine in the R33 was nearly identical to the R32. It used the same turbochargers and the same specification for the manual gearbox, although the syncros were made to be stronger. The engine corrected the R32's weak oil pump drive collar, which tended to fail in higher power applications, with a wider collar. The base model R33 GT-R weighs 1,540 kg (3,400 lb).
The R33 GT-R launched in January 1995 with the base model GT-R and the V-spec model. The V-spec model weighed in 10 kg (22 lb) heavier, and had sportier suspension resulting in lower ground clearance. The V-spec also featured the newer ATTESA E-TS Pro all wheel drive system, which included an Active Limited Slip differential. The V-spec model also included a four wheel independent channel anti-lock braking system.
Rear view of an R33 GT-R.At the same time as the release of the R33 GT-R and GT-R V-spec, Nissan released the R33 GT-R V-spec N1 model. Changes made in the R33 N1 are similar to those in the R32 N1. The car was made lighter by removing the ABS, air conditioning, sound system, rear wiper and trunk carpet. The R33 GT-R V-spec N1 received the slightly revised R33 N1 engine.
The GT-BNR34 (R34) Skyline GT-R and GT-R V-spec models were released in January 1999. The R34 GT-R was also made to be shorter (from front to rear), and the front overhang was reduced. The valve covers were also painted glossy red, rather than dull black.
A new feature on the R34 GT-R is a 5.8" LCD multifunction display on the center of the dashboard, which shows seven different live readings of engine and vehicle statistics such as turbocharger pressure (1.2 bar max), oil and water temperature, among others. The GT-R V-spec model added two extra features to the display: intake and exhaust gas temperatures. Nismo Multi-function Displays (MFD) can be bought at an extra cost, they include a lap timer, G-Force meter and an increase in boost pressure measurement to 2 bar. The R34 GT-R was made shorter in response to customer concerns who thought the R33 was too bulky.
Like the R33, the new R34 GT-R V-Spec (Victory Specification) models come equipped with the ATTESA E-TS Pro system and an Active LSD at the rear, while standard GT-R models come with the non-Pro system and a conventional mechanical differential. The V-spec model also had firmer suspension and lower ground clearance, thanks to front and side splitters, as well as a rear carbon fiber air diffuser, designed to keep air flowing smoothly under the car.
Another special model of the R34 GT-R is the M-spec. It was similar to the V-spec, but had special "Ripple control" dampers, revised suspension set up, stiffer rear sway bar and a leather interior with heated front seats. The 'M' on the M-Spec stood for Mizuno who is the chief engineer of Nissan.
At the time of the R34's release, like the R32 and R33, Nissan released an R34 N1 model. The R34 GT-R N1 was equipped similar to the R32 and R33 N1 models — a homologation special. It was sold without ABS, air conditioning, audio equipment, rear wiper, or trunk lining. The new R34 N1 was also given the new R34 N1 engine. Only 45 R34 N1 models were produced from the factory, 12 of which were used by Nismo for Super Taikyu racing. The rest were sold to various customers, mostly racing teams and tuning garages.
The V-Spec versions was also imported into the UK, a number of modifications was carried out to the car, these were 3 additional oil coolers, revised ECU map, full Connelly leather interior, underbody diffusers, stiffer suspension, active rear limited slip differential, extra display feature on the in car display.[15]
Rear view of an R34 GT-R Nür.In August 2000, Nissan released the V-Spec II, replacing the V-Spec. The V-Spec II has increased stiffness in the suspension (even stiffer than the original V-spec) and had larger rear brake rotors. It also comes equipped with a carbon fiber hood equipped with a NACA duct, which is lighter than the aluminum that all other GT-R hoods are made from. Also different on the V-Spec II was an iridium center console and aluminum pedals. The seats were upholstered with black cloth rather than the gray cloth used on previous R34 GT-R models, and the amber turn lenses were replaced with white versions. With the exception of the carbon fiber bonnet, the standard trim level GT-R also received these updates.
In February 2002 Nissan released a final production model of the R34 GT-R called the Skyline GT-R V-spec II Nür and the Skyline GT-R M-spec Nür. The Nür was named after the famous German Nürburgring racetrack, where the Skyline was developed. In total 1000 R34 GT-R Nür(s) were made, 750 were V-Spec II Nürs' and 250 M-Spec Nürs'. The Nür model featured an improved RB26DETT based on the N1 racing engine. The standard turbochargers were upgraded to larger versions with a slight increase in boost and the ceramic blades were replaced with steel versions. This has increased lag, but to compensate the turbo's durability was improved while being able to handle a bigger boost increase. This allowed tuners to increase the boost safely with standard turbos up to 340 kW (450 hp) at the crank. The V-spec II Nür is based on the regular V-spec II model, and the M-spec Nür was based on the regular M-spec model. Other than the addition of the Nür engine, the Nür models also included a different color of stitching on the interior trim, as well as a speedometer reading up to 300 km/h (186 mph). Due to then-current Japanese law the car was advertised as having 206 kW (276 hp) but it actually had over 246 kW (330 hp) when it left factory.
Nismo was then given the approval from Nissan to build Z-tune models for the Nismo anniversary. Nismo then purchased 20 used R34 GT-R V-Specs, each with less than 18,000 miles (29,000 km) on the clock, they were then completely stripped and were resprayed to a "Z-tune Silver," a special color exclusively for the Z-tune. For each of the 20 production models, the 2.8L engine was revised to allow it to reach 8000 rpm. The turbochargers were supplied by IHI in Japan. The engine is advertised as making as much as 370 kW (500 hp) (for warranty reasons). This second revision of the Z-tune engine is called the 'Z2'. The bodywork is designed with the same functional components used in Nismo's GT500 racing cars, such as engine bay vents on the hood and fenders, as well as wider fenders for wider wheels. The Z-tune is also improved with an aggressive suspension setup from Sachs, and a specially designed Brembo e brake system.
The entire car is essentially handmade, with the car being completely stripped and re-built from the chassis up. Engineers reinforced and stiffened the chassis seam welding in key areas such as the door seams and door frames and added carbon fiber to the strut towers and transmission tunnel and the engine bay, completely redesigning the suspension, drivetrain, engine, gearbox and other components so as to work at maximum efficiency and reliability as is expected of a road-going vehicle. Although Nismo planned on building 20 cars, they ceased production on only 19 (including 2 prototypes).The Z-tune is often regarded as the most expensive (prices for some have been known to exceed US$180,000) street legal GT-R ever built.
Although based on the FM platform used by the V36 generation Skyline, the GT-R uses an evolved Premium Midship (PM) platform. The car retains its heritage by using the chassis code CBA-R35, or simply .
Powertrain
The RB26DETT as used in the R32 and R33 Skyline GT-Rs. Later R34's have red colored valve covers.
A modified RB26DETT in an R33 Skyline GT-R.The GT-R of the 1990s included a 2.6 L straight six-cylinder twin-turbo engine producing 206 kW (276 hp).The stock turbo-chargers were of a hybrid steel/ceramic design allowing them to spool up faster due to the light nature of the ceramic exhaust wheel.
Power was delivered to all four wheels using an electronically-controlled all wheel drive system referred to by Nissan as the ATTESA-ETS system. The ATTESA-ETS system uses two G-Sensors mounted underneath the center console, which feed lateral and longitudinal inputs to the ECU. The ECU would then control the feed of power by allowing a limited amount to be delivered to the front wheels via an electronic torque split converter. In 1995, the ATTESA-ETS Pro was introduced as an option for R33 GT-R customers, and came as standard equipment in GT-R V-spec models. It was later standard equipment in all GT-R models for the R34 Skyline GT-R. The ATTESA-ETS Pro added an Active Limited Slip Differential, which was controlled by the onboard ATTESA computer. This was only for the rear differential, as the front differential remained as a normal Limited Slip Differential. The ATTESA-ETS Pro was also advertised in brochures as adding an electronically controlled 4-channel ABS brake system. Although it is not related to the all wheel drive system, it uses much of the same sensors, and the same computer. The R32 could be switched from AWD to RWD by removing the 4WD fuse, but R33 and R34 models had to have the front tailshaft removed, or the centre diff can be depressurised for 'towing mode' as specified in the owners manual.
The car also had computer-controlled all wheel steering system referred to as HICAS. The HICAS system activated when the vehicle exceeded 80 km/h (50 mph) and controlled the steering of the rear wheels in the same direction as the front to improve turn in on entry to corners. It should be noted however that this feature is often seen as more of a hindrance than help in race applications. The system tends to favor less advanced drivers, and can make the rear suspension unstable during high speed cornering. For this reason many kits are available to override this system usually by looping its hydraulic lines back on themselves. This is seen to make the car much more predictable when driving at the limit of grip.
While the published figures from Nissan were as quoted above, practical tests showed the car had a factory power output of closer to 330 PS (243 kW; 325 hp) at the flywheel. The lower published figure was Nissan's response to the need to abide by a gentleman's agreement between the Japanese auto manufacturers not to release a car to the public exceeding 280 PS (206 kW; 276 hp) of power output.
The R32 Skyline GT-R N1 street car marked the N1 engine's introduction to the consumer. R32, 33, and 34 N1 street cars were known for lack of amenities and their light weight. The R33 N1 engine and turbochargers were slightly revised, and the R34 N1 engine saw further improvement. The camshaft timing was altered slightly for more torque. R33 and R34 N1 turbochargers are the same size however R34 N1s use a ball bearing center section. NISMO states the ball bearings in the R34 N1 allow them to spool 400rpm faster than R33 N1.
The final N1 engine is the R34 Nür engine. The only differences are the cam cover color change and R34 Nür edition was a fully loaded street car. There were 1000 Nür engines made for use in the R34 V-spec II Nür and R34 M-spec Nür models, however an undefined amount of extras were made and sold through Nissan dealers.
The CALSONIC R32 GT-R from the Group A series.The GT-R's history of racetrack dominance began with its 50 victories scored from 1968–1972, including 49 consecutive wins in the Japanese race circuit. Nissan pulled out of racing shortly after the release of the KPGC110.
The Skyline GT-R soon earned the name "Godzilla", for its "monster" track performance and country of origin. The R32 GT-R dominated JTCC, winning all 29 races it entered in the series, as well as taking the series title every year from 1989-1993.
It took 50 races from 50 starts from 1991-1997 (latterly R33) in the N1 Super Taikyu. The GT-R's success sounded the death knell of Group A Touring Car racing; with the formula being scrapped soon after. JTCC was similarly blighted by the R32 GT-R, and splintered soon after, leading to the switch to the Supertouring category and also indirectly to the GT500 category of today.
The GT-R's success in motor racing was formidable, particularly in the annual 1,000 km race at the Mount Panorama circuit in Bathurst, Australia, where the winner in 1991 and 1992 was a GT-R (despite receiving additional 100 kg (220 lb) in weight penalties and a turbo pop off valve in 1992, and crashing), and in the Japanese GT series where it has remained dominant for many years. The Skyline GT-R line were retired from the JGTC series (later changed Super GT Series) in 2004. Its successor, the Nissan GT-R, competed and dominated the 2008 Super GT season, winning the GT500 (see details below).
No other race victories by the GT-R could escape without controversies. At the 1990 Macau Grand Prix Guia touring car race, the factory backed R32 driven by Masahiro Hasemi led the race from the start to the finishing line which caused a wave of protests by the European entrants. The following year, the car was forced to carry a weight penalty of 140 kg (309 lb) and was up against the more competitive DTM BMW M3 and Mercedes-Benz 190E 2.5-16 Evolution II. A disgruntled Hasemi was forced to settle for fourth place. For the following and final year the weight penalty was reduced and works backed Hasemi returned with another privateer R32 that crashed in the race, while Hasemi retired with engine failure.
In the UK, Andy Middlehurst took the Nissan Skyline GT-R (R32) to two consecutive championship wins in the National Saloon Car Cup. Other championship titles include the 1991 Australian Touring Car Championship Jim Richards, the 1991 Australian Endurance Championship (Mark Gibbs & Rowan Onslow), the 1991 Australian Manufacturers' Championship, the 1992 Australian Touring Car Championship (Mark Skaife) and the 1992 Spanish Touring Car Championship.
Akira Kameyama has taken the GT-R to the Pikes Peak International Hillclimb race on three occasion winning in each Open Class for production cars he entered, one in 1993 with the R32, another in 1996 with the R33 and again in 1998.For the following year, Rhys Millen took an R33 Skyline GT-R to win the High Performance Showroom Stock category.
At the 1994 Rolex 24 Hours of Daytona, the GT-R would make its US debut when Nismo entered a sole Group A specification R32 for the GTU category, the car would finish 20th.
A Skyline GT-R LM which competed at the 24 Hours of Le Mans.
A Falken R33 Skyline GT-R.In 1995 Nismo developed the Skyline GT-R for endurance racing with a pair of JGTC specification R33s for the 24 Hours of Le Mans. In order to meet homologation regulations, a street legal version had to be built, although Nismo only required one example to comply. The two racing cars were able to achieve some success at Le Mans, with one car achieving 10th overall, and 5th in its GT1 class, being beaten only by the more developed McLaren F1 GTRs. For 1996, the Skyline GT-R LMs would return, this time carrying enlarged RB26DETTs displacing 2.8 litres. Again competing in GT1, they would finish 15th overall, and 10th in class. However, Nissan chose to abandon their production-based Skyline GT-R LMs in 1997 and instead turn to the purpose-built R390 GT1s. In honor of the success of the Skyline at Le Mans, Nissan marketed a limited edition R33 referred to as "LM Limited", only available in a Competition Blue. There were also 3 of the "LM Limited" model made in white (paint code QM1)
In 2007 Automotive Forums.com became the first ever to compete with a Skyline GT-R (R34) in the United States, participating in the Speed World Challenge GT series. Team: Driver and President of Automotive Forums.com Igor Sushko, Crew Chief Sean Morris, Team Manager Victor Reyes, Mechanic Josh Mitchell, and Engineer Merritt Johnson.
In 2007 the Heat Treatments Drag R32 Skyline GT-R driven by Reece McGregor of New Zealand, broke the world record for the fastest AWD over a 1/4 mile with a 7.57 at 305.96 km/h (190.11 mph) at the Willowbank Dragway in Australia, a record previously held by the HKS R33 Skyline GT-R with a 7.67.
 | |
| Production | 1969-1972 |
|---|---|
| Body style | 4-door sedan 2-door coupe |
| Layout | FR layout |
| Engine | 2.0L 160 horsepower (120 kW) S20 I6 |
| Transmission | 5-speed Manual |
| Designer | Shinichiro Sakurai |
A popular name for the PGC and KPGC10 Skyline GT-R was "Hakosuka," which is a combination of the Japanese word for box and the pronounced abbreviation of skyline.
2nd generation (1972-1977)
 | |
| Production | 1972-1977 |
|---|---|
| Body style | 2-door coupe |
| Layout | FR layout |
| Engine | 2.0L S20 I6 |
| Transmission | 5-speed manual |
| Designer | Shinichiro Sakurai |
This edition of the GT-R was also known as the "Ken & Mary" Skyline, due to a popular advertisement featuring a young couple (Ken and Mary) enjoying the Hokkaido countryside. The advertisement later spawned a hit song by Buzz, and the tree featured in the advertisement later became a minor star itself.
Unfortunately, the second generation GT-R was unsuccessful, for a gas crisis hit in the early 1970s, drying out any demand for high-performance sports cars. A total of 197 cars were built by the end of its short production run. For the next decade, this would be the last GT-R until the production of the R32 in 1989.
3rd generation (1989–1994)
 | |
| Production | 1989-1994 |
|---|---|
| Body style | 2-door coupe |
| Layout | Front engine, rear-wheel drive / four-wheel drive |
| Engine | 2.6 L RB26DETT I6 |
| Transmission | 5-speed manual |
| Designer | Naganori Ito |
[edit] Concept
After cancelling the Skyline GT-R in 1973, Nissan revived the GT-R again in 1989. At the time Nissan was competing in Group A Racing with the Skyline GTS-R. Nissan wanted to retire the GTS-R in favor of a more competitive vehicle. The new generation GT-R, E-BNR32 chassis (commonly shortened to R32), was designed to dominate Group A racing.Nissan Kohki (Nissan's power train engineering and manufacturing facility) originally tested a twin turbocharged 2350cc bored and stroked version of the RB20 engine. This set up produced 233 kW (313 hp) and used a RWD drivetrain. Under Group A regulations, a turbocharged engine must multiply its engine displacement by 1.7, putting the new Skyline in the 4000 cc class, and requiring the use of 10-inch-wide tires. Knowing that they would be required to use 10-inch-wide tires, Nissan made the decision to make the car all wheel drive. Nissan developed a special motorsport-oriented AWD system for this purpose called the ATTESA E-TS. Although this assisted with traction, it made the car 100 kg (220 lb) heavier; the added weight put the GT-R at a disadvantage to other cars in the 4000 cc class. Nissan then made the decision to increase the displacement to 2600 cc, and put the car in the 4500 cc class, with the car's weight near-equal to competing cars. The 4500 cc class also allowed for 11-inch-wide tires. New engine block and heads were then developed to better match the increased displacement. The result was a 600 horsepower.[9] Later REINIK (Racing & Rally Engineering Division Incorporated Nissan Kohi) produced Group A racing engines between 373–485 kW (500–650 hp) depending on track conditions.
Production
This new 2.6 L all wheel drive concept was put into production as the R32 Nissan Skyline GT-R. The R32 developed 206 kW (276 hp) and 266 lb·ft (361 N·m) of torque, it had a curb weight of 1,430 kg (3,146 lbs). Initial production of the car was the required 510 to allow for homologation starting on May 22, 1989. Its successful debut along with critical acclaim by the motoring press created a heavy demand for the car. Nissan officially started an unlimited production run August 1989, and began its Group A campaign in 1990. Due to strict Group A homologation rules, Nissan was required to also sell a series of the Skyline GT-R which more accurately reflected the car they use in Group A racing. This series was called the Skyline GT-R 'Nismo' edition.
To celebrate the success of the GT-R in both Group N and Group A racing, Nissan introduced the Skyline GT-R V-Spec ("Victory SPECification") car on February 3, 1993. The V-Spec added Brembo brakes and a retuned ATTESA E-TS system to the Nismo and N1 packages, as well as 17" BBS wheels with 225/45/17 tires. The V-Spec has a list price of.
Finally on February 14, 1994 the Skyline GT-R V-Spec II was released, with the only change being wider 245/45/17 tires. In addition, both the V-Spec and V-Spec II had a curb weight of 1,480 kg (3,256 lbs), weighing 50 kg (110 lbs) more than the standard GT-R.[Total production of the V-Spec I and II was 1,453 and 1,303 units respectively.
Total production of the R32 Skyline GT-R was 43,394 units, with production starting on May 22, 1989. An above average proportion of the GT-R's were sold in white: this is likely because white is the national racing color of Japan in international motorsport.
Production figures
- Standard Cars = 40,390
- NISMO Group A Evolution = 560
- V-Spec = 1,453
- V-Spec II = 1,303
- N1 Race Version = 228
- Total = 43,934
4th generation (1995–1998)
 | |
| Production | 1995-1998 |
|---|---|
| Body style | 2-door coupe 4-door sedan |
| Layout | Front engine, rear-wheel drive / four-wheel drive |
| Engine | 2.6 L RB26DETT I6 |
| Transmission | 5-speed manual |
| Designer | Kozo Watanabe |
The R33 GT-R launched in January 1995 with the base model GT-R and the V-spec model. The V-spec model weighed in 10 kg (22 lb) heavier, and had sportier suspension resulting in lower ground clearance. The V-spec also featured the newer ATTESA E-TS Pro all wheel drive system, which included an Active Limited Slip differential. The V-spec model also included a four wheel independent channel anti-lock braking system.
NISMO 400R
For other uses, see 400R (disambiguation).
A special edition R33 was released on November 3, 1997 called the 400R, with R standing for Racing. Overall development and planning was by NISMO (Nissan Motorsports International). But, its bored and stroked RB26DETT engine, the RBX-GT2, was engineered and produced by REINIK (later renamed REIMAX – "REINIK to the MAX"). The engine featured 77.7 mm stroke crankshaft (73.7 mm stock), forged 87 mm pistons (86 mm cast stock), upgraded rods, polished ports, high lift camshafts, upgraded oil system, larger exhaust manifolds and higher output turbochargers. NISMO produced an upgraded exhaust, a twin-plate clutch, and intercooler system. Nismo brake pads were fitted to the car. 400R exclusive aerodynamic updates were also added, such as wider fenders, side skirts, a new rear bumper, a new front bumper with bigger air scoops, and a redesigned bonnet and rear spoiler made of carbon fiber. The 400R was also fitted with 18x10 Nismo LM-GT1s. The car developed 300 kW (400 hp) and 347 lb·ft (470 N·m), which allowed a top speed of over 186 mph (300 km/h), and enabled it to reach 0–97 km/h in 4.0 seconds. 370 kW (500 hp) is easily achieved with a higher boost setting. NISMO had originally planned to produce 100 units of the 400R, however only 44 units were made before production of the R33 ended in 1998.[13][14]Production figures
- Standard cars = 9,871
- V-Spec = 6,551
- Total = 16,422
5th generation (1999–2002)
 | |
| Production | 1999-2002 |
|---|---|
| Body style | 2-door coupe |
| Layout | Front engine, rear-wheel drive / all-wheel drive |
| Engine | 2.6L RB26DETT I6 |
| Transmission | 6-speed manual |
| Designer | Kozo Watanabe |
A new feature on the R34 GT-R is a 5.8" LCD multifunction display on the center of the dashboard, which shows seven different live readings of engine and vehicle statistics such as turbocharger pressure (1.2 bar max), oil and water temperature, among others. The GT-R V-spec model added two extra features to the display: intake and exhaust gas temperatures. Nismo Multi-function Displays (MFD) can be bought at an extra cost, they include a lap timer, G-Force meter and an increase in boost pressure measurement to 2 bar. The R34 GT-R was made shorter in response to customer concerns who thought the R33 was too bulky.
Like the R33, the new R34 GT-R V-Spec (Victory Specification) models come equipped with the ATTESA E-TS Pro system and an Active LSD at the rear, while standard GT-R models come with the non-Pro system and a conventional mechanical differential. The V-spec model also had firmer suspension and lower ground clearance, thanks to front and side splitters, as well as a rear carbon fiber air diffuser, designed to keep air flowing smoothly under the car.
Another special model of the R34 GT-R is the M-spec. It was similar to the V-spec, but had special "Ripple control" dampers, revised suspension set up, stiffer rear sway bar and a leather interior with heated front seats. The 'M' on the M-Spec stood for Mizuno who is the chief engineer of Nissan.
At the time of the R34's release, like the R32 and R33, Nissan released an R34 N1 model. The R34 GT-R N1 was equipped similar to the R32 and R33 N1 models — a homologation special. It was sold without ABS, air conditioning, audio equipment, rear wiper, or trunk lining. The new R34 N1 was also given the new R34 N1 engine. Only 45 R34 N1 models were produced from the factory, 12 of which were used by Nismo for Super Taikyu racing. The rest were sold to various customers, mostly racing teams and tuning garages.
The V-Spec versions was also imported into the UK, a number of modifications was carried out to the car, these were 3 additional oil coolers, revised ECU map, full Connelly leather interior, underbody diffusers, stiffer suspension, active rear limited slip differential, extra display feature on the in car display.[15]
In February 2002 Nissan released a final production model of the R34 GT-R called the Skyline GT-R V-spec II Nür and the Skyline GT-R M-spec Nür. The Nür was named after the famous German Nürburgring racetrack, where the Skyline was developed. In total 1000 R34 GT-R Nür(s) were made, 750 were V-Spec II Nürs' and 250 M-Spec Nürs'. The Nür model featured an improved RB26DETT based on the N1 racing engine. The standard turbochargers were upgraded to larger versions with a slight increase in boost and the ceramic blades were replaced with steel versions. This has increased lag, but to compensate the turbo's durability was improved while being able to handle a bigger boost increase. This allowed tuners to increase the boost safely with standard turbos up to 340 kW (450 hp) at the crank. The V-spec II Nür is based on the regular V-spec II model, and the M-spec Nür was based on the regular M-spec model. Other than the addition of the Nür engine, the Nür models also included a different color of stitching on the interior trim, as well as a speedometer reading up to 300 km/h (186 mph). Due to then-current Japanese law the car was advertised as having 206 kW (276 hp) but it actually had over 246 kW (330 hp) when it left factory.
[edit] Production figures
- Standard Cars = 3,964
- V-Spec = 1,308
- N1 Race Version = 45
- Total = 5,317
[edit] Z-Tune
Nismo originally designed the concept of the Z-tune in 2002 when Nissan was putting an end to the R34 Skyline production. The first Z-tune was built in 2003, using a used 2002 Skyline GT-R V-Spec II. It was built with a concept RB26DETT 'Z1' engine. This engine was based on Nissan's Lemans GT2 and GT500 racing experiences. As with the racing vehicles a strengthened engine block and stroked crankshaft were utilized. The engine was also bored. With the new displacement of 2.8L and upgraded turbo-chargers the Z1 produced 370 kW (500 hp). The Z-Tune had a 0–100 km/h (0–60 mph) time in 3.2 seconds and has a top speed of over 195 mph.Nismo was then given the approval from Nissan to build Z-tune models for the Nismo anniversary. Nismo then purchased 20 used R34 GT-R V-Specs, each with less than 18,000 miles (29,000 km) on the clock, they were then completely stripped and were resprayed to a "Z-tune Silver," a special color exclusively for the Z-tune. For each of the 20 production models, the 2.8L engine was revised to allow it to reach 8000 rpm. The turbochargers were supplied by IHI in Japan. The engine is advertised as making as much as 370 kW (500 hp) (for warranty reasons). This second revision of the Z-tune engine is called the 'Z2'. The bodywork is designed with the same functional components used in Nismo's GT500 racing cars, such as engine bay vents on the hood and fenders, as well as wider fenders for wider wheels. The Z-tune is also improved with an aggressive suspension setup from Sachs, and a specially designed Brembo e brake system.
The entire car is essentially handmade, with the car being completely stripped and re-built from the chassis up. Engineers reinforced and stiffened the chassis seam welding in key areas such as the door seams and door frames and added carbon fiber to the strut towers and transmission tunnel and the engine bay, completely redesigning the suspension, drivetrain, engine, gearbox and other components so as to work at maximum efficiency and reliability as is expected of a road-going vehicle. Although Nismo planned on building 20 cars, they ceased production on only 19 (including 2 prototypes).The Z-tune is often regarded as the most expensive (prices for some have been known to exceed US$180,000) street legal GT-R ever built.
Replacement
Main article: Nissan GT-R
Following the end of R34 production in 2002, Nissan announced their plans to separate the GT-R model from the Skyline name, creating an entirely new vehicle although it would remain on the same platform as the Skyline. This new car, now known simply as the Nissan GT-R, debuted in 2007 in Tokyo. Released to the consumers in 2008, it was the first GT-R available worldwide, entering the North American market for the first time.Although based on the FM platform used by the V36 generation Skyline, the GT-R uses an evolved Premium Midship (PM) platform. The car retains its heritage by using the chassis code CBA-R35, or simply .
Powertrain
Power was delivered to all four wheels using an electronically-controlled all wheel drive system referred to by Nissan as the ATTESA-ETS system. The ATTESA-ETS system uses two G-Sensors mounted underneath the center console, which feed lateral and longitudinal inputs to the ECU. The ECU would then control the feed of power by allowing a limited amount to be delivered to the front wheels via an electronic torque split converter. In 1995, the ATTESA-ETS Pro was introduced as an option for R33 GT-R customers, and came as standard equipment in GT-R V-spec models. It was later standard equipment in all GT-R models for the R34 Skyline GT-R. The ATTESA-ETS Pro added an Active Limited Slip Differential, which was controlled by the onboard ATTESA computer. This was only for the rear differential, as the front differential remained as a normal Limited Slip Differential. The ATTESA-ETS Pro was also advertised in brochures as adding an electronically controlled 4-channel ABS brake system. Although it is not related to the all wheel drive system, it uses much of the same sensors, and the same computer. The R32 could be switched from AWD to RWD by removing the 4WD fuse, but R33 and R34 models had to have the front tailshaft removed, or the centre diff can be depressurised for 'towing mode' as specified in the owners manual.
The car also had computer-controlled all wheel steering system referred to as HICAS. The HICAS system activated when the vehicle exceeded 80 km/h (50 mph) and controlled the steering of the rear wheels in the same direction as the front to improve turn in on entry to corners. It should be noted however that this feature is often seen as more of a hindrance than help in race applications. The system tends to favor less advanced drivers, and can make the rear suspension unstable during high speed cornering. For this reason many kits are available to override this system usually by looping its hydraulic lines back on themselves. This is seen to make the car much more predictable when driving at the limit of grip.
While the published figures from Nissan were as quoted above, practical tests showed the car had a factory power output of closer to 330 PS (243 kW; 325 hp) at the flywheel. The lower published figure was Nissan's response to the need to abide by a gentleman's agreement between the Japanese auto manufacturers not to release a car to the public exceeding 280 PS (206 kW; 276 hp) of power output.
N1 engines
RB26DETT N1 is an upgraded version of the standard RB26DETT engine. It was developed by Nissan Kohki's REINIK division for NISMO and N1 race cars. The standard RB26DETT, although known for its durability, proved to require too much maintenance for Group N (N1 class) racing conditions. REINIK started with strengthened RB26DETT block. N1 block is identified by its 24U number stamped on the block (05U standard blocks). The cylinder walls are thicker and water cooling channels are enhanced to increase flow. It also received an upgraded oil pump and water pump, to improve the cooling and lubrication for race conditions. The pistons have 1.2 mm (0.047 in) top rings and were balanced before assembly but otherwise very close to standard. The connecting rods are also similar to standard but made from slightly stronger material and balanced. Standard crankshaft is balanced to a higher level. Higher flow exhaust manifolds and turbochargers were added for increased torque and slightly higher top-end power. Turbine wheels on the N1 turbochargers are also made from steel for durability, rather than the lighter but weaker ceramic found on the standard turbine.The R32 Skyline GT-R N1 street car marked the N1 engine's introduction to the consumer. R32, 33, and 34 N1 street cars were known for lack of amenities and their light weight. The R33 N1 engine and turbochargers were slightly revised, and the R34 N1 engine saw further improvement. The camshaft timing was altered slightly for more torque. R33 and R34 N1 turbochargers are the same size however R34 N1s use a ball bearing center section. NISMO states the ball bearings in the R34 N1 allow them to spool 400rpm faster than R33 N1.
The final N1 engine is the R34 Nür engine. The only differences are the cam cover color change and R34 Nür edition was a fully loaded street car. There were 1000 Nür engines made for use in the R34 V-spec II Nür and R34 M-spec Nür models, however an undefined amount of extras were made and sold through Nissan dealers.
Motorsport
The Skyline GT-R soon earned the name "Godzilla", for its "monster" track performance and country of origin. The R32 GT-R dominated JTCC, winning all 29 races it entered in the series, as well as taking the series title every year from 1989-1993.
It took 50 races from 50 starts from 1991-1997 (latterly R33) in the N1 Super Taikyu. The GT-R's success sounded the death knell of Group A Touring Car racing; with the formula being scrapped soon after. JTCC was similarly blighted by the R32 GT-R, and splintered soon after, leading to the switch to the Supertouring category and also indirectly to the GT500 category of today.
The GT-R's success in motor racing was formidable, particularly in the annual 1,000 km race at the Mount Panorama circuit in Bathurst, Australia, where the winner in 1991 and 1992 was a GT-R (despite receiving additional 100 kg (220 lb) in weight penalties and a turbo pop off valve in 1992, and crashing), and in the Japanese GT series where it has remained dominant for many years. The Skyline GT-R line were retired from the JGTC series (later changed Super GT Series) in 2004. Its successor, the Nissan GT-R, competed and dominated the 2008 Super GT season, winning the GT500 (see details below).
No other race victories by the GT-R could escape without controversies. At the 1990 Macau Grand Prix Guia touring car race, the factory backed R32 driven by Masahiro Hasemi led the race from the start to the finishing line which caused a wave of protests by the European entrants. The following year, the car was forced to carry a weight penalty of 140 kg (309 lb) and was up against the more competitive DTM BMW M3 and Mercedes-Benz 190E 2.5-16 Evolution II. A disgruntled Hasemi was forced to settle for fourth place. For the following and final year the weight penalty was reduced and works backed Hasemi returned with another privateer R32 that crashed in the race, while Hasemi retired with engine failure.
In the UK, Andy Middlehurst took the Nissan Skyline GT-R (R32) to two consecutive championship wins in the National Saloon Car Cup. Other championship titles include the 1991 Australian Touring Car Championship Jim Richards, the 1991 Australian Endurance Championship (Mark Gibbs & Rowan Onslow), the 1991 Australian Manufacturers' Championship, the 1992 Australian Touring Car Championship (Mark Skaife) and the 1992 Spanish Touring Car Championship.
Akira Kameyama has taken the GT-R to the Pikes Peak International Hillclimb race on three occasion winning in each Open Class for production cars he entered, one in 1993 with the R32, another in 1996 with the R33 and again in 1998.For the following year, Rhys Millen took an R33 Skyline GT-R to win the High Performance Showroom Stock category.
At the 1994 Rolex 24 Hours of Daytona, the GT-R would make its US debut when Nismo entered a sole Group A specification R32 for the GTU category, the car would finish 20th.
In 2007 Automotive Forums.com became the first ever to compete with a Skyline GT-R (R34) in the United States, participating in the Speed World Challenge GT series. Team: Driver and President of Automotive Forums.com Igor Sushko, Crew Chief Sean Morris, Team Manager Victor Reyes, Mechanic Josh Mitchell, and Engineer Merritt Johnson.
In 2007 the Heat Treatments Drag R32 Skyline GT-R driven by Reece McGregor of New Zealand, broke the world record for the fastest AWD over a 1/4 mile with a 7.57 at 305.96 km/h (190.11 mph) at the Willowbank Dragway in Australia, a record previously held by the HKS R33 Skyline GT-R with a 7.67.
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