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Porsche 911 (992) GT3 Cup: An In-depth Look

Introduction

The world caught its first glimpse of the new 992-gen Porsche 911 GT3 Cup car back in December 2020, at about the same time that we were treated to a teaser of the yet-to-be-released production road car. 

Ironically, more details were revealed about the race car than the road car at that point. Thus, we originally found ourselves relying on the Cup car – which we knew would make 510 hp and run on synthetic fuel – to give us clues on what the street-legal GT3 was going to look like, and not the other way around. But even then, most of the information remained vague. 

Fast forward to mid-February 2021, with Porsche finally pulling back the curtains and officially unveiling the 2022 Porsche 911 GT3 via digital livestream on YouTube. Rather quietly – under the shroud of all the fanfare surrounding the road car – Porsche also got the ball rolling for the 992-gen GT3 Cup car, delivering the first 23 examples to customers.

New Era, Better Cup Car

As is the case with any automobile (and especially one of the 911 GT3’s caliber), development of the production car – and by association, the Cup car – was years in the making. Jan Feldmann was appointed Project Manager for the new Porsche 911 GT3 Cup, making him ultimately responsible for bringing the many different departments together needed to produce a pure-bred race car.     

The very beginnings of this project can be traced back as far as 2018, with things really beginning to take shape by early 2019. The undertaking was huge, but the message was simple: “build a Porsche 911 GT3 Cup car that had better performance, a more aggressive design, and greater durability than any other before it.”

We all know that these types of challenges are nothing new to Porsche, who seem to be on a perpetual winning streak of building a better car than the ones made before it. However, this particular Cup car did present a unique obstacle for Feldmann and his team, as Porsche sought to have it run on synthetic fuel rather than conventional gasoline. The immediate goal here was to achieve a significant drop in carbon emissions, which the new Cup car has proven to be possible.

It also serves as a laboratory for the potential trickle-down of eFuels to production road cars. Producing a competitive race car that uses eFuels is surely going to have huge implications for the company down-line; Porsche have already hinted that this manner of powering some of their production cars (alongside EVs) is at the forefront of their future developments. The company’s altruistic stance on this is reflected in their desire to make eFuels accessible for all manner of combustion-powered machines.    

As the seventh iteration of this one-make race car, the new 992 GT3 Cup will be carrying on a great legacy. Since 1990, Porsche has produced 4,251 units of this world-class machine; all of which have been built alongside Porsche’s production road cars at Zuffenhausen, and will continue to be in the case of the 992.

To The Races

Early adopters of the new Cup cars were invited to a private testing session to give the race car its first real shakedown on March 8, 2021. Considered to be one of the world’s most unforgiving race tracks (one which demands everything from a car’s chassis) Sebring International Raceway would host this event. Keeping in the mindset of “if it’ll survive here, it’ll survive anywhere”, the car performed remarkably in every metric and duly impressed the Porsche brass and customers alike.    

This was not just a preamble for the cars, but for the drivers as well, who would then compete on the same track just 9 days later at the 12 Hours of Sebring – the inaugural event for the 2021 Porsche Carrera Cup North America season. Since then, the competition has made its rounds to Circuit of the Americas, Watkins Glen, Road America and Indianapolis Motor Speedway. The full schedule can be viewed here. 

Also, a special shout out to my fellow Canadian, Parker Thompson of JDX Racing, who continues to compete for a top 3 position in the series. He won the most recent event which took place at Indianapolis, where he also set the fastest lap of the race. All the best, Parker!

Porsche 911 GT3 Cup Rolling

“Being able to introduce the new Porsche 911 GT3 Cup race car in our own debut as Porsche Carrera Cup North America is a great honor. It is among the first of many key elements that makes Carrera Cup special for our customers here. While we will have multiple unique details which set the Carrera Cup North America apart, like a bespoke paddock experience and Michelin Pilot race tires, the most obvious and quickly recognizable to the fans will be the latest and greatest Porsche 911 GT3 Cup race car. Not only is this special on this continent, but it is also special worldwide. People will be able to watch the future of Porsche one-make racing for the first time at our series’ debut at Sebring on March 17 – 19.” – Brian Blocker, Series Director of Porsche Carrera Cup North America

Engine & Performance

The Stats

The new Porsche 911 GT3 Cup car continues to fashion a 4.0L naturally-aspirated engine, which is the same as that used in its predecessor as well as the 992 GT3 road car. In its latest evolution, the engine produces 510 hp @ 8,400 rpm – up from 485 hp @ 7,500 rpm in the outgoing race car – and 347 lb-ft of torque @ 6,250 rpm. 

Porsche 911 GT3 Cup Pit Lane

Arguably more significant than the 25 hp bump, is the fact that the water-cooled flat-6 engine runs on synthetic fuels – a feature that could revolutionize how motorsport race cars and production road cars look going forward. Porsche also claims that the engine is more robust than ever and requires less routine maintenance than the forgone “Mezger” engines used in the previous cars. This means that the car should be good for 100 hours of track-duty, before requiring any maintenance checks.      

The Components

Unlike the road-going car, the GT3 Cup race car opts for a single intake system instead of the more ‘blingy’ individual throttle bodies, as a matter of simplicity for race engineers and mechanics. The car also comes with three interchangeable exhaust systems which allow for compliance within different race series’ rules and decibel limits.

The 4.0L naturally-aspirated flat-6 engine is mated to a 6-speed sequential transmission, which is electronically controlled using steering-wheel-mounted paddle shifters. The most notable improvements to the drivetrain, which include new driveshafts, make for a much more durable race car. 

Porsche says that the GT3 Cup car’s transmission only needs inspecting once every 60 hours of racing, with the comprehensive servicing/rebuilding interval being double that. More time on the race track. Less time in the garage. A clearer path to victory.  

Chassis & Suspension

The new 992 GT3 Cup has significantly enhanced safety features compared to the outgoing 991.2 equivalent, with extra reinforcements added to make the safety cell – which ultimately protects the driver – much stronger. The net increase to total weight is about 35 kg, though it is important to note that the car has shed mass other areas to help mitigate the additional encumbrance. 

Porsche 911 GT3 Cup Rear

This is achieved by using more aluminum than ever before, with roughly 70% of the new Cup car’s components being made of the lighter material (and the rest with steel). A generous serving of carbon fiber can be found on panels such as the doors, engine cover and rear wing, while all windows are made out of polycarbonate.  

Overall, the 992 Cup weighs 2,778 pounds – up from its predecessor’s 2,701 pounds – which isn’t insignificant in race car terms; however, it now comes with the extra protection and heightened safety standards that are part and parcel of building a car that is now faster than ever before. 

One of the biggest changes to the new GT3 Cup car is via its suspension geometry with the introduction of a double-wishbone suspension setup in the front. This design is inherited from the mid-engined 911 RSR race car, and is also a characteristic shared with the new 992 GT3 road car, which also debuts with this same feature.

This change is significant in that the shock absorbers are only affected by axial forces, and no longer to lateral forces. In essence, this will improve handling performance and allow for more precise road manners and enhanced turn-in capabilities. The rear end continues to utilize a 5-point multi-link suspension system which also borrows its valve design from the 911 RSR. The new GT3 Cup car will also feature fully electro-mechanical power steering for the first time, which will improve the car’s reaction to driver inputs while providing greater feedback. 

Aerodynamics

As expected, the new 992 GT3 Cup also features improved aerodynamic performance compared to the outgoing race car, with the new adjustable ‘swan neck’ rear spoiler being the most visually-telling change in this regard. 

Porsche 911 GT3 Cup Rear Wing

This design – also adopted for use on the 992 GT3 road car – is an improvement on the more traditional shape, allowing for greater downforce while simultaneously reducing drag. New NACA-style air ducts at the front of the car also help to channel airflow throughout the body and assist with engine and brake cooling.  

The overall footprint of the car has also been increased, with a wider body and larger overhangs improving downforce but also making for bigger dimensions. However, as part of the total package, these changes work in tandem with the rest of the car in striking an optimal balance which ultimately makes for a faster, better and safer car. 

Stability & Traction Control Systems

While driver assistance systems such ABS and traction control are optional on the GT3 Cup, they are pre-programmed into every car’s onboard ECU; they can be toggled on or off using a unique digital code. 

However, the majority of these driving aids are prohibited in professional categories of competitions such as the Porsche Carrera Cup North America – pro-am and amateur racers are typically given more leniency when it comes to racing with assists turned on.  

Brakes & Tires

The new 992 GT3 Cup car utilizes Brembo steel brakes for stopping power, forgoing the more exotic (but less reliable) carbon-ceramic setup which is an option in the road-going GT3. The brake calipers utilize a special “quick release” mechanism, which allows for faster brake pad changes during pit stops. Brake bias can also be adjusted on the fly from the cockpit using a rotary knob located on the switch panel.  

Porsche 911 GT3 Cup Rear Quarter

Thanks to wider fenders and a larger body, the new race car can also accommodate a beefier wheel / tire combination than before – by default, this equates to 12” wide wheels in the front and 13” wide wheels at the rear, each wrapped in Michelin Pilot Sport race tires.

Design, Styling & Interior

Speaking in greater detail about the car’s increased width, the new 992 GT3 Cup is built upon the wider platform of the 911 Turbo production car, rather than the narrow-bodied variants as was the case for the previous Cup car iterations. Add to that, even wider fenders after the fact, and you have a front and rear track which has been widened by 1.8” and 1.1” respectively.  

The car’s body panels are made of either aluminum or carbon fiber; considerations have been made for reductions not just in weight, but in cost as well. For example, panels that are more susceptible to taking damage during customary track incidents – such as bumpers and fenders – are made from the less expensive aluminum.   

Porsche 911 GT3 Cup Interior

Inside, the GT3 Cup is fitted with a 10.3” center monitor which displays important information to the driver. The steering wheel is transplanted from the GT3 R and has carbon fiber paddle shifters attached. The dashboard can also be customized to the driver’s preferences.

Pricing

According to Porsche Motorsport, the new 992-gen Porsche 911 GT3 Cup “is now delivered with a complete accessory kit, which includes, for example, all special tools and wishbone spacers required for track adjustment.” 

As for the price? Each Cup car will cost the equivalent of €225,000 (roughly US$275,000).

This of course, does not include any of the costs associated with funding a race team or the other post-purchase expenses required to keep the car running and staying competitive. Deliveries began in February 2021, with testing and the first 5 Porsche Carrera Cup North America races already having been concluded at the time of this writing. The series will be making its next stop at Virginia International Raceway, before wrapping up at Road Atlanta.

Specifications Summary

Engine

Configuration Flat-6
Location Rear, Longitudinally-mounted
Construction Aluminium Alloy Block and Head
Displacement 3,996 cc / 243.9 cu in
Bore / Stroke 102.0 mm (4”) / 81.5 mm (3.2”)
Valvetrain 4 Valves / Cylinder, DOHC
Fuel Feed Fuel Injection
Lubrication Dry Sump
Aspiration Naturally-aspirated
Power 503 bhp / 375 kW @ 8,400 rpm
Torque 470 Nm / 347 ft-lbs @ 6,150 rpm
Redline 8,750 rpm
BHP/Liter 126 bhp / liter

Chassis & Drivetrain

Chassis Aluminium and Steel Monocoque
Front Suspension Double Wishbones
Rear Suspension Multi-link
Steering Electro-mechanical Power Steering
Front Brakes Ventilated discs, 380mm (15”), 6-pot caliper
Rear Brakes Ventilated discs, 380mm (15”), 4-pot caliper
Gearbox 6-speed Sequential
Drive Rear-wheel Drive

Dimensions

Weight 1,260 kg / 2,778 lbs
Length / Width / Height 4,585 mm (180.5”) / 1,920 mm (75.6 in) / N/A
Wheelbase / Track (fr/r) 2,459 mm (96.8”) / N/A / N/A
Fuel Tank 110 Liters (29.1 Gallons [US] / 24.2 Gallons [Imperial])
Wheels (fr/r) 12” x 18” / 13” x 18”
Tires (fr/r) 30/65 – 18” / 31/71 – 18”

Porsche 911 (992) GT3 Cup Photo Gallery

Porsche 911 GT3 Cup Front Porsche 911 GT3 Cup Side Porsche 911 GT3 Cup Rear Wing Porsche 911 GT3 Cup Steering Wheel Porsche 911 GT3 Cup Rear Porsche 911 GT3 Cup Bonnet Porsche 911 GT3 Cup Rolling Porsche 911 GT3 Cup Rolling Porsche 911 GT3 Cup Rolling Porsche 911 GT3 Cup Rear Porsche 911 GT3 Cup Pit Lane Porsche 911 GT3 Cup Side Porsche 911 GT3 Cup Rear Wing Porsche 911 GT3 Cup Porsche 911 GT3 Cup Top View Porsche 911 GT3 Cup Tire Porsche 911 GT3 Cup Rear Quarter Porsche 911 GT3 Cup Rear Quarter Porsche 911 GT3 Cup Door Card Porsche 911 GT3 Cup Interior

Video Gallery

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Official Press Release

Porsche Premiere. Newest Porsche 911 GT3 Cup Race Car to Make Testing Debut with Newest One-Make Series.

02/08/2021

Porsche Motorsport Weekly Notes

The Porsche Carrera Cup North America will be a leader in many ways entering its debut season in 2021. Among the firsts for the entrants into the new championship – the highest of the one-make series on the Porsche Motorsport Pyramid North America – will be the privilege as the earliest to test and race the newest Porsche 911 GT3 Cup competition car worldwide. Porsche will host an open test for all full-season entrants in the series at Sebring International Raceway on March 8 – 9. The private test will include the first 23, 2021 Porsche 911 GT3 Cup race cars produced and delivered worldwide, as well as a limited number of previous generation cars. Following the two-day private event on the 3.74-mile, 17-turn race course in Sebring, Florida, entrants will make the international competition debut for the first race variant of the type 992 generation of the iconic 911 platform on March 17 – 19 during the Mobil 1 Twelve Hours of Sebring weekend.

North America holds the honor of being the first to see the most produced factory race car in the world in Central Florida. It will be followed by its Porsche Mobil 1 Supercup premier March 30 at Zandvoort in The Netherlands. Other Carrera Cups will follow.

The seventh cup-car iteration will carry forward a great legacy. Since its 1990 forerunner, Porsche has built 4,251 units of the globally successful one-make cup racer. Of its immediate predecessor alone, 1,410 cars rolled off the 911 assembly line in Zuffenhausen, Germany: 673 vehicles from the 991.1 generation and 737 from the 2017-launched 991.2 generation.

Producing 510 hp (375 kW), the new-for-2021 machine exceeds the output of its immediate predecessor by approximately 25 horsepower. Moreover, the new GT3 Cup car can run on synthetic fuels, which significantly lowers CO2 emissions under racing conditions. The completely new Cup 911 race car is expected to cut lap times, depending on the track layout, by an astounding one-percent – an almost unheard of gain made year-to-year. Delivery to teams will begin in February 19 with the first production allocation scheduled to be delivered to North America.

The groundwork for the latest model was laid in 2018. Concrete development began in early 2019. The main development goals of the team led by project manager Jan Feldmann were to further improve performance, achieve a more aggressive design and greater durability with less outlay in terms of time and maintenance. The result is reflected in many aspects of the new racing vehicle, which, like its predecessor, is built on the production line in Stuttgart-Zuffenhausen alongside the 911 road models.

One of the most striking features of the new 911 GT3 Cup is its optimized aerodynamics and the overall more muscular appearance. This is partly thanks to the wide, turbo-spec lightweight body that is being used for the first time in the Cup car. This improved aerodynamic efficiency ensures more stable handling, particularly in high-speed corners.

Optional vehicle functions such as ABS or traction control are already stored in the car’s onboard ECU. They can be activated via a digital code. In the Porsche Carrera Cup North America as well as the Porsche Mobil 1 Supercup, the majority of these driving aids are switched off in the professional classes. The focus of Carrera Cup and Supercup is on the talent of the drivers not the race car.

While the rear axle in the new Cup car essentially remains unchanged compared to the production 911 model, the front wheels are now controlled by a double wishbone suspension and Uniball bearings – like in the Porsche 911 RSR, the top racing model in the Porsche lineup. Through this, the shock absorbers/dampers are no longer exposed to lateral forces, only axial forces. This ensures more precise turn-in behavior and gives the driver a better feeling for the front axle. The shock absorbers have also inherited the cutting-edge valve technology from the Porsche 919 Hybrid LMP race car and 911 RSR. Fully electro-mechanical power steering has been introduced into the Porsche 911 GT3 Cup for the first time this year as well. While the car remains true to its Porsche roots in feel and performance, drivers who have experienced even the most recent generation of “Cup car” will have to adjust to the new, more precise handling of the newest generation. This puts a premium on the first test session at the fast, and bumpy, central Florida race course.

In terms of the engine, the 911 GT3 Cup remains true to the naturally-aspirated principle. In its racing version, the four-liter, water-cooled flat-six engine develops 510 hp (375 kW). The engine is connected to the sequential, six-speed gearbox with gear changes being made via a paddle shift on the steering wheel.

Entrants will take delivery of their new Porsche 911 GT3 Cup race cars beginning February 19. To help maintain a level playing field for all customers, regardless of their designated delivery slot, teams will not be allowed to test the cars on track prior to the Porsche Motorsport North America-managed Sebring test on March 8. To learn more, please visit www.PorscheCarreraCup.us

Porsche Redesigned the 911 RSR for 2019

Improving a Car That’s Already Excellent

The Porsche 911 RSR is a car that has won more than 20 FIA World Endurance Championship races. Porsche hasn’t decided to rest on its laurels, though. The company didn’t even want to make evolutionary changes to its winning racecar. Instead, it replaced 95 percent of the car with all new components and parts, making the 911 RSR better than ever before. 

In the last 911 RSR, the major design change was from a rear to a mid-mounted engine position. That change remains in the new car. What also remains is the headlights, brakes, clutch, driver’s seat, and a few other small parts in the suspension, according to Car Throttle. Everything else is all-new. 

The engine grew to 4.2-liters, and now the naturally aspirated flat six-cylinder makes a strong 507 hp, which is up slightly from 503. The engine also has a wider rev band, and better power delivery and control. The transmission is a six-speed sequential constant-mesh manual gearbox.

There’s also a multi-disc, self-locking differential. Power goes to the rear wheels. The exhaust pipes have been rerouted and shorted, helping reduce weight. Porsche also reworked the exterior of the car and says it’s more aerodynamic than it has ever been before. If the old car won more than 20 races, you can bet that this one will win even more. 

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Porsche 718 Cayman GT4 Clubsport R-GT Rally Car Confirmed

It Should Come in 2020

Porsche had a concept rally car based on the GT4 Clubsport racing car. At the time the company showed it off, it made it clear it was just a concept. Well, now Porsche will build a production 718 Cayman GT4 Clubsport R-GT Rallye. It should be ready for the rally race track in 2020. 

The company decided to actually make a rally car after the concept was well received at an ADAC rally race in Germany. Porsche said the response to the car was very positive. The concept was based on the old version of the Cayman GT4 Clubsport, but the production car will be based on the new 718 Gayman GT4 Clubsport that we previously covered. 

That means the rally car will get a 3.8-liter flat-six engine making 425 hp. The car comes with a 6-speed PDK transmission, sending all of the naturally aspirated engine’s power to the rear wheels. The car gets several body panels with natural fiber materials to keep its overall weight down. 

Porsche’s new rally car will compete in the FIA R-GT class. It’s a class designed for two-door cars based closely on street-legal sports cars. The cars also must have a power to weight ratio of 7.5-pounds per horsepower. That means the new Porsche rally car should compete with vehicles like the Aston Martin Vantage, Porsche 997 GT3, and Fiat 124 Abarth in the World Rally Championship, according to The Supercar Blog

Porsche says highlights of the racing class include the famous Monte Carlo Rally and the stages on the Mediterranean island of Corsica. Even if Porsche wasn’t actually racing the car, I’d watch it drive along those iconic stretches of road. The fact that the car is competing and will likely be a force to be reckoned with is icing on the cake. 

2018 Porsche 911 RSR – Porsche’s Mid-engined 911 Race Car

However, the allocation for MY2018 units was already spoken for before this calendar year – all 6 of them, each costing $1.18 million USD. Even Porsche’s head of Motorsport, Dr. Frank Walliser, has been surprised by the level of public consumer demand for the car – so much so that in mid-2017, Porsche decided to make the car available for purchase through its Customer Motorsport Program. Prior to this, the allotment was restricted to factory racing teams.

The Porsche 911 RSR is a special looking car, but despite its extreme enhancements, its visual profile remains undeniably 911. To understand what truly differentiates this 911 from any other, you would have to look at the engine bay – not so much what’s in it, but where it is.

The RSR is the only 911 to have its engine sitting in front of the rear axle, effectively making this a mid-engined car. Dr. Walliser goes on to remark, “While retaining the typical 911 design, this is the biggest evolution by now in the history of our top GT model”.

Repositioning the flat-six engine is considered an essential design element in ensuring the car remains competitive in its GTLM racing class. Apart from its more centralized weight distribution – effectively reducing tire wear at the rear wheels – the new engine placement also allows for the use of a massive rear diffuser and top-mounted rear wing, which significantly improves aerodynamic efficiency over rear-engined iterations.

As Porsche customers and enthusiasts, perhaps what we should be most looking forward to is a street-legal version of a mid-engined 911 in the future. It could be the makings of something as controversial as it is exciting, and Porsche has a strong track record of sharing its race-proven technologies with its production models.

Engine

While some purists may be tentative about the idea of a mid-engined 911, they will feel more at ease about the fact that it remains in every other sense, more familiar. The 4.0L naturally aspirated boxer engine produces 510-horsepower (depending on size of restrictor) and revs all the way up to its 9,500 rpm redline – imagine a 911 GT3 engine on steroids.

It also features a water cooling system, direct fuel injection, a dry sump lubrication system and four valves per cylinder.

Chassis & Design

Mated to the engine is a six-speed electronic sequential gearbox which is cased in magnesium, and is operated using steering wheel mounted paddle shifters.

The car is also fitted with a myriad of devices and equipment to meet or exceed safety regulations. A radar-supported collision warning system dubbed ‘Collision Avoid System’, proactively alerts drivers to potentially dangerous situations involving other vehicles – particularly useful when dealing with traffic that includes faster prototype cars. The safety cage has been redesigned, along with a rigidly-mounted racing seat fixed to the chassis.

The 911 RSR weighs just 1,234 kg with its full arsenal of wider haunches, 13-inch-wide rear wheels and a massive rear diffuser and rear wing. Entire sections of its carbon fiber panels can quickly and easily be replaced thanks to the clever use of quick-release mechanisms. Changes to the suspension setup can also be performed on short notice.

All technical specs can be found on Porsche’s official website.

Photo Gallery

Videos

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Greatest Porsche Race Cars Ever

Definitive List of the Best Racing Cars Porsche Has Ever Raced

Clearly this is Porsche month for us. First we wrote about all the wonderful 911s you can buy today, then we took on the best non-911 Porsche’s before tackling the hardest one, the greatest 911s in history. Now it is time for Porsche race cars and boy was this one tough. Lots of automakers like to brag about how their “racing heritage” informs their production vehicles, but nobody does it like Porsche. Their history in motorsports is unequaled and the machines they have made have won thousands of races over the years. Porsche has had success in Formula 1, Le Mans, Daytona, Nurburgring, GT Racing, Rally and much more.

Porsche started racing with lightweight versions the 356 but things really took off with the “giant killer” 550 Spyder. Dedicated race cars like the 550, 718, RS, and RSK models were the focus of Porsche’s race program through the mid-1960s.

Porsche first expanded its 8 cylinder flat engine to 2.2 liters in the 907, then developed the 908 with full three liters in 1968. Based on this 8 cylinder flat engine the 4.5 liter flat 12 917 was introduced in 1969. The Porsche 917 is considered one of the most iconic racing cars of all time and gave Porsche their first 24 Hours of Le Mans win. The 917 went on to destroy the competition in the cutthroat Can-Am racing series.

Porsche has had success with 911 racing variants since the beginning of that models history, winning the Monte Carlo rally. In the 1970s Porsche won the Targa Florio, Daytona and Sebring with the Porsche 911 Carrera RSR. The 911 also went on to win Le Mans in 1979 in the Porsche 935. Since then the 911 has campaigned both by Porsche and by privateers in thousands of motorsports series with great success. Even today, Porsche churns out specific racing models that enthusiastic buyers can snap up and drive in global races in addition to its formal race programs it competes in. Recent success in LMP1 with its Le Mans winning 919 Hybrid shows that Porsche can still mix it at the top.

In celebration of that history we pick the best racing cars Porsche has ever produced and tell you all about them. But first a primer on Porsche and racing.

A Primer – Porsche’s Start in Motorsports

Porsche has a long history and its illustrious racing and motorsport heritage is a big part of that story. You name the motorsports venue and series and there is a good chance Porsche has competed and and had success. 24 Hours of Le Mans, Rally racing, Formula 1, Indy, Carrera Cup (clearly) and much more.

It all started pretty early for Porsche. Because of his work with Lohner, Ferdinand Porsche was commissioned by Daimler to design a car that could be used to compete in the Prinz-Heinrich-Fahrt (the Prince Henry Trial.) While several designs were presented, Ferdinand’s model – the 22/80 PS – was selected to represent Austro-Daimler in the race. When the 22/80 PS finished in the top three spots of the Prinz-Heinrich endurance race event, the car was christened as the “Prince Henry”.

Then from 1925 to 1927 Porsche designed the 2-liter, 8-cylinder Mercedes Type S that won 21 of 27 races in the “Regenmeister.” The car was said to be almost unbeatable. This success led to Porsche being contracted to design a series of race cars (and the engines that powered them) that were to be driven in the Gran Prix of Germany. Known as “The Great Auto Union Project,” the development of the race car would keep the young Porsche engineering firm busy through most of the 1930’s.

In 1933, the governing body of the Grand Prix Circuit announced a new racing formula. Both Ferdinand and Ferry set to work on designs that would meet the new 750kg formula regulation. The early result of this effort was an experimental vehicle known as the P-Wagen project.

In 1946, Piero Dusio, an Italian soccer player, businessman and racing driver, approached the firm to design a new Grand Prix race car. Ferry recognized that this might be the opportunity he’d been seeking to free his father from prison. Dusio gave the Porsche firm just 16 months to complete the car. Dubbed the Porsche Type 360 Cisitalia, the Grand Prix racer featured a supercharged, mid-mounted, 1.5 liter flat-12 cylinder engine that produced 385bhp at 10,500rpm. It was paired to a complex four-wheel drive transmission assembly. It never advanced beyond the testing phase, due mostly to the limited timeframe in which the car was to be completed so that it could compete in the Grand Prix circuit. Despite this, the car was also the first ever to bear the “Porsche” name.

The rest as they say is history. Now, onto the cars.


Best Porsche Racing Cars

porsche 917

porsche 917

Porsche 917

Porsche first expanded its 8 cylinder flat engine to 2.2 liters in the 907, then developed the 908 with full three liters in 1968. Based on this 8 cylinder flat engine the 4.5 liter flat 12 917 was introduced in 1969. The Porsche 917 is considered one of the most iconic racing cars of all time and gave Porsche their first 24 Hours of Le Mans win. The 917 went on to destroy the competition in the cutthroat Can-Am racing series.

Few race cars have attained the same notoriety as the 917. It was dangerously quick and also reliable enough to win Porsche’s first overall victory at Le Mans in 1970. The feat was repeated in 1971 and the 917 has now become an icon of Porsche performance.

It’s true that Porsche took their most daring step forward with the 917, but it followed a long and progressive development of sports racing prototypes. Leading up to the 917, Porsche and Ferdinand Piëch had made very successful sports race cars limited to the smaller classes. These included the 904 Carrera GT, 906, 908, but they were often slower than the GT40 and Ferrari Prototypes which would take overall victory.

In April 1968, the CSI reduced the minimum required production for sports car homologation from 50 to 25 cars. This caught the attention of Piëch who considered a new sports prototype that could win Le Mans. The 908 fit well within the new 3.0 liter prototype class, but it was the 5-liter sports car class known as Group 4 which caught their attention. In it were the V8-powered Lola T70 and Ford GT40 MKI which were very capable of outright victories. Porsche decided the only way to win the World Sports Car Championship was to build 25 copies of a 5-liter prototype that would meet the minimum homologation requirements to qualify as a sports car.

Porsche started their long 917 race program in 1969 with a series of 25 identical cars that were upgraded throughout their career. The first major modification was a stability upgrade that came in 1970 with the 917 Kurzheck or short tail. Simultaneously a long tail ‘Langheck’ model was made for top speed down the Mulsanne Striaght.

After Porsche had won Le Mans twice with the iconic 917 Kurzheck, the engineers at Weissach started experimenting with Can-Am versions and this 917 16-Cylinder Prototype was one of their first test mules converted, turning it into a Group 7 contender that had over 1000 bhp by 1973. As a result the L&M Porsche+Audi 917/10 of George Follmer and Penske won the 1972 Can-Am Championship ahead of the typically dominant McLaren team.

For 1973, Valentin Schäffer had completed the 5.4-liter engine which produced considerably more power at 1100 bhp at 7800 rpm. Later, the 917/30 went on to dominate in the 1973 CanAm with the top four places in the final points being taken back to Stuttgart and Porsche factory driver, Mark Donohue, setting a closed circuit record of 222 mph (355.85km/h) around the Talladega Oval, Alabama. A time that still ranks as one of the fastest race laps ever.

This is definitely the most important race car in Porsche’s history.

More: Porsche 9171969 Porsche 917 story

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Porsche 550 Spyder

From 1953 onwards, Porsche began to use a car specifically designed for motor racing, which was to have a long history of spectacular successes: the 550 Spyder. In technical terms, the mid-engine Roadster was distinguished by its lightweight yet rigid flat frame made from steel tubing and a streamlined and stylish monocoque body. The 550 Spyder won its very first race at the Nürburgring in 1953. Particularly in the “land of opportunity”, the lightweight Spyder was a great asset both on the road and on the track in the 50s. In 1954, it won its class at the Carrera Panamericana in Mexico.

The mid-engine sports car was later equipped with a space frame and received the A designation for even greater power and driving pleasure and became an out and out racing car. The new 550 A Spyder made its racing debut at the 1000-kilometre race at the Nürburgring. But the biggest success of all came in Italy where, at the Sicilian Targa Florio in 1956, Umberto Maglioli beat the Ferraris and Maseratis to the finish line. That was the first of 11 Porsche victories in what was probably the most demanding race of its time.

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Porsche 718Porsche 718

Porsche 718

Porsche started racing with lightweight versions the 356 but things really took off with the “giant killer” 550 Spyder.  Dedicated race cars like the 550, 718, RS, and RSK models were the focus of Porsche’s race program through the mid-1960s .

We chose the 718 over the 550 Spyder due to its amazing results. Successor to the 550 Spyder the 718 was one of Porsche’s most successful race cars in the early years. With its flat-four motor the small and light 718 continued the “giant killer” reputation of the 550 Spyder. Unlike the heavy and powerful v12 Ferrari’s that the 718 raced, the Porsche was light, nimble and very rigid, easily allowing it to win its share.

The car was commonly referred to the RSK and came in a number of set ups in order to compete in different motorsports series. There was the RS60 with 160hp and updated suspension that ended winning the 12 Hours of Sebring and the Targa Florio. The RS61 was basically just an updated RS60. The W-RS upped engine size to 2 liters and went from the initial 4-cylinder to bigger flat-8 with power jumping to 240 hp. While the W-RS could only manage 8th at Le Mans it did win the European Hill Climb Championship. There were even three 718 cars entered into Formula 1 in 1961 (before Porsche switched to the 904 for F1 duties).

More: Porsche 718

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Porsche 904

The 904 was a racing car built to satisfy the FIA’s definition of a GT car and started a trend which would motivate Porsche to manufacture sports prototype cars.

Expertise gained while racing and developing the 550 and RSK (718) Porsches laid the foundation for the 904. After two fledging years of Porsche Grand Prix racing they decided to abandon Grand Prix Racing in 1962 and focus on sports car racing and thus the 904. As the FIA demanded one hundred examples had to be produced to meet homologation, the 904 was designed as a customer car with a full interior including a heater.

Originally, the chassis of the 904 was designed to accept a number of engines and specifically the flat-6 from the upcoming 901 or 911 as we know it. It was the familiar mid-engine layout with the type 587/2 engine found in the Abarth Carrera being used. This was Porsche’s most famous engine at the time, featuring all-alloy construction, two spark plugs per cylinder and over-head cam shafts. They increased horsepower from 155 to 180 at 7200 rpm. Optionally, Porsche offered the type 771 eight-cylinder engine with the 904. It was again a two-liter engine, but offered 210 horsepower.

Since as many as one hundred and twenty 904s were sold to varying customers, the car competed in numerous hillclimbs, endurance races, sprints and rallies. The car would compete in the two-liter class against competition such as the Abarth Simca 2000 and Alfa Romeo Guila Tubolare Zagato.

As highlight to start of the 904’s race career it took outright victory at 1963 Targa Florio. During the 1964 season, Porsche was unchallenged in their class, winning the two liter manufacturer’s championship. For the 1965 season Porsche modified the 904 to include more horsepower, wider racing tires, larger brakes and lighter fiber glass. It is also worth mentioning that during the 1965 season a variety of engines were used in the car including the flat-eights and the flat-sixes. Again, Porsche took the class wins at the majority of the 1965 events.

More: Porsche 904

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Porsche 935/77

From 1977 into the 1980s, Porsche 935s were the popular choice in Group 5, GTP, and GTX racing both in Europe and North America. Later versions were made by Kremer, Joest, Gaaco and Fabcar left little room for any challenge to Porsche dominance. The culmination of these efforts resulted in a first overall at the 1979 24 Hours of Le Mans. The 935 was initially offered as version of their 935 for private racing teams that raced alongside the technically superior Martini-sponsored factory cars. These were based of the 1976 the Porsche Carrera RSR 2.1 Turbo which contested the 24 Hours of Le Mans in 1974 provided a basis for the 935.

Due to the more relaxed Group 5 regulations, engineer Norbert Singer could drastically alter the outer-bodywork of the standard 930 unitary steel monocoque. This allowed for much larger fender flares and a huge rear wing. Half way through the 1976 season, Porsche relocated the front headlights to the Flachbau or flatnose design.

The design retained the 930 Turbo bodyshell which was stiffened by an aluminum roll cage. The attached front and rear sections were made from fiber-glass and 5-inch wheel arches were fitted covering 15-inch tires in the rear. Plexiglass windows and other lightweight construction meant that the car was produced 90 kg underweight which was offset by ballast.

Using the 1.4 equivalency factor given to turbocharged engines, Porsche could assemble a 2.9-liter engine that fit well within the 4-litre restriction. To offset the smaller displacement, a huge KKK turbocharger was fitted which helped the 2808cc flat-6 produce close to 600 bhp. This number varied depending on the boost which ranged from 1.35 and 1.55 bar.

The engine used dual-ignition, a 908-style fuel pump, plunger-type fuel injection and spraybar lubrication. Consumption was rated at 4.38 mpg.1 A knob on the dashboard controlled the boost which could vary the power from a reliable 550 bhp to 650 bhp in sprint mode. Some private teams opted for the larger 2994cc engine which raised power to 630 bhp but they were forced to carry 122 extra lbs of ballast.

The suspension and wheels were also drastically upgraded including coil springs, adjustable anti-roll bars, and larger ventilated discs. Naturally, the car was completely stripped and Porsche managed to reduce weight to 900 kg. With ballast the car could then meet the required 970 kg formula.

Porsche offered the car again in 1978 (see below) with the twin-turbocharged specification and running boards as on the factory team cars. That year IMSA champion was Peter Gregg driving the Brumos Racing 935. The World Championship of Makes was secured by the 935 after winning 7 rounds. The German Nation Championship was also contested by 12 separate 935s of which the Gelo-entered cars were fastest.

More: Porsche 935

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Porsche 935/78 ‘Moby Dick’

Due to its wide long-tail body, the Porsche 935/78 was also known as Moby Dick. It was the most powerful 911 ever. The culmination of the 935 development story was the 935/78 of 1978.  The 935/78 was the ultimate expression of the 911 factory race car before Porsche officially withdrew from motor sport. Raced under the Group 5 silhouette series, great liberties were taken with the design.

The 935/78 was built under Porsche’s Chief Racing by Norbert Singer for high speeds at Le Mans. Due to the advanced shape of the car 227 mph or 366 km/h was possible. To achieve this, both the front and rear end were redesigned with detachable panels that could reveal what little was left of the production unitary steel monocoque with new aluminum sub-frames. The design even went as far as replacing floor and lowering the car 75 mm.

The engine had to use production car internals, but the cylinder-heads were open for modification. For the first time in the history of the 911 the engine came with water-cooled cylinder heads featuring four valves per cylinder. Maximum output of the turbocharged 3.2-litre six-cylinder with four overhead camshafts was 845 bhp at 1.7 bar of boost. At the standard 1.5 bar, 750 bhp was possible.

The rear end of the car was completely new. Radiators that cooled the cylinder heads were mounted just ahead of the rear wheels and a massive adjustable rear wing was fitted above the engine. With a firm eye on Le Mans, Porsche sat out most rounds of the Championship except the Silverstone 6 Hours. There, Jochen Mass and Jackie Ickx won outright with a large margin over the nearest competition.

At Le Mans, only a single car was entered for the 24-hour race. It set the fastest lap among several specially-built prototypes. Rolf Stommelen and Manfred Schurti did the best they could despite engine troubles and brought the car home to eight overall. Porsche used the car only twice more before retiring it as a permanent fixture in their Museum. In later years Reinhold Joest and Kremer each made their own versions of the Moby using the factory blueprints.

More: Porsche 935/78 ‘Moby Dick’

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Porsche 911 RSR 2.14 Turbo

The RSR was a milestone moment for Porsche. It was the first turbocharged racing 911, one that took part in the FIA’s Group 5 category for the 1974 World Championship for Makes and came 2nd overall at the 24 Hours of Le Mans. Just look at this thing and it is clear that Porsche was nuts (which we totally love).

While Porsche had success early on with small and powerful engines, is was really the RSR that showed just how successful a small-capacity turbocharged engine could be in a standard race car. The 917/30’s success drove Porsche to turbocharge more stuff and Porsche had decided to launch the new 911 Turbo in 1975/ Porsche wanted to prove the abilities of a turbocharged 911 in competition. To do so, they created the Porsche 911 Carrera RSR Turbo 2.1. Thanks to the FIAs requirements for a smaller than 3 liter engine for Group 5 cars, Porsche decided on a 2.14 liter flat-six and then added to monster KKK turbochargers to it.

Thats not all either, because this motor had magnesium crankcase, polished-titanium connecting rods, large-capacity oil pumps, a twin-plug ignition, Bosch mechanical fuel injection, and sodium-cooled intake valves (space aged stuff at the time). The result was 500 hp at 7,600 rpm and 405 lb-ft of torque at 5,400 rpm (in 1974). The RSR would wear fiberglass fenders, doors, front and rear valances, and front and rear decklids — all engineered for weight-savings — and tubular framing supported the engine and suspension.

Porsche extensively tested the car at the Le Mans trails and found it was 11 seconds faster than a 3.0 RSR. Four cars were made for the 1974 season and they debuted at the Monza 1000km.

Only four RSR Turbos were ever built (“R5,” “R9,” “R12,” and “R13″) and they all wore the now famous Martini livery. Unfortunately, the 2.14s had to race in the prototype class along with the Matra-Simca MS670C, Gulf Mirage GR7 and Alfa Romeo 33TT12. Despite the tough company, the Martini & Rossi-livered cars managed second place finishes at the Watkins Glen 6 Hours and the 24 Hours of Le Mans.

More: Porsche RSR Models, 1974 Porsche 911 Carrera Turbo 2.14

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Porsche 911 GT3 R Hybrid 2.0

This hybrid race car is no Prius. Porsche decided to work with the Williams F1 Team to develop hybrid tech that it could use to go racing. They essentially took the F1 kinetic energy recovery system (KERS) (but used kinetic energy stored in a flywheel rather than batteries) to create the epic GT3-R with its two electric motors assist.

The electric motors added 218 hp to the front wheels to supplement the 470 hp four-liter flat-six engine at the rear. The 911 GT3 R Hybrid was a game changer and that was clear when racing bodies at the time didn’t know how to classify the car.

Compared to its predecessor the second-generation hybrid is our pick. It was 20 percent lighter and more efficient. The GT3 R Hybrid 2.0 features a monocoque body of hot-galvanized steel with a welded roll cage. Body panels are carbon fiber and there are lightweight polycarbonate windows on all sides, including the front windshield. At each corner is a height-adjustable suspension with dual coil springs and Sachs gas-pressure fixed-position dampers. The steering rack is power-assisted, with an electro-hydraulic pressure feed.

With a curb weight of just 2,866 pounds and a total system power of 672 horsepower, the all-wheel-drive Porsche GT3 R Hybrid 2.0 will accelerate to 60 mph in about 2.5 seconds. Its top speed is gearing limited to about 175 mph but that doesn’t seem to be an issue when racing. In September 2011 it impressed everybody when it competed in an exhibition class during an American Le Mans Series (ALMS) race at Laguna Seca. Starting last it outran the entire GT class.

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Porsche 919 Hybrid wins lemans

Porsche 919 Hybrid wins lemans

Porsche 919 Hybrid

Porsche had not tasted overall victory at Le Mans since the Porsche 911 GT1 in 1998. This is probably due to the fact that Porsche was spending its time toiling away with GT cars and specifically the GT3 and the LMP2 RS Spyder. Porsche tasted victory and won major races overall during the period. In 2014 that all changed when Porsche returned to the top-tier LMP1 class. It wanted outright Le Mans victory. .

This was an advanced and unique race car. The 919 has a 2-liter turbocharged four cylinder gasoline engine with direct injection and two energy recuperation systems and a battery-based hybrid system.

The car made its competitive debut at the 2014 6 Hours of Silverstone, finishing third behind Toyota. At Le Mans that same year a series of unfortunate issues meant Porsche had to go back to the drawing board.

Enter the 2015 season and the car was 90% different according to Porsche. The 919 achieved pole positions in Spa and Silverstone before finally picking up a pole at Le Mans. and win at the 24 Hours of Le Mans. After Le Mans it won the five remaining races of the season.

Porsche won the 24 Hours of Le Mans that year (2015) and continued to dominated the LMP1 category until retiring the car in 2017. The Porsche LMP1 program won the 2015 FIA World Endurance Championship, won the 2016 Le Mans race and capped off the streak with overall victory in 2017 too.

More: Porsche 919 Hybrid

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porsche 911 gt1 98

porsche 911 gt1 98

Porsche 911 GT1 98

If we are talking about Le Mans legends surely we need to include the Porsche 911 GT1 on our list of awesome Porsche race cars. With its carbon monocoque chassis, extreme aerodynamics and mid-engined layout, the Porsche 911 GT1-98 won Le Mans (Porsches 16th overall victory) and cemented its place in history.

When the 911 GT1 was unveiled in 1996, Porsche exploited the rule book and rather than develop a race version of one of their road going models, what they created was effectively a purpose built sports-prototype. The production version of the GT1 was then created to homologate Porsche’s 911 GT1 contender. The street version was known as the ‘Strassenversion’ and is considered the most fierce and rarest 911 ever.

The high-tech GT1 made its debut at the 1996 Le Mans and was a technical masterpiece. Both new Porsche 911 GT1s showed reliability and speed, achieving second and third place. For the 1998 season Porsche developed an all-new car, the 911 GT1-98. Its aim was to match the new Toyota GT-One and Mercedes-Benz CLK-GTR. Unlike the previous two models, the 98 version had a more traditional sports-prototype look about it.  The GT1 from 1998, weighing only 950 kg, was the first Porsche racing car to feature a carbon-fibre monocoque chassis. The 3.2-litre engine with dual KKK turbochargers produced 550 hp at 7,200 rpm. The power is transmitted to the rear wheels via a sequential 6-speed transmission.

At Le Mans in 1998 troubles with the other top runners from Toyota, BMW and Mercedes meant that while slower, the 911 GT1-98 did enough to take both first and second place overall. This gave Porsche its record-breaking 16th overall win at Le Mans, more than any other manufacturer in history.

More: Porsche 911 GT1 (race cars), Porsche 911 GT1 (production)

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Porsche 936 Spyder

Porsche 936 Spyder

Porsche 936 Spyder

In 1976 Porsche decided to participate in the World Sportscar Championship (Group 6) and developed the 936 Spyder as a result. In record time the race engineers developed a new race car in the Type 936 which was to start alongside the 935 production race car.

Technically, the development of the open Spyder car took its orientation from the proven 908/03 and 917/10 designs. The result was an aluminum tubular frame covered by an aerodynamic plastic body. The car was powered by the 2.1-liter flat-six bi-turbo engine from the 911 Turbo RSR with an output of 540 hp (397 kW). A typical feature of the two-seater turbo racing car was the large air intake above the cockpit and the high tail fins.

The Porsche 936 Spyder was a success. The first race-worthy Porsche 936, called the ‘black widow’ within Porsche because of its matte black body, conducted tests in the second half of February on the southern French race course in Le Castellet. After 4 of the 7 races in total, the Sports Car World Championship had already been decided in favor of Porsche. The 936 Spyder won all its races against the works Renault Alpine.

Participation in the Le Mans 24 Hours was rewarded in June 1976 with a convincing overall victory to Jacky Ickx and Gijs van Lennep. In 1977, Porsche returned to Le Mans with the 936/77. Its body was smaller, lower, shorter and further refined aerodynamically. The engine now featured two turbochargers and delivered 20 more horsepower. At one of the most dramatic races in history, Jacky Ickx, Jürgen Barth and Hurley Haywood slayed the armada of four Renault works cars and two factory-supported “Mirage” with Renault motors. In the year 1981, the 936 celebrated a sensational comeback with another overall Le Mans victory.

More: Porsche 936

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Porsche 956 C

The 956 (and 962 that followed) were arguably the most dominant Porsche endurance racing cars ever. Introduced to comply with the FIA World Sportscar Championship’s new Group C regulations in 1982, the 956 was brutally fast and horrifyingly dangerous. Group C was a technical battleground involving the lowest possible road resistance, the most fuel-efficient engines and extreme power transmission. The 956 was the first Porsche racing car with a monocoque chassis and the so-called ground effect. The effect means that when racing, the cars practically stick to the asphalt. The engineers channel the air flows to generate a vacuum to create a downforce beneath the car.

The 1982 at Le Mans the Type 956 took the top three places. The lack of any real competition in 1982 practically handed them the championship, but due to their tremendous team, and the newly developed Weissach facility, Porsche turned the 956 into a customer prototype that would rule motorsport for a decade. Victories in every race of the World Endurance Championship as well as the win in the Manufacturers’ World Championship in 1983, 1984, and 1985 underscore the dominance of the 956. Add the 962 to the mix and between 1982 and 1987, the Porsche 956 and 962 won Le Mans six times.

The 956 was meant to replace the all dominant Porsche 935 and 936. When designing the prototype, Porsche decided to use the flat-6 which had proven itself, powering the 936 to victory at Le Mans. Around this engine Porsche focused on building a car that was above all, aerodynamically efficient, and to do that ground effects were employed. The secret to the race car’s success lay in this perfect interaction of the aluminum monocoque, the efficient turbo engine, and revolutionary aerodynamics, which put the 956 in a class of its own for several years running. It was the first Porsche race car with an aluminum monocoque chassis and ground effects. On a related note: the 956 saw the first appearance of the Porsche Doppelkupplung (PDK).

To tackle the FIA’s fuel restrictions, Porsche decided to rely on turbocharging which offered superior power output that could be adjusted to control fuel consumption by means of a waste-gate. This meant that at any given time, the fuel consumption could be adjusted, with corresponding power outputs from 580 bhp @ 17psi boost to 620 bhp at 14psi boost. Typically, drivers would lower the waste-gate level after they had run on maximum boost to gain top positions in the race

In addition to factory team cars, Porsche built additional 962C cars for privateers to campaign. The wins continued to pile up: victories in all races at the World Endurance Championship and at Le Mans, the Constructor’s World Championship for Porsche in 1983, 1984 and 1985, victories and championship titles in German and Japanese championships underscored the class and dominance of this racing vehicle. In design terms, the 956 represented a milestone for Porsche racing development and set new records in sporting competition.

Anticipating the FISA (Fédération Internationale du Sport Automobile) regulations due to come into effect in 1987, Porsche began developing the 956 into the 962 starting in 1984.

More: Porsche 962, Porsche 956

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Porsche 908

In the late sixties, Ferdinand Piëch wanted Porsche at the top of motor sports and the 908 was his answer. In facing the best that both Ferrari and Ford could produce, it sparked a new generation of Porche prototypes that led to their most successful era. For the first time, Porsche completed in all the championship races with hopes of overall victory. This new era began when the 908 Coupés supported the much smaller 907 mid way through the 1968 championship season.

The 908 was the first car built for the CSI’s prototype Group 6 class that limited engine capacity to 3 liters. In 1968 the only competition came from the JW Engineering Ford GT40s which won Le Mans and the championship. The 908 prototype was named after its eight-cylinder, flat-6 engine. Driven by some of the best drivers, the 908 had a successful career in 1968/69 that included wins at the SPA-Franchorchamps 1000km two years in a row. Under continual development, the design was modified and raced as the 908/2 and 908/3 Spyder for tighter tracks.

Porsche achieved its first overall victory at the 24 Hours of Daytona with the Type 908 LH. The grand successes of the previous year at the 1,000-kilometre race on the Nürburgring and the Targa Florio are repeated. The 911T wins the Monte Carlo Rally.

At the end of 1967, when the displacement limit for prototypes in the Constructor’s World Championship was reduced to 3 litres of displacement (homologated Sports Cars were allowed 5 litres), the 908, with its new 350-hp eight-cylinder engine, could be raced in the long or short-tail version depending on track and competition.

More: Porsche 908

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Porsche 959 Rally

The technologically pioneering Porsche 959 was presented at the IAA in 1985. Only a limited production run of 292 units of this high-performance sports car, based on the 911, were built. With a biturbo flat engine with water-cooled 4-valve cylinder heads, an electronically controlled chassis and all-wheel drive system, as well as an aerodynamically optimised body, Porsche showed what was possible in the field of automotive design.

As part of an extensive road testing programme, the 959 was taken to the desert. The motorsport department at Weissach built a version specifically designed for the Paris-Dakar rally in 1985. Porsche entered three 959s in the race. Power was transmitted to all four wheels via a 6-speed transmission and a pioneering, electro-hydraulically controlled centre differential. The 959 featured a 330-litre fuel tank. Like the 911 which won Paris-Dakar in 1984, a synthetic body made the vehicle considerably lighter; the 959 weighs 1,260 kg. First place in Dakar went to René Metge followed by Jacky Ickx – A double victory for Porsche. Kussmaul brought his 959 to the finish in West Africa in sixth position. On the journey through the Sahara, the Porsche vehicles reached speeds of up to 242 km/h.

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Porsche 919 Hybrid Evo – How to Go Faster Than a Formula 1 Car

On April 9, 2018, Porsche announced1 that its Le Mans-winning LMP1 car set a new lap record of 1:41.770 at the legendary Spa Francorchamps race track in Belgium, with Swiss racing driver Neel Jani behind the wheel.

The previous record belonged to Lewis Hamilton’s Mercedes-AMG F1 car, which achieved pole position in the 2017 Belgian Grand Prix with a time that is 0.783 seconds slower than the Porsche.

With the car retiring after the 2017 LMP WEC season, the Porsche team decided to throw it a truly memorable send-off. Freed from any restrictions brought upon by strict regulations in the class it competed in, Porsche threw out the rulebook and established a new benchmark.

Amongst the notable parting gifts was a significant horsepower bump, increasing the turbo V4 to 720 horsepower from 500 horsepower. Additionally, the electric motor received a 10% boost, now generating 440 horsepower. In total this gave the 919 a remarkable 1160 horsepower.

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In order to fully utilize the overall 28% increase in horsepower, Porsche gave the car a significant facelift, adding active-aero pieces which can generate up to 53% more downforce than the previously shackled version. Higher performance Michelin tires and weight reduction were also part of the program, effectively birthing what would become an F1 destroyer.

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Porsche has suggested that the party is just getting started, with plans to run the car at other famous tracks such as the Nürburgring Nordschleife, Brands Hatch, and Laguna Seca. We look forward to following the car’s progress as it continues its “919 Tribute Tour”.

Performance and Specifications Summary

<td data-sheets-value="{"1":2,"2":"720 PS, rear axle (

720 PS, rear axle (< 500 PS)
Monocoque:
Composite material structure consisting of carbon fiber with an aluminium honeycomb core. The cockpit is closed.
Combustion engine:
V4 engine (90-degree cylinder bank angle), turbocharged, 4 valves per cylinder, DOHC, 1 Garrett turbocharger, direct petrol injection, fully load-bearing aluminium cylinder crankcase, dry sump lubrication
Max. engine speed: ≈ 9.000/min
Engine management: Bosch MS5
Displacement:
2.000 cm3 (V4 engine)
Output: Combustion engine:
MGU: 400 PS)”}”>

440 PS, front axle (> 400 PS)
Hybrid system:
KERS with a motor generator unit (MGU) mounted on the front axle; ERS for the recuperation of energy from exhaust gases. Energy storage in a liquid-cooled lithium-ion battery with cells from A123 Systems
Drive system:
Rear-wheel drive, traction control (ASR), temporary all-wheel drive at the front axle via the electric motor when boosted, hydraulically operated sequential 7-speed racing gearbox
Chassis:
Independent front and rear wheel suspension, push-rod layout with adjustable dampers and Pitch Link System with actively controlled lockout system (no actively controlled lockout system in the 919 WEC version)
Brake system:
4-wheel brake-by-wire system (front-rear brake-by-wire system), monoblock light alloy brake calipers, ventilated carbon fibre brake discs front and rear.
Special:
Variable control of wheel torques to optimize the car balance (variable control of torque distribution front to rear)
Wheels and tires:
Forged magnesium wheel rims from BBS; Michelin Radial tires, front and rear: 310/710-18
Weight:
849 kg (888 kg including driver ballast)
Length:
5,078 mm (4,650 mm)
Width: 1,900 mm
Height: 1,050 mm
Fuel tank capacity: 62.3 liters

Just How Fast is the Porsche 919 Evo Hybrid, Exactly?

Prior to the new lap record set by the Porsche 919 Hybrid Evo, the Top 10 times2 at Spa Francorchamps all belonged to F1 cars.

To provide some perspective on how fast these machines truly are, relatively common street-legal production supercars only start appearing down the list at around the 2:40 lap time mark. This means that blisteringly fast road cars such as the Porsche 911 GT3 RS, McLaren 675LT and Nissan GT-R – cars that turn our heads as they pass us on a city street – are a full minute slower than the Porsche 919 Hybrid Evo.

For a comprehensive list of the fastest lap times recorded at Spa Francorchamps, follow the link below:

http://fastestlaps.com/tracks/spa-francorchamps

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