Both Same Honda K20A engine, equipped with two types of Civic Type-R, Japan and the European version of the Civic Type-R sedan, the two are very close to Curb Weight (FD2: 1,270 kg / FN2: 1,267 kg), but the Japanese version of the engine FD2 adjusted for a more aggressive, maximum horsepower and torque peak output is superior to European version of FN2. To this end, the game came in a special arrangement FN2 pole position, FD2 is ranked 10th on the grid. Can FD2 win the match? check out the video.
What a joy to manipulate the speed and proportional to the height of the price? Car Battle of the Year Sport Car, Audi R8 V10 power configuration and Lamborghini Gallardo LP560-4 the same strain, Audi’s performance on the track and whether it equally well? Audi R8 V8, Nissan R35 GT-R will be allowed to enter the track to play together, the Tsukuba 5 lap battle, not to be missed!
Jeremy Clarkson test-drives the Audi R8 5.2 FSI V10 the battle of the continents, as Europe takes on the USA and Jeremy pits the Corvette ZR1′s muscle against the finesse of Audi’s R8 V10.
Chevrolet Corvette ZR1
The ZR1 engine is a heavily modified version of the LS3, designated the LS9. Producing 638 hp (476 kW) and 604 ft·lbf (819 N·m). of torque, it is the most powerful production Corvette to date. 0-60 mph (97 km/h): 3.1 Sec , Top speed : 205 mph (330 km/h).
a Audi R8 5.2 V10 FSI
It uses a 5.2 litre FSI internal combustion engine, based on the unit in the Lamborghini Gallardo LP560-4, but is detuned to produce a motive power output of 386 kilowatts (525 PS; 518 bhp), and generate 530 newton metres (391 ft·lbf) of torque.[3] Compared to the V8 variant, the R8 V10′s performance numbers are enhanced. Audi estimates the new 0-100 kilometres per hour (62 mph) time as only 3.9 seconds, 60-124 mph in 8.1 seconds, and a top speed of 196 mph (315.4 km/h).
Captain Slow ,James makes a rare appearance on the track as he compares two absurdly powerful limos, the BMW 760i and Mercedes S63 AMG, and gets into a strange card game with The Stig.
BMW 760Li
760Li are powered by a completely new 6.0-litre V12 all-aluminum engine with Twin-Turbo Technology, High Precision Injection with fuel injected directly into the combustion chambers, and to BMW’s infinite double-VANOS camshaft adjustment as well as the eight-speed automatic transmission featured for the first time in a BMW. The V12 engine outputs 544 horsepower at 5,000 rpm, with maximum torque of 533 lb-ft at 1,500. The wheelbase has been extended by 5.5 inch providing more passenger space and comfort. As expected, the BMW 760 runs from 0-60 mph in just 4.6 seconds and it offers improved fuel consumption over the previous model by 4.5 per cent.
Mercedes-Benz S63 AMG
The S63 AMG and its stronger counterpart the Mercedes S65 AMG, are designed to compete with vehicles such as the Jaguar XFR sedan, Cadillac CTS-V, BMW M5, and Lamborghini Estoque. The 6.3 liter V8 engine produces 518 hp (386 kW), and 456 lb·ft (618 N·m) of torque, which will propel the S63 from 0-60mph in 4 seconds even, and can go through a quarter mile in 11.56 second, two tenths of a second faster than the E63 to an electronically limited top speed of 186 mph. The S63 also has some of the best handling in its class, making it able to run on some of the tightest tracks in the world.
Engine: 6.3 Litre V8
Horsepower:518 hp (386 kW)
Torque: 456 lb·ft (618 N·m)
Top Speed: 186 mph (limited), 200+ mph (limiter off)
0-60: 4.0 seconds
Quarter Mile Time: 11.56 seconds
Curb Weight: 2,250 kg (4,960 lb)
The latest addition to the Renault Sport family is Megane R26.R, a car that has been engineered for performance and extreme driving enjoyment.
Megane R26.R is based on Megane F1 Team R26 and uses the same engine, gearbox and limited slip differential, but has been lightened by 123kg and features specific suspension calibration.
On June 23, 2008, Megane R26.R established a new lap record for its category round the legendary Nürburgring in Germany with a time of 8m 17s which confirms its extreme performance calling. It is easily recognizable thanks to its carbon bonnet, while its sporty credentials are immediately apparent inside, too, with its Sabelt bucket seats and harness belts.
Megane R26.R is a limited edition model manufactured at the Alpine Renault factory in Dieppe, France. Total production has been restricted to just 450 cars. Following its unveiling at the London Show, Megane R26.R is due to go on sale in October 2008. To build on the success enjoyed by Megane F1 Team R26 since its launch in November 2006, Renault has decided to market an even more potent version, the Megane R26.R. The Renault Sport Technologies-developed car is the latest addition to the Renault Sport range which already features Clio Renault Sport, Clio F1 team R27, Megane Renault Sport, Megane Renault Sport dCi, Megane F1 Team R26 and the soon to be released Twingo Renault Sport. Since its launch in April 2004, more than 20,000 Megane Renault Sports have been sold in almost 30 countries across the world.
The latest version of this model is poised to assert Renault Sport Technologies’ status as a manufacturer of segment-topping high performance cars.
Megane R26.R was developed with the intention of:
- offering customers who regularly attend circuit days with a model boasting an unmatched price/performance ratio,
- creating an end of life ‘collectors’ version of Megane Renault Sport,
- contributing to Renault’s brand image.
Radical looks
Renault Sport Technologies has bestowed Megane R26.R with several features that give it unique looks and distinguish it at first glance from other Megane Renault Sport models. The varnished carbon bonnet and specific red 18-inch wheels underpin the new car’s exclusivity, while the exterior styling sports a new spoiler and graphics. The quarterlights and rear screen are made from extra-tinted polycarbonate. Megane R26.R can be ordered in a choice of seven body colours, including three new shades, namely Lune Grey, Nacre White and Dynamo Blue.
Inside, Megane R26.R’s cabin carries over the sports calling of its exterior styling, including the use of leather and suede for the steeringwheel and gearlever bellows.
Megane R26.R is also equipped with Sabelt bucket seats and harness belts, and is the first touring car to have aviation-style six-point harness belts as the sole homologated restraint system. The absence of rear seats serves as a further pointer to the car’s radically sporty character which is further emphasized by the numbered plaque fixed to the centre console. A specific numbering system will be employed for each of the countries in which Megane R26.R is marketed:
- N°s 1 through to 230 for Great Britain,
- N°s 1 through to 126 for France,
- N°s 1 through to 26 for Switzerland,
- N°s 1 through to 26 for Spain,
- N°s 1 through to 26 for Germany.
Intended just as much to be driven round a closed circuit as it is to be enjoyed on the open road, Megane R26.R can be ordered with an optional four-point roll-cage.
Weight saving: a leitmotiv
To guarantee such high performance, Megane R26.R was put through a weight-saving programme that saw it shed 123kg compared with the F1 Team R26 version.
To achieve this result, the car goes without a certain number of comfort-related features, including:
- the rear seats and seatbelts,
- airbags (except driver airbag),
- automatic climate control (available as an option / manual climate control standard),
- rear wiper and wash,
- foglamps,
- headlamp washers,
- the majority of soundproofing material.
Other components that have been modified with a view to reducing weight and optimizing driving ergonomics are:
- the carbon bonnet (a saving of 7.5kg),
- polycarbonate quarterlights and rear screen (a saving of 5.7kg),
- carbon seat shells and aluminium frame (a saving of 25kg),
- six-point harness belts,
- titanium exhaust line (available as an accessory),
- specific lightweight body equipped with roll-cage mounting brackets.
Uncompromising chassis
As far as the running gear is concerned, the front and rear suspension have evolved to deliver optimal handling and traction efficiency.
The front layout features the now familiar independent steering axis system, although all the front suspension components are specific:
- spring ratings have been uprated from 13.4mm to 14mm/100kg,
- damper calibration is specific as a function of the specific specification of the chassis,
- the brake discs are grooved and not cross-drilled,
- optional TOYO PROXES R888 tyres (225/40 R18), or standard Michelin Pilot Sport 2 tyres (235/40 R18).
- one of the bushes between the lower arm and front subframe has been stiffened.
Regarding the rear suspension, the spring rates have increased from 15.1mm to 16.2mm/100kg, while the damping once again features specific calibration.
For best level traction performance, Megane R26.R is equipped with a limited slip differential which has the same transfer rate as that of the F1 Team R26 version (33 per cent).
Driving of a powerful vehicle equipped with a limited slip differential tends to call for certain driving skills because of the torque steer that can occur in certain situations. The combination of a limited slip differential and independent steering axis front suspension minimizes this phenomenon and allows the driver to profit fully from the extra traction and for a more reassuring drive. The car’s directional precision under cornering is also improved and allows drivers to re-accelerate both earlier and harder.
Any car boasting such a high level of performance requires a braking system that combines bite with fade-free durability, and Megane R26.R’s substantially dimensioned brakes employ four-piston Brembo callipers and 312mm vented front discs. Unlike the Cup chassis version, this limited edition model is equipped with grooved discs to ensure even better durability when the car is pushed.
As much punch as ever
Megane R26.R is powered by the same 2.0 Turbo engine as Megane F1 Team R26 which is mated to a manual six-speed gearbox (ND0*020) with a shorter linkage for even quicker gearshifts.
This engine boasts peak power of 230hp (169kW) and torque of 310Nm. Indeed, one of this powerplant’s key features is the availability of the latter across an extremely broad rev range, with 90 per cent of maximum torque being available between 2,000 and 6,000rpm.
Megane R26.R accelerates from standstill to 100kph in 6.0 seconds and covers the standing start kilometre in a mere 25.9s. Its homologated combined cycle fuel consumption is 8.5 litres/100km, equivalent to 199g of CO2/km.
On June 23, 2008, Megane R26.R established a new lap record for a front-wheel drive car round the Nürburgring, Germany, with a time of 8m 17s. To recall the new car’s exceptional performance, a map of the Nordschleife circuit and the time achieved by the Megane R26.R are screen-printed on the quarterlights.
The haven of Renault’s sports models
Megane R26.R is manufactured in the Alpine-Renault factory in Dieppe, France, which specializes in the production of Renault Sport models. It is produced on the principal production line, while finishing work and fitment of the shorter gear linkage are carried out in the competition workshop alongside Megane Trophy and Clio Cup.
Following its unveiling at the London Show, Megane R26.R is due to go on sale in October 2008. Only 450 examples of this limited edition model will be produced.
The legendary Ford RS performance car brand is returning in the shape of the exciting new Ford Focus RS, which will be previewed on July 22 at the 2008 London International Motor Show.
The new Focus RS will go on sale in early 2009 and is being created by a small team of dedicated engineers, under the direction of Jost Capito, Ford of Europe’s Vehicle Line Director for Performance Vehicles.
For performance road car enthusiasts, the new model will mark a welcome return for the Ford RS badge. This will be the second Focus model to carry the RS mantle and promises another exciting chapter in an exciting 40-year story that began in Germany in the late 1960s and gained momentum across Europe with the launch of the 1970 Escort RS1600.
Capito said: “We want the new Focus RS to be a serious high performance car – as much a car for driving enthusiasts as the one before it and classic Ford RS models of the past. We’re staying true to the core RS principles of an exciting, yet affordable performance road car you can live with every day.”
Authentic RS presence and style
Before it even turns a wheel, the new Focus RS exudes the presence, sporty style and lowered, ‘meaner’ appearance expected of a genuine Ford RS. Overt performance styling details mix with subtle revisions to create a planted, powerful stance and the promise of an exciting drive.
The London show car previews the design intent for a final production vehicle, though as development work continues, some final details may change before volume production begins.
The vehicle is finished in a special bright green paint with inlaid metallic flake, a striking, modern interpretation of the 1970s Le Mans Green of the Escort RS1600 era.
The vibrant exterior colour is contrasted with a number of performance styling details highlighted in gloss ‘piano black’, including the strip at the leading edge of the bonnet, the deep housings for the integrated front fog lamps and door mirrors with integrated side indicators.
Front and rear quarter panels have been revised to incorporate wider wheel arches and a wider track, complemented by revised, deeper side rocker mouldings. In another visual reminder of the car’s performance potential, triangular, RS-badged vents sit behind the front wheel arches. Two classic-style bonnet louvres are both a styling hint at the power beneath and a practical requirement, maintaining correct system temperatures.
The completely new front bumper design for Focus RS incorporates a deep front airdam with a large, mesh lower grille in an extended trapezoid. Stylish and practical, this prominent feature represents the latest Ford ‘kinetic design’ face and also is finished in piano black. Above, chromed xenon headlamps stand out like cat’s eyes and are framed by matt-black housings with unique additional vents running underneath.
At the rear, a deep new rear bumper incorporates a large venturi tunnel to its lower edge with small vents at each corner of the bumper, emphasizing the car’s width. Two impressive chromed exhaust tailpipes sit each side of the black venturi, creating a purposeful rear view for the car.
Above, a unique, twin-element, black RS rear spoiler sits at the Focus RS’ roofline, echoing both RS models of the past and the World Rally-winning Focus WRC that has been its inspiration.
“We believe it’s vitally important that a Focus RS looks like both a Focus and an RS – it needs to be individual, distinctive and overt in its performance styling, but it also needs to show a clear progression from and relationship to Focus ST”, said Stefan Lamm, Chief Exterior Designer, Ford of Europe.
High performance interior
Inside, this theme continues with a unique and appropriately performance-oriented interior, dominated by bespoke, sculpted Recaro high-performance sports seats, specially designed and trimmed for excellent support, even when driving enthusiastically. Each is colour-matched to the exterior, with ebony leather accents and ‘RS’ and ‘Recaro’ logos stitched into each backrest.
Elsewhere, colour brings new excitement to the Focus interior, building on the sporty interior theme of Focus ST with more use of accents matched to the exterior colour, brushed aluminium highlights and overt performance styling. Even the rear seats feature higher side bolsters and a microfibre finish to echo those up front.
The centre console is finished in a stylish gloss, carbon-look trim and metallic highlights abound, from air vents, door grab handles, switchgear and gearshift surround, to unique RS-branded scuff plates on the door sills. These highlights contrast with a black-trimmed roof lining, emphasising the sporty, cockpit feel.
The driver is reminded this is a special Focus at every touch, with a gear lever finished with a six speed gear shift graphic in RS blue, a sporty, three-spoke steering wheel, finished with ‘Ford’ and ‘RS’ logos and even aluminium foot pedals. The performance driving environment is completed by three additional gauges from the Focus ST, including turbo pressure, sitting atop the centre console and angled toward the driver’s eyeline.
Powerful RS heart
At the heart of the all-new Focus RS is a specially developed, turbocharged version of the Duratec 2.5-litre 5-cylinder engine. Significantly revised for high performance, this powerplant is targeting an impressive power output of 300PS and over 410Nm of torque, contributing to an excellent power-to-weight ratio.
Such significant increases are not simply the result of altering engine management or boost pressure: starting with the Duratec 2.5-litre block, Ford RS engineers developed unique camshafts, a revised cylinder head and gasket and revised intake and exhaust manifold system for the car.
Although the car is still in development, prior to its launch in early 2009, early performance testing indicates a 0-100km/h (0-62mph) time of under six seconds.
A traction ‘Revo’-lution
Throughout Focus RS’ development, Capito and his team have been keeping a sharp focus on creating a car that delivers excellent performance and traction.
Various innovations, developed as a result of customer feedback from previous performance Fords, have allowed engineers to keep the new Focus RS as front-wheel drive, with a limited-slip differential, while still achieving demanding targets for traction, handling and steering.
The new Ford Focus RS is equipped with an innovative front suspension system known as a ‘RevoKnuckle’, which is designed to reduce unwanted steering disturbance and torque steer, the impact of torque on steering in front-wheel driven vehicles. Torque steer occurs during hard acceleration, cornering or driving on uneven surfaces, when torque on the driven wheels exceeds grips levels. It is characterised by sudden turning force on the steering wheel and can be exacerbated by vehicles with wide tyres and limited-slip differentials.
In Focus RS, the RevoKnuckle works in conjunction with a Quaife Automatic Torque Biasing limited-slip differential. Ford Team RS engineers have worked closely with Ford’s Advanced Research Centre in Aachen, Germany to develop the RevoKnuckle technology specifically for the high performance Focus RS. It allows the simplicity of a traditional McPherson strut arrangement, but with geometry settings that minimize steering disturbances and torque steer, principally a reduction in steering offset.
“The Ford Focus is an excellent base for a high performance car – agile, responsive and stable,” explained Capito. “We studied at length how best to enhance these qualities for a high performance model. Our work has shown clearly that our approach in combining a tuned RevoKnuckle with the Quaife differential is an ideal solution for a high performance front-wheel-drive road car like Focus RS.
“As you would expect, we gave all-wheel-drive careful consideration, but by combining and tuning these elements and learning from Ford’s expertise in industry-leading handling, we have managed to eliminate the weight of AWD from the car and still have been able to target a class-leading balance of traction, handling and performance.
“The result is a lightweight set-up, that will deliver the right blend of traction and razor sharp controllability – in a way no one would have expected from front-wheel-drive, and we believe we have made the right choice,” Capito concluded.
Dynamic, agile and responsive
A genuine Focus RS must maintain and enhance the reputation for responsive, precise handling for which Focus is acclaimed and considerable engineering effort has ensured that the new Focus RS will do just that.
Driving quality developments for Focus RS include a 40mm wider track, stronger, longer driveshafts, revised springs and dampers and a thicker, longer rear anti-roll bar. At the same time, the steering system has been retuned to provide an even sharper steering response and very precise feedback.
Brakes also have been uprated, with 336mm ventilated front discs and 300mm rear discs generating vice-like stopping power on road or track. Large calipers peek out from behind unique 19-inch wheels, wrapped in 235/35 low profile Continental tyres.
A special version of Ford’s ESP system has also been developed for Focus RS, designed to allow a very sporty driving style before activating. Intensive work to refine the natural handling abilities of the car has allowed the ESP system to carry a full de-activation option for enthusiast drivers and especially for track use.
“We are refining all the handling characteristics of Focus RS without ESP, to hone its natural responses, rather than use ESP to help its handling. In Focus RS, ESP is a pure safety device”, explained Capito.
Reliable and durable
In creating the new Focus RS, Ford’s Team RS engineers have had to meet the same stringent targets for durability and reliability as those set for the rest of the Focus range.
Despite its many bespoke engineering and styling elements, Focus RS will be built entirely on the main Focus production line in Saarlouis, Germany and offered with a standard Ford of Europe warranty.
A great heritage
The new Focus RS represents a significant moment in the heritage of both the Focus and Ford RS brands.
It is 10 years since the Ford Focus was first revealed to the world at the Geneva Motor Show in 1998, paving the way for a range of Ford vehicles whose exciting design was matched by class-leading driving quality. Since this time, more than 5.3 million Ford Focus models have been built in Europe, including Russia, with the car also built and sold in North America and Asia.
At the same time, the new Focus RS marks the return of the famous but rare Ford RS badge, last seen on the first-generation Focus RS in 2002 and with a distinguished heritage stretching back 38 years including Fiesta, Escort and Sierra models.
“RS is uniquely important to us in terms of our performance heritage and World Rally Championship success, while the Focus has played a major part in establishing Ford’s excellent reputation for driving dynamics,” said John Fleming, Ford of Europe President and CEO. “The all-new Focus RS will embrace and celebrate both of these – it will be a genuine RS and a genuine Focus and I’m confident it won’t disappoint in either area”.
This summer is set to be a scorcher, whatever the weather, with the arrival of the newest Renaultsport hot hatch to join the renowned line-up – Twingo Renaultsport 133.
Renault has a rich heritage in high-performance hot hatches, and Twingo Renaultsport 133 is no exception. With top performance and an impressive level of standard equipment, the Twingo Renaultsport 133 ensures it is a worthy entry-point addition to the Renault hot hatch range.
Priced at just £11,550, Twingo Renaultsport 133 offers on-the-road thrills at an affordable price. Unlike some of its competitors, Twingo Renaultsport 133 is easily distinguishable from the standard car with extended wheel arches and sills as standard.
The Twingo comes with specific Renaultsport chassis and steering tuning as standard ensuring it offers optimum performance and handling. There is no wait necessary for the ‘Cup’ chassis either as Renault Sport Technologies has developed this for Twingo from launch, along with a new 1.6 naturally-aspirated 1.6-litre VVT engine delivering 133hp at 6,750rpm with 160Nm of torque at 4,400 rpm.
Sporty looks, style and performance as standard
There’s no doubting the Twingo Renaultsport 133’s vigorous performance, tenacious road-holding and refinement, whilst its exterior and interior styling makes it obvious that this is a car in which to have fun.
Twingo Renaultsport 133’s long list of standard equipment, in addition to those on Twingo GT, includes:
ESP (which can be manually deactivated), Renaultsport chassis with 16” alloy wheels and 195/45 tires, Renaultsport front and rear bumpers and side sills, extended front and rear wheel arches, gunmetal gray door mirror housings, fog lamp surrounds and rear spoiler, aluminum pedals, Renaultsport leather steering wheel, Renaultsport rev counter with gearshift indicator light, Renaultsport front seats with enhanced lateral support and distinctive orange seatbelts.
Twingo Renaultsport 133 is available with a choice of five colors: Capsicum Red or £375 optional metallic Pearl Black, Extreme Blue, Mercury Silver or Mirage Grey. The latter is a new color exclusive to the Renaultsport version.
‘Cup’ chassis available from launch
An option available on Twingo Renaultsport 133 is the ‘Cup’ chassis. Priced at £650, it features a 4mm lower ride height, stiffer springs and dampers, 17” dark gray Anthracite alloy wheels and 195/40 tires.
All retail customers to place order within first 133 days of ordering opening receive free Renaultsport track day with tuition
Renault recognizes that its Renaultsport customers make up some of its most devoted and loyal fan base. Renaultsport organizes regular track days in the UK and abroad through www.renaultsport.co.uk, the website for Renault hot hatch fans to get the latest information and share discussions in the community forums.
As a special acknowledgement, Renault is offering an exclusive chance for customers to find out what the Twingo Renaultsport can do really do in a safe, controlled track environment.
All retail customers who place an order for a Twingo Renaultsport 133 within the first 133 days of ordering opening will receive a voucher for a free place on a Renaultsport track day in 2009, which includes free tuition, at either Brands Hatch (Kent), Oulton Park (Cheshire), Cadwell Park (Lincolnshire) or Bedford Autodrome (Bedfordshire).
Insurance groups, performance data and further technical details will be released nearer to the time of the UK launch in September.
Available to order end of July
The Twingo Renaultsport 133 with new 1.6-litre naturally-aspirated engine, is available to order now at just £11,550.
With the modified Lamborghini Gallardo Superleggera edo competition Motorsport has now added a second high-profile Italian racer to its tuning program after the Murciélago LP 640. Like its bigger brother, this sports car with the bull in its logo excels through its highlighted racing genes and more aggressive appearance after being modified at edo competition.
The most remarkable feature is the sensational acceleration. edo competition achieves these figures thanks to the installation of a massive air box, high flow catalytic converters which are a completely new design and a recalibration of the engine electronics. All components together raise the power output to 560 hp (411 kW) at 8,250 rpm. The power increase of 30 hp / 22 kW boosts the top speed by about 6 km/h (4 mph) to 320 km/h (199 mph).Another highlight: The sound volume of the modified exhaust system can be adjusted via remote. The sporty concept of the edo Gallardo Superleggera is rounded off with 19“ three-piece racing wheels with an artificially-aged cast center-section, hand-polished outer rims and 39 stainless steel screws. The front wheels are shod in stock-sized or (on request) 245/35 ZR 19 rubber while 305/30 ZR 19 Dunlop Sport Maxx tires are used on the rear axle. With this solution edo competition enables its customers to reuse the factory tires on their new wheels.edo competition treats the masculine stance of the Gallardo Superleggera to an additional testosterone injection by lowering the suspension by a good 15 mm and through the use of corner-weighting. With these upgrades, the Lambo sticks to the road so firmly and unflappably that it would take an earthquake to upset its poise.Verdict from the July 2008 Autobild comparison test „Edo Gallardo / MTM R8“: „The edo Gallardo Superleggera is the more harmonic and better balanced car. Very quick, great to control and of the finest quality in all aspects”!
Specifications
Engine V10
Power 560 hp / (411 kW) at 8250 rpm
Max. torque 540 Nm (398 ft-lb) at 6800 rpm
Performance
Top speed est. 320km/h (199 mph)
0 – 100 km/h (0 – 62 mph) 3.7 s
0 – 200 km/h (0 – 124 mph) 11.7 s
Features
-Power increase to 560 hp via 200-cell high flow catalytic converter, carbon fiber air box and ECU recalibration
-Exhaust sound level adjustable at the simple push of a button
-Optional : 19“ three-piece racing wheels with an artificially-aged cast center-section, hand-polished outer rims and 39 stainless steel screws. Tire dimensions as stock or on request front: 245/ 35 ZR 19, rear 305/ 30 ZR 19 Dunlop Sport Maxx
-Custom painted wheels on request
-Tire pressure monitoring system displaying tire pressure and temperature for each wheel
-Suspension lowering by 15 mm incl. corner-weighting
-Side turn signals, smoked
When Mercedes-Benz introduced its SLR McLaren 722, there was a bit of confusion about the special-edition’s name. Many believed the car would offer a fire-breathing, 722 hp supercharged V8, but it doesn’t (it makes 650 hp). Some believed that “722″ meant there would be 722 of the cars made … but that was wrong, too. In the end, the 722 badge actually referred to 7:22AM – the starting time of Sterling Moss’ epic 1955 Mille Miglia run in a then-new Mercedes SLR.
SO, 722 = 7:22AM, not 722 hp.
While the automotive enthusiasts of the world uttered a collective (and skeptical) “um … OK”, Hartmut Feyhl took one look and announced: “this car should have 722 hp”. When most enthusiasts say things like that, they can be easily ignored – but when Feyhl says something like this – it happens.
Hartmut is the owner and chief engineer of RENNTECH, the South Florida-based tuning firm best known for producing incredibly powerful Mercedes-Benz automobiles that often redefine what highly-tuned exotic cars should and should not be capable of.
Last year, RENNTECH introduced their own “722″ option: RENNTECH SLR Performance PKG1. RENNTECH’s PKG1 upgrades included upgraded intercoolers, a larger crankshaft pulley, and custom ECU software that delivered the full 722 hp SLR customers expected (along with more than 700 lb-ft of torque!). RENNTECH announced the package in an April ’07 press release titled “Here in Florida, 722 Means What You Think it Means”, and SLR customers responded by sending their cars to Feyhl’s Florida garage from across the Western hemisphere …
… of course, after driving their new 722 hp rocketship for a few months, some of Feyhl’s customers started asking for more, which brings us to RENNTECH’s latest batch of SLR tuning options: SLR Performance PKG2 and new RENNTECH Signature 10-spoke, 3 pc. performance wheels.
Available for both the “standard” SLR and 722 models, PKG2 builds on RENNTECH’s previous upgrades by adding a less restrictive, motorsports-style exhaust system and re-mapped ECU software to boost the already powerful SLR engine to over 740 hp at 6400 rpm.
To give the SLR more visual impact, RENNTECH now offers its Signature 10 spoke wheels in SLR offsets and 3 finishes (chrome, satin-ceramic, and sniper gray). Pricing for RENNTECH’s SLR performance upgrades are set at 12990US for PKG1 and 26990US for PKG2. RENNTECH 20″ wheels are 1950US (ea.). Big Brake upgrades also available – contact RENNTECH for more.
The key to affecting the development of tomorrow’s mobility lies in our readiness to challenge what is established and in the ability to present new options. In order to meet these objectives, BMW Group Design taps into the potential of the GINA principle (Geometry and Functions In “N” Adaptations) which promotes innovative thinking by allowing maximum freedom of creativity. GINA produces dramatically different solutions that affect the design and functionality of future cars.
The GINA Light Visionary Model is an optical expression of selective, future-oriented concepts which provide an example of the manner and extent of this transformation.
BMW Group Design is not just interested in answering the question of how the car of the future will look but primarily wishes to explore the creative freedom it has to offer. Both of these aspects are affected by the requirements that future cars are expected to meet. All ideas that the GINA Light Visionary Model presents are therefore derived from the needs and demands of customers concerning the aesthetic and functional characteristics of their car and their desire to express individuality and lifestyle. The GINA Light Visionary Model has an almost seamless outer skin, a flexible textile cover that stretches across a moveable substructure. Individual functions are only revealed if and when they are needed.
With this model, BMW Group Design initiates a fundamental discourse about the characteristics that will affect the development of cars in future. It is therefore fundamentally different from concept cars, which reflect what is expected of them by implementing as many elements as possible in a future production model. In contrast, the GINA Light Visionary Model is a vision of future cars and serves as an object of research.
The seamless car body of the GINA Light Visionary Model.
Putting its visions of tomorrow’s car into practice, BMW Group Design has developed a two-seater roadster with the unique dynamic proportions that are typical of its brand. The GINA Light Visionary Model takes the sculptural design that has already been established by a number of production cars to a new, unparalleled conclusion. The car’s front and sides, including the doors, create one single uninterrupted, seamless whole that converges to form an optical as well as a structural unit.
In order to create this appearance, it was necessary to move beyond all previous conceptions of car body configuration, design and materials. Therefore, the GINA Light Visionary Model has dispensed with the usual body elements found on production vehicles such as front apron, bonnet, side panels, doors, wheel arches, roof, trunk lid and rear deck. Instead, a new structure with a minimum amount of components has taken their place. A special, highly durable and extremely expansion-resistant fabric material stretches across a metal structure.
This new material offers designers a significantly higher level of freedom of design and functionality.
The body consists of only four elements. The largest component extends from the front of the vehicle to the edge of the windscreen and down the sides to the rear edge of the doors. The large side panels start at the front where the rocker panels emerge and run across the rear wheel arches into the rear. The fourth component is the central rear deck element.
An innovation breaks new ground: car with a flexible outer skin.
The innovation of a flexible outer skin breaks new ground in automotive engineering. This revolutionary solution opens up new design, production and functionality potential. It has a major impact on the interaction between driver and car and enhances it by offering a variety of entirely new options. Some elements of the substructure are moveable. The driver can move them by means of electro and electro-hydraulic controls. This will also change the shape of the outer skin, which can thus be adapted to suit the current situation, the driver’s requirements and can also enhance the car’s functional range.
The most striking example of this is the headlight design. In normal position, when the headlights are not active, i.e. when there is no necessity to illuminate the road, they are hidden under the special fabric cover. As soon as the driver turns on the lights, the contour of the front end changes. Activated by the metal structure that lies beneath it, the previously closed fabric cover opens to the right and left of the BMW kidney grille and reveals the BMW double head-lights. The rear and the rocker panels of the GINA Visionary Model can also adapt both the shape and function to the driving situation in hand. Both can change the shape of their outer skin to meet the driver’s requirement for particularly dynamic motoring. This concept also takes into account a potential interaction with aerodynamic requirements. The design of the rear element allows for automatic lifting of the rear spoiler when a certain speed is reached, thus creating extra downforce on the rear axle at higher speeds. Due to the fact that the entire rear end, including the spoiler, is covered by a single sheet of material that reaches as far as the rear compartment of the interior, the homogeneous shape of the car’s rear will not be affected by changes to the spoiler position. The mechanical system that moves the elements remains concealed.
The turn indicators and the taillights function without changes to the shape of the outer skin. Their position, however, is only revealed upon activation. The emitted light shines through the translucent fabric cover, which is permeable to light but not transparent.
The rocker panels demonstrate the formal versatility of the GINA Light Visionary Model with an equally impressive performance. The air duct can be optimised if required. A corresponding movement of the metal structure results in an adjustment of the rocker panel contour to allow for better airflow. At the same time, an additional protruding rocker panel line emerges. The aerodynamic optimization and the length of the line can be infinitely adapted to the driving situation at hand.
Special fabric cover ensures accurate reproduction of material folds.
The fact that the body surface is designed by means of a flexible fabric cover that stretches across a metal substructure means that the materials used must meet exacting requirements. Industrially produced hybrid fabric made from a stabilizing mesh netting support and an outer layer that is both water-repellent and resistant to high and low temperatures is suitable for this application.
Another essential material property is a maximum level of dimensional stability.
It must remain dimensionally stable irrespective of the temperature and air humidity it is exposed to even after severe and constant expansion. The dimensional stability helps retain the cover’s surface tension for a long period of time. The movement of individual body elements creates accurately reproducible folds in the material. In its choice of material BMW Group Design was inspired by exterior and interior architecture. The expertise of seat pattern designers working for BMW Group Interior Design was successfully applied in order to cut the fabric webbing to size with maximum precision, determine the strategic position of attachment points and stretch the material. As a result, the surfaces are remarkably well balanced and due to the steady tension that is retained between any two clearly defined points, the lines are extremely accurate.
The special fabric is supported by a metal wire structure. At specific points, the high-strength metal is enhanced by carbon struts with a higher flexibility. They are used predominantly for round, moving contours with a particularly narrow radius.
The use of large fabric areas and the possibility of changing the surface contours by moving individual parts of the metal mesh that lies beneath it create a new relationship between form and function. If additional cooling air is required, the BMW kidney grille at the front of the vehicle can be opened. Because the overall surface of the special fabric covering remains unchanged, the contraction at the front of the vehicle, which is necessary for functional reasons, has to be compensated for by extra tension in other areas. The result is an optically attractive interaction between various body parts that introduces a new dimension to sculptural design. The widening of the kidney grille openings is activated by a movement of the metal mesh in the front area of the side panels. This creates more tension, which becomes visible by the emergence of an additional character line. The development of this new contour tenses the front of the vehicle: the kidney grille opens up.
Innovative body structure introduces new functional dimensions.
The high-precision fit of the material to the metal mesh also allows surface changes without slackening the tension. In this case, opening of the surface by moving the respective steel mesh struts creates precisely defined folds in the material. The GINA Light Visionary Model uses this option to display a function that corresponds to the opening of the hood in conventional vehicles. The material opens at the center of the engine cover and can be folded to the far right and left along an opening line that is approximately 0.5 meters long, to allow the driver or mechanic access to the service points in the engine.
The filler caps of the engine oil, cooling and wiper water tanks are now open for servicing. Opening and closing is similar to the mechanism on a doctor’s traditional medical bag, where clip-lock fasteners are held together in the middle by a rail.
The effect of the accurate surface material draping is even more impressive when the doors are opened. They swing both outwards and upwards. The high number of attachment points for the fabric cover positioned at the front of the car as well as at rear door edges creates a clearly defined and perfectly reproducible bulk of material. The draping is confined to the area between the front door edge and the side panel. Once the doors are closed, the folds in material disappear completely, leaving a perfectly smooth, stretched material surface.
The interior: discourse between driver and vehicle.
In the interior, variability, form and function are united in an inseparable connection. Whenever selected functions are accessed, the driver also changes the appearance of individual car elements. Again, the car’s variability is adapted to suit the driver’s needs. This creates a close interaction between driver and car in various different situations.
When the car is parked, the steering wheel and the round instruments – rev counter, speedometer and fuel gauge, which are vertically arranged on the center console, are in idle position. This provides the driver with maximum comfort upon entering the car. Likewise, the seat only assumes its optimised functional position and shape if and when the driver sits down on it.
At that point, the headrest, previously firmly integrated into the seat’s backrest, rises up automatically. At the same time, the steering wheel moves towards the driver and the instrument panel moves in the same direction. The information on the best driver-specific position of both steering column and seat is stored in the transducer. The engine is started simply by pushing the start/stop button. The smooth transition of interior and exterior that is typical of BMW convertibles is reinterpreted by the GINA Light Visionary Model. The fabric that covers the rear deck runs into the interior and stretches across the driver and front passenger seats. The same material is also used for the surface design of the door trim and armrests. The shift lever in the center console protrudes from tightly stretched textile bellows. Driver and front seat passenger look out through a steeply inclined windscreen with the inside rear view mirror integrated into its frame. The side view mirrors are connected to the window frame. A narrow vertical dividing bar located at the center of the windscreen harks back to the typical windscreen division of traditional roadsters.
Innovative thinking put into practice: the GINA Light Visionary Model.
With the GINA Light Visionary Model, BMW Group Design focuses on a wide variety of issues that will determine the future conception of mobility.
It demonstrates the results of intense research into design, functionality, material and production. All ideas that have been put into practice in the GINA Light Visionary Model are derived from the same motivation: to challenge conventional and previously pursued solutions. The quest for alternative options has generated a wide variety of different requirements that potential solutions are expected to meet. The main focus is on providing general versatility and catering to customer requirements with sophisticated solutions. In accordance with the GINA principle, every functionality enhancement helps to create an emotional bond between the driver and their car. The new solutions also allow for the option of fast, flexible and cost-efficient production.
Every innovation demonstrated by the GINA Light Visionary Model also contributes to a clearly optimised resource management. As the quest for sustainability is one of the central issues of the GINA philosophy, new materials and manufacturing processes are expected to consume less resources and energy than previous solutions. Accordingly, the infrastructure used for manufacturing cars that are built in compliance with the GINA principle, has also changed. The manufacturing process requires fewer model-specific tools, and more highly-qualified skilled specialists. In all the areas referred to above, the GINA Light Visionary Model has provided inspiration for more intense research into ideas conceived as a result of maximum creative freedom.
Emotional appeal of roadster models and visionary prospect of future cars.
The solutions conceived as part of this philosophy are not considered separately, but have been pooled in an integrating vision – a vision that is expressed in the context of an outstanding, fascinating car. The basic features of a roadster with its eight-cylinder combustion engine below a stretched front that applies motive power to the rear wheels in order to move the car along the road defines this context. The synthesis of elementary visions and sheer driving pleasure expressed by the appearance of the GINA Light Visionary Model has a particularly striking emotional impact. Only the particular appearance of a fascinating car with its authentic design that creates a natural aesthetic look can bring to light the significance of the presented innovations.
The GINA Light Visionary Model builds a bridge between vision and reality by presenting a number of features with a striking similarity with those found on production vehicles. The Roadster rests on 20″ alloy wheels in a cross-spoke design with a matt silver finish. The car body is comprised of an exceptionally light aluminum space frame. Two double tailpipes for the rear exhaust system, a third brake light integrated into the height-adjustable rear spoiler, an air splitter at the front and a rear-end diffuser in a carbon design also meet the standards of a production vehicle.
Nevertheless, the GINA Light Visionary Model retains its character as an object of research. It demonstrates the innovative force of BMW Group Design and its ability to challenge what is established, to find new solutions and to interpret these in the context of the car of the future at a high aesthetic level. This car is the logical continuation of the GINA principle in action. The GINA principle has already led to a variety of innovative concepts and has production vehicles in ways that are completely new and unprecedented by any other car manufacturer.
BMW Group Design uses concept cars such as the BMW concept car CS1 of 2002 as a step on the way towards putting a particular vision into practice. The CS1 was the first to present features such as the basic principle of the innovative control system – the BMW iDrive. Independently from all other innovative features shown by this concept car, the iDrive has become a series production feature.
Similarly, the GINA principle gave rise to an innovative manufacturing method that allows the manufacturers to decorate outer skin components that have been preformed by conventional methods with individually configured, high-precision contour lines prior to their reintegration into the manufacturing process. The Rapid Manufacturing method utilized for this process was first used during the production of hoods for the BMW Z4 M Roadster and the BMW Z4 M Coupe. In these models, the finished hood has received two distinctive contour lines prior to painting. These are not produced by a pressing tool but embossed into the metal with pin-point precision by a robot-guided steel pin.
Both examples illustrate the challenging route from a vision to a concept and to final series production that is not always straight and direct. With the GINA Light Visionary Model, BMW Group Design shows where this route begins. Not all innovations shown by the GINA Light Visionary Model will proceed to the next stages. In its entirety, however, the visionary look into the future shows the extent to which the BMW Group employs creative potential in its endeavor to respond to the challenges of tomorrow’s mobility.
GINA – The BMW Group Design philosophy. Challenging established concepts, hazarding visions.
Successful design arouses desire. In order to achieve this, it is more crucial than ever before that car manufacturers create the conditions that allow customers to establish a close relationship with their cars. Therefore, designers seek ways to promote and intensify people’s identification with their car that reach beyond pure aesthetics. In the premium segment in particular, customers demand cars that stir emotions and allow them to express their individuality. BMW Group Design has set another deepened objective for designing new cars that moves today’s consumers and their demand for enhanced utility and more versatility to the top of their agenda. An innovative concept introduced by BMW Group Design prepares the ground for this new approach: the GINA (Geometry and Functions In “N” Adaptations) principle grants more freedom for car design. It allows the creation of products with a design and functional range that express individuality and meet the wide variety of requirements of those who are using them.
In the 21st century, customers approach their purchasing decision with a high degree of assertiveness, clearly defined requirements and subjective conceptions – particularly when it comes to selecting their means of transport.
In recent years, the interests and priorities that motivated them have changed and, more importantly, they have become considerably more diversified. This development will continue in the future. Today, the BMW Group is already responding to the highly diversified range of customer requirements and heightened expectations by providing services such as a substantially more varied product range, ever increasing possibilities for personalization and requirement-oriented production among others.
Future customer requirements as a benchmark.
By introducing the GINA philosophy, BMW Group Design presents ways of meeting these challenges in the future. The philosophy expresses the readiness and ability of BMW Group Design to consider individual customer requirements as an integral part of car development. Christopher E. Bangle, Head of BMW Group Design, speaks with conviction when he says: “Personal customer requirements will broaden the context of our products and change the core values that define our industry along the way.” For more than ten years now, these issues have inspired Bangle’s ideas. Time and time again, these ideas have been motivating the BMW Group Design team to break new ground and to find pioneering solutions. These results have spawned new customer expectations which in turn inspires designers to develop further innovations.
GINA: Geometry and Functions In “N” Adaptations.
The GINA philosophy offers designers as well as development and production specialists an opportunity to challenge existing principles and conventional processes. Solutions that will benefit the car of the future are examined without predefined rules and from as many perspectives as possible. This also involves questioning what is believed to be set in stone. Does a car roof really have to rest on pillars and be bordered by windows? Do all functions have to be visible at all times, even when they are not needed? How many personalization options does my car offer? Are there any possible alternatives to the rigid body shell made of steel or plastic?
Questions like these lead to groundbreaking, cross-segmental solutions – and visions of the future of individual mobility. An essential principle of the GINA philosophy is to deliberately integrate the potential of new materials and pioneering, innovative constructions into the creative design process, and the idea of challenging existing manufacturing methods and material concepts. BMW Group DesignworksUSA, a subsidiary of the BMW Group that operates globally and caters to companies across the industry, has greatly inspired the design team at BMW Group Design. The design agency’s extensive experience with projects for a number of industrial partners outside of automotive engineering, predominantly in the field of material development and production.
It is in the nature of such visions that they do not necessarily claim to be suitable for series production. Rather, they are intended to steer creativity and research into new directions. This approach helps to tap into formerly inconceivable, innovative potential that reaches far beyond the appearance of future cars and takes into account not only materials and structures but also functions and manufacturing processes. The potential requirements of tomorrow’s customers serve as a benchmark. In addition to aesthetics, the GINA philosophy also deals with ergonomics, the functional range and all other factors that rule customers’ emotional relationship with their car.
With the development of the GINA Light Visionary Model, the BMW Group presents examples of visionary solutions. For the first time, exemplary adaptations of various approaches described by the GINA philosophy are brought to life to illustrate the potential impact of this concept on the future of automotive engineering. The limits of current material properties and manufacturing processes are projected far into the future. All innovations that these cars present focus on the variable adaptation of form and function based on individual and situation-related driver requirements as well as the demands of the driving situation itself. Therefore, both the exterior and the interior are equipped with a variety of components that differ significantly from conventional solutions, not only by the way they look but also in terms of their basic properties.
For example, the GINA Light Visionary Model presents features such as a virtually seamless outer skin made of a textile fabric that stretches across a moveable substructure. Functions are only offered if and when they are actually required. The drastic re-interpretation of familiar functionality and structure means that drivers have a completely new experience when they handle their car. Reducing the car to its essentials and adapting it to the driver’s requirements enhances the car’s emotional impact and achieves a crucial objective of the GINA philosophy.
Visions spawn innovative concepts.
The strategy of challenging what is established, exploring new possibilities and focusing on customer demands and requirements has inspired the BMW Group to implement a wide variety of innovative concepts. It has also affected the design of production cars in ways that are completely new and unprecedented by any other car manufacturer. A wide range of innovations that have been acclaimed for their virtually revolutionary character is actually based on the GINA philosophy. On the way from vision to production model, visionary ideas have been turned into new concepts.
Both the sculptural design presented by the BMW X Coupe concept car, for example, and the interplay of convex-concave surfaces that has affected the design of all production vehicles, are derived from visions with an innovative power. This power is generated by the unrestricted freedom that characterizes the quest for wider design possibilities. In the example mentioned above, the natural material properties of the outer skin have been deliberately incorporated into the design process. The design process has integrated the twisted surfaces and has used the specific sculptural aesthetics of the convex-concave elements that are created by the material’s reaction. The design of the BMW Z4, which has been modeled on the BMW X Coupe concept car, is a striking example.
These visions could only be implemented because of the development of completely new manufacturing technologies. As before, the objectives defined by the GINA philosophy have been achieved thanks to the special expertise of production engineers and their ability to move beyond traditional methods. Their effort has allowed the creation of a form language that has not only significantly enhanced aesthetic standards and the significance of design as an expression of product substance, but also the manufacturing processes themselves.
Versatility in function and form stirs emotions.
Some of the pioneering visions that are based on the GINA philosophy have also been implemented in the interior design of concept cars such as the BMW CS1 concept car of 2002. This car’s interior is equipped with control and functional elements that become visible only if and when the driver wishes to avail of them. Thanks to a flexible, Neoprene-covered instrument panel, the driver’s attention can focus on the required functions. This situation-oriented variability of form and function invites the driver to engage in a dialogue with his car. Using these functions, the driver experiences an emotional reaction. This is caused by the fact that he can adapt the car’s appearance to suit his personal wishes. In this application, the intelligent deployment of flexible material dispenses with the need for complex mechanical features. At the same time, the versatile appearance has a natural aesthetic appeal.
The control concept iDrive, first demonstrated by the BMW Z9 and refined in the BMW CS1 concept car has long since become established as part of BMW production models. It is a perfect enhancement to the spirit of the GINA philosophy, as it is guided by the principle of displaying only those functions to the driver that are relevant to the individual driving situation. The cockpit adjusts to the driver’s needs. As he handles the car by interacting with it, the driver forms a strong emotional bond.
Integration of meaningful functions that are relevant to the customer.
It is one of the GINA principles to challenge existing solutions in order to broaden the context, thus extending the scope of possibilities for customers. In the engine compartment of the BMW CS1 concept car, the engine cover has been replaced by flexible stretch material. A graphical display panel provides information on the particular arrangement of the service functions, integrated zip fasteners facilitate easy, hands-on access to the filler caps of the cooling water and wiper water tanks. A number of functions – cover, orientation and access to service points – are integrated into one component in a logical and attractive manner. This deliberately minimalist approach to the deployment of components is an active contribution to the protection of resources.
Rapid Manufacturing for more versatility.
As a result of our interdisciplinary cooperation, we have developed a method that allows manufacturers to decorate outer skin components that have been preformed by conventional methods with individually configured high-precision contour lines prior to their reintegration into the manufacturing process. The GINA design philosophy has been applied to Rapid Manufacturing to create an unparalleled method of manufacturing single components fast, cost-efficiently and with a focus on individual requirements.
This combination of processes was first used during the production of hoods for the BMW Z4 M Roadster and the BMW Z4 M Coupe. These models received their distinctive contour lines at a separate production stage which differed significantly from conventional sheet metal processing. The lines were embossed into the hood with pin-point precision by a robot-guided steel pin. This approach allows for entirely new ways of individualized production.
With Rapid Manufacturing, customer preferences can be implemented when car body elements and other components are designed to the specifications of designers.
New materials and manufacturing processes create a natural aesthetic appeal.
The cockpit surface of the BMW Concept Coupe Mille Miglia 2006, which has been influenced by the technology of industrial origami, is another example of vision-based, revolutionary design. It has produced solutions that reflect several guiding principles of the GINA Philosophy. The number of components is significantly reduced compared to conventional cockpits while completely new methods of combining different materials have provided valuable stimulation for the conception of innovative production technologies. The manufacturing process has deliberately relied on the expertise and technical skills of highly-qualified specialists, whose competence is a prerequisite for the practical implementation of design visions.
The exterior design of concept cars also reflects innovative concepts resulting from the practical implementation of visionary ideas. Both the sculptural design presented by the BMW X Coupe concept car, for example, and the interplay of convex-concave surfaces that has affected the design of all production vehicles (introduced for the first time in the Z4), are derived from visions with an innovative power. This power is generated by the unrestricted freedom that characterizes the quest for wider design possibilities. The design deliberately uses the interplay of splines as character lines and the natural flow of stretched convex-concave surfaces.
The designer’s metal processing ideas for the interior of the BMW Mille Miglia Concept Coupe were inspired by the traditional Japanese art of paper folding. An inherently stable, three-dimensional structure was created from two-dimensional V2A sheets of metal by means of a special laser cutting and folding processes. This technique produced joints which were strategically employed for integrating ventilation functions into the cockpit without the need for additional elements. The result was an innovative solution with a natural aesthetic appeal that was produced with a minimum amount of tools.
he GINA principle: Priority for sustainable solutions.
The GINA philosophy objective also includes the quest for sustainability on different levels. The search for new materials and production technologies favors solutions that work with less raw material and energy. A minimalist approach to the use of components and production stages yields ecological and economic benefits. As part of our endeavor to create social sustainability, we are looking for production methods that rely on the expertise of highly qualified specialists instead of expensive manufacturing tools.
With its goal-oriented research into new materials, the assessment of production processes without tools such as Rapid Manufacturing and the incentive to incessantly challenge existing solutions, the BMW Group is already equipped with a variety of tools that bring the implementation of the GINA philosophy to life for the customer. Research objects such as the GINA Light Visionary Model demonstrate that the principles of the GINA philosophy grant designers maximum freedom for approaching their subject with visionary thinking. This approach is used for finding solutions that offer customers new possibilities of adapting forms and functions to suit a variety of personal requirements and the driving situation in hand.
They pave the way for innovative ideas that can be implemented in concept cars in order to stimulate series production.
This way, visions can create products that allow drivers to interact with their vehicle in ways that reach far beyond the conventional individualization potential established thus far. The GINA philosophy allows BMW Group Design to support and steadily enhance this interaction and help drivers build a strong emotional relationship with their car. With its sensible and careful use of resources for products and their development, the GINA principle contributes to the sustainability of future car generations. After all, the social significance of the GINA philosophy is a product of its heightened application of social aspects both to the development processes and to the conscious reflection of customer requirements.
