Acura = Aero = Alfa-Romeo = Alpina = Artega = Ascari = Aston-Martin = Audi = BMW = Bentley = Brabus = Bugatti = Buick = Cadillac = Caparo = Chevrolet = Chrysler = Citroen = Covini = Dacia = Daewoo = Daihatsu = Daimler = Devon = Dodge = Donkervoort = Farbio = Ferrari = Fiat = Fisker = Ford = GM = GMC = Gumpert = Holden = Honda = Hummer = Hyundai = Infiniti = Italdesign = Jaguar = Jeep = KTM = Kia = Koenigsegg = Lamborghini = Lancia = Land Rover = Leblanc = Lexus = Lincoln = Lobini = Lotus = MG = Mansory = Maserati = Maybach = Mazda = Mazel = McLaren = Mercedes-Benz = Mercury = Mindset = Mini = Mitsubishi = Morgan = Nismo = Nissan = Noble = ORCA = Oldsmobile = Opel = PGO = Pagani = Peugeot = Plymouth = Pontiac = Porsche = Renault = Rolls-Royce = Rover = Saab = Saturn = Scion = Skoda = Smart = Spyker = SsangYong = Startech = Stola = Strosek = Suzuki = Torino = Subaru = Think = Toyota = Tramontana = Valmet = Vauxhall = Venturi = Volkswagen = Volvo = Wiesmann = Yes = Zagato = Zenvo.

Friday, January 7, 2011

Hyundai i-flow Concept, 2010

Hyundai i-flow Concept, 2010

 
 
 
 Making its global debut at the 2010 Geneva Motor Show, the Hyundai i-flow Concept car carries forward the company's evocative new form language, 'fluidic sculpture'. The flowing, elegant lines not only create a bionic, futuristic shape, but also contribute to exceptional aerodynamics, helping to reduce the car's CO2 output to just 85g/km and fuel consumption to only 3l/100km.

Hyundai's first diesel hybrid powertrain is also a key factor in delivering such an environmentally-conscious return, as is the application of next-generation materials and technologies developed in cooperation with leading chemical company BASF.

Previewing a future D-segment contender
With an overall length of 4.780mm and a 2.800mm wheelbase, the Hyundai i-flow Concept brings new ideas and a pioneering form to the traditional European D-segment. The dramatically-sculpted forms of the interior and exterior make for a striking sports sedan, and its width and height (1.850mm and 1.420mm respectively) give it an athletic stance.

The name i-flow reflects the exceptionally aerodynamic shape and the flowing lines of the concept car's eye-catching styling, and retains the 'i' prefix of Hyundai's established alphanumeric nomenclature for Europe. In 2011 Hyundai will bring into production a new challenger in the segment, drawing on the Hyundai i-flow Concept's sleek styling and innovative technology.

Inside: minimum weight, maximum space and a bionic feel
The interior of Hyundai i-flow Concept redefines the perception of space in a sedan bodystyle. Fundamental elements, such as the seats and center console, were crafted for minimal weight and volume using cutting-edge materials from BASF - one of the world's leading automotive suppliers.

The seats, for example, were developed in conjunction with BASF using advanced stress analysis, which highlighted the unnecessary mass areas and pointed towards an optimized lightweight seat structure. 'Steron', a BASF material, gives the seats a highly-resilient quality, excellent breathability and a high-tech touch.

The upper dashboard, meanwhile, is treated with Elastoskin, a sprayed skin from BASF for a sophisticated, shimmering finish.
This technical, meticulous approach combines with an abundance of natural materials to engender a bionic feel in the cabin, further symbolized by the green color tones and the leaf-like shadows projected from the roof's semi-transparent dye-sensitized solar cells.

The cockpit's main interface centers around an expansive, contoured screen, which recognizes not only touch but also gestural inputs along its fascia-wide display. The fluidic forms of the exterior are echoed in the Hyundai i-flow Concept's cabin, where continuous lines sweep from the dashboard, through the doors to the open storage area at the rear.

Energy Conservation
BASF and Hyundai R&D engineers have developed thermal engine encapsulation, which ensures that the engine reaches optimum operating temperature more quickly, by retaining heat when the car is at idle. Where a non-insulated engine would take three hours to drop to 40°C, the Hyundai i-flow Concept will stay above that temperature for 14 hours. This translates into fuel savings and emissions cuts of 5 per cent during summer and up to 9 per cent during winter.

Energy Harvesting
Another pioneering technique introduced in collaboration with BASF is thermo-electric waste heat recovery. This process equates to further reductions in fuel consumption, 5% at highest driving. In fact, up to half of the electrical energy consumed by Hyundai i-flow Concept at 80kph - 250 watts - can be recovered through the work of a thermo-electric generator. Harvested energy from hot exhaust gases is recaptured by this generator which is fitted into the exhaust manifold. The thermal electric generator then converts the wasted heat into useful electrical energy to help power auxiliary systems.

Liquid Metal, a coating with the appearance of a glossy skin made of liquid metal, has been developed by BASF Coatings. Special effect pigments in this eco-friendly waterborne coating system let the surface appear as polished metal with targeted mirror like reflections - this gives a liquid skin appearance to the car's exterior and increases the tension of the surface in the same time. The high color saturation on the Hyundai i-flow Concept adds an energizing charisma to the Hyundai concept car. The typical high contrast between highlight and flop underlines the sculptural impact of the Hyundai i-flow Concept.

Hyundai ix-onic Concept, 2009

Hyundai ix-onic Concept, 2009

The designed to assertive but not aggressive, the Hyundai ix-onic Concept (pronounced "ik-sonnik") combines dynamic styling with an environmentally-friendly power train and thoughtful everyday utility. It creates a vehicle that will change the way consumers think about compact crossover vehicles.
With an overall length of 4,400mm, the 1,850mm-wide and 1,650mm-high Hyundai ix-onic Concept has an imposing stance and road presence but takes up little more space on the road than a C-segment hatchback.

The Key attributes of Hyundai's 'dynamic sculpture' design philosophy are the athleticism and sophistication that ix-onic demonstrates through its dynamic and flowing lines. These are emphasised by specially developed, high-contrast exterior paint. Employing an advanced-effect pigment, the innovative paint gives the car's skin a brilliant shine.

The hexagonal grille is a further evolution of the style introduced on the 2006 Genus concept car and developed for its appearance on the Hyundai i-mode concept in 2008. The headlamps feature innovative LED daytime running lights which move down electrically whenever the 'dipped beam' is switched on.

The profile of Hyundai ix-onic Concept features a dynamic glass line and a sports car-like theme with a muscular, double-zigzag treatment for the wheel arches that wrap around the 21-inch polished alloy wheels. Unusually, the concave sills have a wedge-shaped profile which extends rearwards and wraps around into the rear bumper. The sills and bumper are finished in a contrasting colour, with an aluminium garnish that echoes the trim in the door handles to enhance the perception of premium quality.

With high-mounted tail lamps, multi-surfaced glass and a sculpted bumper, the rear of Hyundai ix-onic Concept also incorporates 'dynamic design' elements. The rear lamp clusters feature a grille mesh inspired by nature, while the rear bumper also neatly incorporates the dual, polished aluminium exhaust tailpipes.

The rear window has been designed and produced by Hyundai in close cooperation with the QarmaQ-partner SABIC Innovative Plastics. Using Lexan high-performance plastics instead of conventional glass enabled the designers to give the rear window a much more three-dimensional shape. On each side of the rear window two vertical spoilers are integrated to reduce aerodynamic drag. The upper part of the window features a strongly concave shape to make it possible to integrate the roof spoiler in the rear window.

The Inside, the five-seater Hyundai ix-onic Concept offers a commanding view of the road and evokes an adventurous ambience that is also laid-back and relaxing.

An X-shaped visual theme is repeated across numerous areas of the cabin, with embossed leather to accentuate key areas while light-alloy magnesium accents provide flashes of visual brilliance. The sleek shapes of the interior are outlined with 'ice blue' seams that replicate the colour of both the ribbed ice blue floor carpet, which contains a high percentage of natural cashmere wool, and the exterior.

Shapely seats feature centre panels trimmed in breathable fabric with attractive and functional cushion side bolsters, plus additional lateral support for occupants' shoulders - all trimmed in contrasting magnesium grey.

The mounted much higher than usual in the doors, the audio speakers present occupants with a true and highly detailed, top-quality sound reproduction. The interior rear-view mirror has a 'blind spot' warning light that alerts the driver to other road users in close proximity.

The Beneath its sensational exterior, the Hyundai ix-onic Concept's power train is equipped with a 170PS, 1.6-litre GDi turbocharged, four-cylinder petrol engine, with ISG (Idle Stop & Go) technology and a double-clutch six-speed transmission. Power is transferred to the road by an intelligent four-wheel drive system fine-tuned to deliver outstanding on-road driving dynamics, together with significant off-road ability. The next-generation, eco-friendly engine emits just 149 g/km of CO2, an impressive figure for an SUV and comparable with conventional hatchbacks and superminis.

Hyundai Blue-Will Concept, 2009

Hyundai Blue-Will Concept, 2009

 
The Hyundai has revealed the first pictures of an innovative plug-in hybrid Hyundai Blue-Will Concept car. It has exceptionally advanced technology crammed inside its striking bodyshell.

The Recycled PET soft drink bottles were used to make the material for the headlamp bezels while use has also been made of bio-plastics: PLA for the interior while PA11 was specified for the engine cover. These materials are made from plants extract rather than fossil fuels and are bio-degradable.

The Hyundai Blue-Will Concept is powered by an all-aluminium Gasoline Direct Injected 1.6-litre engine which is coupled to a Continuously Variable Transmission and a 100kw electric motor which is at the heart of Hyundai's parallel hybrid drive architecture.

The Electric power, stored by a Lithium Ion Polymer battery pack, is neatly bundled with the fuel tank under the rear seat to maximise luggage space.

The Hyundai will be the first automaker in the world to apply Lithium Ion Polymer in a mass production vehicle.
A further expression of the concept's design flexibility is found on the panoramic roof. The glass area integrates dye-sensitized solar cells which can generate power for the batteries from the sun without impeding visibility.

Covini C6W Spider, 2006

Covini C6W Spider, 2006

  


The original idea for the Covini C6W was conceived by Ferruccio Covini in '74 and made provision for 10 inches front wheels because there where no low profile tyres at the time. The project was ditched in favour of the Soleado prototype, deemed more important, and lay dormant until the 80s when hydro-pneumatic suspension for the four front wheels where devised to optimise weight distribution under various loading conditions. High development costs and other contingencies forced the project to be delayed again. Its use of new ABS technologies and airbags in the 90s pointed in the direction of new research into active and passive safety. This aspect encouraged backing from companies for its development.

Why six wheels?
  • in case of a front tyre deflation, the vehicle control is guaranteed by the other wheel next to it.
  • our front disc brakes, although a smaller single area, ensure a greater braking surface; this means less overheating and a higher brake effort
  • low risk of aquaplaning, due to the two foremost wheels, which wipe the water for the ones behind them, ensuring a better roadholding
  • comfort is a consequence of more evenly distributed reaction forces in the supension: the reaction in case of a pot hole is divided between the four front wheels and the shudder in the chassis is limited.
  • reduced unsprung weight in the wheels improves the grip. Directional stability is improved: a change of angle due to slack in the steering mechanism (in stuctures like silentblocks) is compensated by the second set of wheels.
  • two additional springs and dampers provide a better handling for the vehicle.
Technical Specifications
ENGINE: rear, longitudinal, 8 cylinder in V formation, 4 valves per cylinder, naturally aspirated, petrol direct injection Bosch-motronic.
  • CAPACITY: 4200 cc
  • MAX POWER: 380 PS (260KW) at 6400 rpm
  • MAX TORQUE: about 450 Nm (45.9 Kgm) at 2700 rpm
  • TRANSMISSION: rear wheel drive transaxle
  • GEARBOX: mechanical 6-speed + reverse. Manual and electro-hydraulic steeringwheel mounted servo
  • CHASSIS: steel tubular with carbon fibre reinforcements and structural parts
  • SUSPENSION: independent front and rear wishbones
  • WHEELS AND TYRES: front 16in wheels with 215/45-16 tyres; rear 20in with 345/25-20 tyres
  • BRAKES: front and rear vented Brembo discs. Bosch servo and electronic brake distribution
  • BODYWORK: glass fibre and carbon fibre
  • DIMENSIONS: length 4180mm; width 1990mm; height 1080mm; wheelbase 2230mm/2750mm (to foremost/middle front transaxle); front track 1540mm; rear track 1620mm ; dry weight 1150 kg
  • TOP SPEED: 300 km/h (185mph)

Monday, January 3, 2011

Aston Martin Vantage GT4, 2009

Aston Martin Vantage GT4, 2009

 


The Aston Martin Racing has released the 2009 specification Aston Martin Vantage GT4 based on Aston Martin's new 4.7 litre Aston Martin V8 Vantage. The new Vantage GT4 builds on the success of its predecessor, the 4.3 litre Vantage N24.

The Aston Martin Vantage GT4 has been under development for six months and was unveiled in Dubai this week by Aston Martin chairman, David Richards, and tested extensively at the Dubai Autodrome.

The car is an evolution of the N24 with the larger capacity engine being more responsive with increased torque throughout the rev range. The suspension has been retuned to enhance the handling, including modified front uprights to give increased camber. The 2009 Aston Martin Vantage GT4 also has larger front brake discs with revised cooling.

The Aston Martin Vantage GT4 is built to FIA GT4 regulations and is eligible to compete in the following series: FIA GT4 European Cup; British GT4 Championship; Britcar Endurance Series; German GT4 Championship; Dutch Supercar Challenge; Dutch GT4 Championship; VLN Endurance Championship at the Nurburgring; Australian Endurance Championship; the American SCCA Championship; and the Aston Martin Owners Club Race Series.

The Aston Martin Vantage GT4 is based on the latest 4.7 litre V8 Vantage and is hand built by Aston Martin Racing. The 4.7 litre eight cylinder engine has an engine management system recalibrated for race use. It also has a free flow exhaust system and air filters, and the standard V8 dry sump lubrication system is retained, helping to prevent oil surge during cornering.

The Aston Martin Vantage GT4 can be supplied with either a six speed manual, or a Sportshift transmission with paddle controls. Both versions have a Valeo twin-plate cerametallic racing clutch and lightweight flywheel to complete the powertrain specification.

At 1,330 kg the Aston Martin Vantage GT4 is 300 kg lighter than the standard car. This has been achieved through a range of weight reduction measures. The interior trim is removed with the exception of the facia moulding, which is re-trimmed in Alcantara, and the console and door casings are replaced by new lightweight mouldings.

The chassis has been fitted with a high-strength steel rollcage and Recaro competition seats. A suede-trimmed steering wheel with a quick release mechanism is also fitted as standard. The Vantage GT4's safety features are completed with a Sabelt sixpoint safety harness with a push-button release and Lifeline Zero 360 gas extinguisher system.

The V8 Vantage road car's suspension has required only minor adjustments for optimal track performance. These include larger diameter front and rear anti-roll bars and adjustable ride height aluminium dampers, as well as single rate, flat ground springs with separate helper springs. The front subframe is modified for extra camber and castor. Cast magnesium front and rear wheels are standard fit with high performance Yokohama A048-R tyres. The brakes are uprated with Pagid RS 29 race pads.

As further endorsement of the standard V8 Vantage underframe, the active safety systems are directly carried over to the Aston Martin Vantage GT4, including: dynamic stability control, traction control, ABS and electronic brakeforce distribution, providing reassurance and enhanced control in slippery conditions.

The Aston Martin Vantage GT4 comes with either a manual or sportshift transmission. It is priced from £96,645 and is available to order now with delivery in January 2009.

Aston Martin V8 Vantage Roadster, 2009

Aston Martin V8 Vantage Roadster, 2009

 

 


The Aston Martin V8 Vantage - originally launched to widespread critical acclaim at the Geneva Motor Show in 2005 - is to receive significant technical enhancements, reaffirming the car's position as one of the world's most desirable and exhilarating sports cars.

While the universally distinctive and award-winning shape of the Aston Martin V8 Vantage is retained, the car benefits from a number of technical changes which include significantly up-rated engine performance from a new 4.7 litre power unit in both Coupe and Roadster variants. Other changes include revised dynamics to take full advantage of increased power and torque availability, improved Sportshift™ transmission software and a new sports suspension option.

The 4.7 litre V8 engine has a power output of 420bhp (an 11% increase on the previous 4.3 litre unit) and delivers peak torque of 470Nm (15% increase), providing the Aston Martin V8 Vantage with new reserves of mid-range performance, an improved 0-60mph time of 4.7 seconds and top speed of 180mph (288kph). Combined European fuel economy and CO2 emissions are also improved by 13% (Sportshift™).

Inside, the changes include a new centre console and revised switchgear and the introduction of an ECU replacing the previous V8 Vantage key. Externally, the acclaimed Aston Martin V8 Vantage design appearance is enhanced with a range of new standard and optional 19'' alloy wheels.

Engine
Improvements in performance have been achieved through a number of carefully developed changes to Aston Martin's acclaimed V8 engine.

The cylinder bore and stroke has been increased from 89mm to 91mm and 86mm to 91mm respectively, giving a total displacement of 4735cc.

The increase in cylinder bore is facilitated by a move to cylinder liners that are pressed into the pre-machined aluminium alloy block, allowing a thinner liner than was possible with the cast-in design of the 4.3 litre engine.

The new forged steel crankshaft provides the 91mm stroke and incorporates new holes in the counter weights for reduced rotating mass and improved inter-bay breathing. New forged steel con-rods and cast aluminium pistons complete the capacity-related changes.

Other key changes include efficiency improvements to the dry sump lubrication system, including a new sump casting with oil pick-up points moved from the front and rear to the sides of the sump. The cylinder heads are modified with a new intake port and an inlet valve size increase from 34.9mm to 35.9mm. The intake manifold has been modified to match the new port to optimise air flow.

Transmission
The Aston Martin V8 Vantage transmissions have also undergone changes to improve performance and to handle the increased levels of power and torque. Both the standard manual stick-shift gearbox and the optional Sportshift™ transmission benefit from a modified clutch and flywheel, reducing clutch pedal efforts and delivering a 0.5kg weight saving, reducing the rotating masses within the powertrain, and hence increasing engine responsiveness.

Aston Martin's Sportshift™ transmission has undergone a series of specific changes to broaden the capabilities of the gearbox to offer customers enhanced comfort and convenience with sporting capabilities. Changes include a revised control strategy, allowing the transmission, rather than the engine, to dictate how best the engine torque should be deployed to optimise performance and deliver power smoothly and consistently.

'Dual Throttle Map' software is also featured. When 'Comfort' mode is selected the engine reacts in a smoother more progressive manner to driver throttle inputs and in the default 'Sports' mode the throttle mapping is more aggressive, delivering a more dynamic and sporting feel.

Sportshift now also has the capability to take inputs from the steering wheel enabling the current gear to be held when the car is negotiating a corner and hill descent detection, allowing a low gear to be held, maximising the effects of engine braking.

Suspension
A series of improvements are introduced to the Aston Martin V8 Vantage chassis and suspension setup to deliver improved body control and low speed ride quality; enabling the driver to take full advantage of the increased performance potential.

A number of the improved components originally introduced on the Aston Martin V8 Vantage Roadster are now carried over to the Coupe, including revised upper damper mountings and bump stops. Additionally, the front spring rates are stiffened by 11% at the front and 5% at the rear.

Steering geometry is also modified to improve steering feel, while the front lower suspension arm compliance bushes are stiffened by 22% to provide enhanced steering response and handling.
The Aston Martin V8 Vantage also now benefits from Bilstein dampers as standard; these low-friction dampers provide improved levels of dynamic capabilities and further improve ride quality.

Design & Optional Equipment

Also introduced as an option for both Coupe and Roadster variants is a new Sports Pack which comprises forged lightweight alloy wheels aiding a lower unsprung mass, re-tuned Bilstein dampers with improved dynamic response, up-rated springs and a revised rear anti-roll bar (Coupe only). The Sports Pack is intended to offer greater agility, high speed body control and precision feel for the most enthusiastic of drivers.

Though the award-winning exterior design of the Aston Martin V8 Vantage remains largely unchanged, a new 20-spoke 19'' alloy wheel is introduced as standard, with either diamond turned silver or graphite finishes available as options, affording customers maximum choice. Alternatively, as part of the Sports Pack option, a 5-spoke lightweight aluminium wheel will be provided.

In the cabin, a new centre console constructed from die cast zinc alloy with a graphite silver finish is introduced along with a new ECU - first seen on the Aston Martin DBS in 2007. The ECU - constructed from glass, polished stainless steel and polycarbonate - replaces the key used previously for the Aston Martin V8 Vantage. The revised car also includes a new Hard Disk Drive (HDD) Navigation System offering faster route processing, additional features and improved graphics. Full ipod/MP3 integration is retained as standard equipment.

Aston Martin V8 Vantage, 2009

Aston Martin V8 Vantage, 2009

 
 

The Aston Martin V8 Vantage - originally launched to widespread critical acclaim at the Geneva Motor Show in 2005 - is to receive significant technical enhancements, reaffirming the car's position as one of the world's most desirable and exhilarating sports cars.

While the universally distinctive and award-winning shape of the Aston Martin V8 Vantage is retained, the car benefits from a number of technical changes which include significantly up-rated engine performance from a new 4.7 litre power unit in both Coupe and Roadster variants. Other changes include revised dynamics to take full advantage of increased power and torque availability, improved Sportshift transmission software and a new sports suspension option.

The 4.7 litre V8 engine has a power output of 420bhp (an 11% increase on the previous 4.3 litre unit) and delivers peak torque of 470Nm (15% increase), providing the Aston Martin V8 Vantage with new reserves of mid-range performance, an improved 0-60mph time of 4.7 seconds and top speed of 180mph (288kph). Combined European fuel economy and CO2 emissions are also improved by 13% (Sportshift).

Inside, the changes include a new centre console and revised switchgear and the introduction of an ECU replacing the previous V8 Vantage key. Externally, the acclaimed Aston Martin V8 Vantage design appearance is enhanced with a range of new standard and optional 19'' alloy wheels.
 
Engine
Improvements in performance have been achieved through a number of carefully developed changes to Aston Martin's acclaimed V8 engine.
The cylinder bore and stroke has been increased from 89mm to 91mm and 86mm to 91mm respectively, giving a total displacement of 4735cc.

The increase in cylinder bore is facilitated by a move to cylinder liners that are pressed into the pre-machined aluminium alloy block, allowing a thinner liner than was possible with the cast-in design of the 4.3 litre engine.

The new forged steel crankshaft provides the 91mm stroke and incorporates new holes in the counter weights for reduced rotating mass and improved inter-bay breathing. New forged steel con-rods and cast aluminium pistons complete the capacity-related changes.

Other key changes include efficiency improvements to the dry sump lubrication system, including a new sump casting with oil pick-up points moved from the front and rear to the sides of the sump. The cylinder heads are modified with a new intake port and an inlet valve size increase from 34.9mm to 35.9mm. The intake manifold has been modified to match the new port to optimise air flow.

Transmission
The Aston Martin V8 Vantage transmissions have also undergone changes to improve performance and to handle the increased levels of power and torque. Both the standard manual stick-shift gearbox and the optional Sportshift™ transmission benefit from a modified clutch and flywheel, reducing clutch pedal efforts and delivering a 0.5kg weight saving, reducing the rotating masses within the powertrain, and hence increasing engine responsiveness.

Aston Martin's Sportshift™ transmission has undergone a series of specific changes to broaden the capabilities of the gearbox to offer customers enhanced comfort and convenience with sporting capabilities. Changes include a revised control strategy, allowing the transmission, rather than the engine, to dictate how best the engine torque should be deployed to optimise performance and deliver power smoothly and consistently.

'Dual Throttle Map' software is also featured. When 'Comfort' mode is selected the engine reacts in a smoother more progressive manner to driver throttle inputs and in the default 'Sports' mode the throttle mapping is more aggressive, delivering a more dynamic and sporting feel.

Suspension
A series of improvements are introduced to the Aston Martin V8 Vantage chassis and suspension setup to deliver improved body control and low speed ride quality; enabling the driver to take full advantage of the increased performance potential.
Steering geometry is also modified to improve steering feel, while the front lower suspension arm compliance bushes are stiffened by 22% to provide enhanced steering response and handling.
The Aston Martin V8 Vantage also now benefits from Bilstein dampers as standard; these low-friction dampers provide improved levels of dynamic capabilities and further improve ride quality.

Design & Optional Equipment

Introduced as an option for both Coupe and Roadster variants is a new Sports Pack which comprises forged lightweight alloy wheels aiding a lower unsprung mass, re-tuned Bilstein dampers with improved dynamic response, up-rated springs and a revised rear anti-roll bar (Coupe only). The Sports Pack is intended to offer greater agility, high speed body control and precision feel for the most enthusiastic of drivers.Though the award-winning exterior design of the Aston Martin V8 Vantage remains largely unchanged, a new 20-spoke 19'' alloy wheel is introduced as standard, with either diamond turned silver or graphite finishes available as options, affording customers maximum choice. Alternatively, as part of the Sports Pack option, a 5-spoke lightweight aluminium wheel will be provided.

In the cabin, a new centre console constructed from die cast zinc alloy with a graphite silver finish is introduced along with a new ECU - first seen on the Aston Martin DBS in 2007. The ECU - constructed from glass, polished stainless steel and polycarbonate - replaces the key used previously for the Aston Martin V8 Vantage. The revised car also includes a new Hard Disk Drive (HDD) Navigation System offering faster route processing, additional features and improved graphics. Full ipod/MP3 integration is retained as standard equipment..

Performance

    * Max speed: 180mph (290 km/h)
    * Acceleration: 0-60mph 4.7 seconds
    * 0-100km/h (62mph) 4.8 seconds
    * Max power: 313kW (420bhp) @ 7000 rpm
    * Max torque: 470 Nm (346 lb.ft) @ 5750 rpm

Aston Martin Lagonda Concept, 2009

Aston Martin Lagonda Concept, 2009

   

The Aston Martin Lagonda Concept celebrates 100 years of car production under the Lagonda brand, a stunning contemporary evolution of this evocative name.
The modern Lagonda marries functionalism with luxury, through organic forms, rich materials and complex surfaces. The car is based on an advanced platform that is tailored to accommodate a broad range of future powertrains, including flexfuel, low emission diesel and hybrid systems.

The clear delineation between cabin, shoulder and flank is strongly reminiscent of the powerful and evocative lines of the 1930s era Lagondas, in particular the V12-engined version of the LG6. Viewed from the front of the concept, the deep, strong grille also evokes the presence and frontage of the cars from the inter-war era. The bold character lines that run along the sculpted flanks to the rear ensure the concept is planted firmly on the road. The large 22" wheels and cut-away bodywork offer exceptional ground clearance, while the concept's V12 engine delivers power through all four wheels.

A modern automotive brand must have strong core values and a broad range of abilities. The modern Lagonda will be the pre-eminent long-distance automobile, a vehicle that combines cosseting luxury with extreme functionality and technological innovation.
The Lagonda name has been an integral part of the Aston Martin story since 1947. The Aston Martin Lagonda Concept illustrates how the brand will once again stand together with Aston Martin as the perfect complement to modern performance. A Lagonda stands for functional elegance, performance, simplicity and comfort.

Lagonda: Revival of a Luxury Brand
Aston Martin is proud to announce the return of Lagonda, one of the most iconic names in luxury car manufacturing. The intention is for Lagonda to enter the market place with a unique performance luxury product, a vehicle that combines exceptional ability with unsurpassed elegance, inside and out.

Lagonda's return signals a major expansion of Aston Martin's product line, taking the company into new and emerging markets around the world. To demonstrate the Lagonda vision, the Aston Martin Lagonda Concept has been created, a car that epitomises the intersection of craft, design and technology with Aston Martin's established high performance expertise.
The return of Lagonda fulfils a long-term vision. Aston Martin's modern era began in 2001 with the launch of the V12 Vanquish and the construction of the award-winning headquarters at Gaydon, Warwickshire in 2003. In the years that followed, Aston Martin has launched four class-leading new products, revitalising the performance GT category and redefining automotive beauty.

Aston Martin's award-winning range, the DBS, DB9, Vantage and forthcoming Rapide and One-77, represent some of the most beautiful high performance cars ever built, refined, highly crafted and extremely well-engineered. An Aston Martin will always be a sports car; modern, exclusive and beautiful, it demands to be driven, with an exceptional character that rewards the enthusiast, both on the road and on the track. Above all, an Aston Martin creates an emotional response. It is a machine with soul.

Heritage
Lagonda is one of the great names in automotive history, a brand associated with luxury, performance, grace and exclusivity. Since the first Lagonda production car, was built 100 years ago by the American-born Wilbur Gunn, the Lagonda name has undergone several incarnations, before it soon began to excel at creating racing cars and sporting saloons.

Gunn's first car was built in his home workshop in Middlesex, England in 1909. In 1910, Gunn drove his 16/18hp Lagonda Tourer to victory in the Russian Reliability Trial, a spectacular event run by the Imperial Automobile Club of Russia as a public relations exercise for the country's nascent road system. The win brought in many orders, and Gunn focused his attention on the Russian market, establishing dealerships in St Petersburg and Moscow in 1910.

Russian roads presented entrants with daunting driving conditions and the route, which included St Petersburg, Riga, Kiev and Moscow, was a rigorous test for any car. Gunn's success was a vindication of the Lagonda's sturdy build and swift performance. It was not until the following year that Lagonda began marketing cars in its home country, beginning a limited production of light cars that was eventually halted by the First World War.

Throughout the 20s and 30s, the company expanded its premises in Staines, England with the light cars giving way to more substantial touring models. Lagonda came to epitomise the Edwardian passion for setting new records and exploring new territories, with robust and reliable vehicles that could effortlessly forge trans-continental links.

In 1933, the manufacturer launched the M45 at the Olympia Motor Show in London, a sporting tourer powered by the Henry Meadows-designed six-cylinder 4.5-litre engine. The prototype was driven by the aristocrat and enthusiast Edward Russell, Lord de Clifford, from Dieppe to Brindisi in Greece, beating the express train along the same route by some 14 hours. The result was a media sensation.

The M45 quickly became known as a car for the discerning sportsman, fast and capable yet also sufficiently comfortable for long journeys. In its day it had the largest engine in its class, a distinction that attracted owners like the land speed record holder Sir Malcolm Campbell, who had his M45 painted in his signature blue.

The emerging sport of long-distance endurance racing also became an integral part of Lagonda's development. In June 1935, a lightweight version of the M45 won the Le Mans 24 hours, with John Hindmarsh and Luis Fontes behind the wheel. This was a landmark achievement for the brand, as well as a highpoint of British sports car racing in the interwar era following Bentley's heyday in the 1920s.

The same month, Lagonda was bought by Alan Good, a charismatic British lawyer whose first task was to enlist the skills of engineer W.O. Bentley. The results were the LG45 styled by Frank Feeley that represented the apex of the engineering skills of the time. In 1936, W.O. Bentley designed Lagonda's first V12, an engine that was perfectly at home in the majestic long-wheelbase version of the new chassis.

The Lagondas of the 1930s demonstrated total harmony between engineering and appearance, including the stately LG6 model introduced in 1937. W.O. Bentley's diligent innovation and refinement continued throughout the war, and the company developed the LG6 into a V12 model, an even more 'imposing and dignified' saloon that sadly ceased production before the start of the war. Simultaneously, the engineer developed a new six-cylinder engine, during the war, the benefits of which were soon to be reaped by Aston Martin.

Aston Martin DB9 Volante, 2009

Aston Martin DB9 Volante, 2009

 
 


Aston Martin introduced a revised version of the company's critically acclaimed Aston Martin DB9 at the 2008 Geneva Motor Show, which includes significant enhancements to standard specification. These changes include a revised version of Aston Martin's 6.0 litre V12 engine to deliver improved power and torque. Peak power of 470bhp (350kW) - increased by 20bhp (30Nm) - is now reached at 6,000rpm, resulting in a power to weight ratio of 267bhp per tonne (199kW/tonne) - an increase of 11bhp per tonne over the existing Aston Martin DB9.

Peak torque of 600Nm is delivered at 5,000rpm, providing even more accessible power for the driver, as well a greater performance feel overall. Accordingly, top speed is now 190mph (306km/h) and the benchmark 0-60mph time improves by 0.3 seconds for the Touchtronic transmission - which benefits from a new valve box and integrated transmission controls to achieve quicker gear shifts - to 4.6 seconds and by 0.1 seconds to 4.6 seconds for the manual gearbox.

The latest Aston Martin DB9 also incorporates a series of chassis developments for both the Coupe and Aston Martin DB9 Volante derivates. Bilstein dampers are introduced in addition to revised upper suspension arms and retuned suspension bushes to deliver improved ride quality; aiding greater refinement in the Aston Martin DB9 Volante and an enhanced sporting feel in the Coupe. The Aston Martin DB9 Volante also benefits from revisions to the front shear panel which increases torsional rigidity by 10%, further improving refinement.

The Aston Martin DB9 manages to combine all facets of style, quality and usability of a traditional Aston Martin without relying on retrospective detail or design. Accordingly, styling changes to the revised Aston Martin DB9 are subtle, reflecting the car's timeless design and understated elegance.

Exterior styling changes include the introduction of a new standard 19'' 10-spoke alloy wheel, new door mirrors and a revised anodised aluminium five-bar grille. In the cabin changes include a new centre console constructed from die cast zinc with a painted iridium silver finish and the introduction of a new Emotion Control Unit (ECU) - first seen on the Aston Martin DBS in 2007. The ECU - constructed from glass, polished stainless steel and polycarbonate - replaces the key used previously for the Aston Martin DB9.

The innovative Aston Martin DB9 introduced an exciting new era for Aston Martin. The 2+2 sports car set new standards in its class due to its astonishing combination of technology, agility and design. The car marked the beginning of a new era for Aston Martin and became the first car to be hand-made at the company's state-of-the-art facility in Gaydon, Warwickshire.

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