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Ford Ranger Max

Ford Ranger Max Concept




The Ford Ranger Max pushes everyone's expectations of Ranger. Visually bold and muscular, it takes to the stage at the Ford stand with confidence, sophistication and craftsmanship.

Delivering Tough Style
Genuine truck toughness comes from great design and engineering, which means the production Ford Ranger is the ideal foundation for creating Ford Ranger Max Concept. No under-skin modification was needed with Ford Ranger to produce Ranger Max.
The distinctive contrast between Ranger Max's hardcore orange paintwork with matte black accents is inspired by the functional design found in some modern power tools - just like those used by many Ranger owners every day. Ford designers recognize how absolute function and durability inspire these industrial tools and make them more appealing.

Ford Ranger Max is full of details like this, such as the word GRAB‚ imprinted subtly on the bold, black grab handle in the side of the sportsbar linked to the cab. Every letter is precisely shaped in a 'truncated' font that complements the toughness and utility the overall truck design communicates.
Several power tool brands have inspired Ford designers. Other inspirations for Ranger Max have come from active sports, such as rock climbing, and the tough, technical products used by active sportsmen.

Taking Ranger to the Max
With its character as the ultimate power tool, Ford Ranger Max Concept exudes confidence and purpose. It's up for the job - work or fun - and its tough style says so. It features full surfaces that convey the power and strength of its tough-truck backbone. The detail of its design demonstrates this show truck has been designed by people who know trucks and love them.

Dynamic Profile
Ranger Max's high impact establishes a powerful presence wherever it goes.
That bright orange high-energy colour is officially known as Mango Hit. It is the colourful creation of Debbie Pascoe, colour and trim manager, Ranger Max design team.
Its profile exudes power and dominance as well as balanced proportion. The flexed 'power dome' shape of its hood communicates the pulling power and high torque of the engine. The power dome shape carries through to influence the design of the hard tonneau cover at the rear of the vehicle. These two overt muscular design elements give Ford Ranger Max power and solidity. It's enough to scare the typical pickup into the gym for serious weight training.

Self-confident Ranger branding - embossed in the top of the front grille surround - is another proud aspect of the front design.
Two major design elements link together to form the dominant frontal look of Ford Ranger Max Concept. The corporate three-bar grille imbeds itself into the lower enlarge air intake. A distinct line starting from the headlamps follows around the nostril and borders the lower air intake. This signature line unites the major design elements to create the defined face of Ranger Max.

Powerful Pulling Away
Ford Ranger Max has presence on the road. Its bold rear design is the combination of proportion and details such as the pronounced contours of the tonneau cover which emulate the power bulge on the bonnet. The distinctive sportsbar integrates the cabin area with the tonneau cover. Continuing rearward, Ranger Max is neatly finished off with a tailgate cladding embossed with RANGER and a pair of unique tail lamps.



MODIFIKASI Audi A8 Razor GTR-10

MODIFIKASI Audi A8 Razor GTR-10


Houses Modification to modify the total German PPI Automotive Audi R8 V10 to produce performance and special appearances. The more exclusive because the car is named PPI Razor GTR-10 was produced limited.

R8 exterior look sharper thanks to the package body kit, including front bumper, side skirts, rear fenders, rear bumper, rear spoiler and diffuser. Lined hood carbon fiber material and air intake hole. Including the back-coated carbon fiber.
In fact, such as doors, roof pillars, side skirts and front bumper made of genuine carbon fiber. The use of this material can contribute up to 250 kg weight reduction.

The use of carbon fiber also spread up into the cabin. Look at the handbrake lever, door protector panel, some of the dashboard, door trim and center console. The chair also thanks to the use of lightweight carbon fiber.

Automatic, weight reduction also contributed to improved performance. Standard V10 engine has been improved strength to 601 PS (previously 525 PS) and peak torque of 565 Nm (previously 529 Nm). With modifications to the R-Tronic transmission, the ability to accelerate from 0-100 lm / hour getting cut, from 3.9 seconds to 3.2 seconds. Maximum speed is also increased from 315 km / h to 335 km / hour.

Forward the overflow of energy to the highway, four-wheel mounted MAG11 PPI aluminum alloy wheels measuring 9x19 inches in front and 12x20 inches in the rear. Velg wrapped in Michelin Pilot Sport 2, 245/35 19 (front) and 325/25 20 (rear)



2000 Buick Century

2000 Buick Century
2000 Buick Century
2000 Buick Century
2000 Buick Century
2000 Buick Century

2000 Buick Century

2000 Buick Century
2000 Buick Century
2000 Buick Century
2000 Buick Century
2000 Buick Century

2012 Land Rover Range Rover Evoque At 2010 Paris Motor Show

2012 Land Rover Range Rover Evoque Front View
2012 Land Rover Range Rover Evoque Front View

2012 Land Rover Range Rover Evoque Official Images
2012 Land Rover Range Rover Evoque Official Images

2012 Land Rover Range Rover Evoque Center Console
2012 Land Rover Range Rover Evoque Center Console

2012 Land Rover Range Rover Evoque Side View
2012 Land Rover Range Rover Evoque Side View

2012 Land Rover Range Rover Evoque Clauster Gauge and Steering Wheel View
2012 Land Rover Range Rover Evoque Clauster Gauge and Steering Wheel View

2012 Land Rover Range Rover Evoque First Look
2012 Land Rover Range Rover Evoque First Look

2012 Land Rover Range Rover Evoque Car Interior
2012 Land Rover Range Rover Evoque Car Interior

2012 Land Rover Range Rover Evoque At 2010 Paris Motor Show
2012 Land Rover Range Rover Evoque At 2010 Paris Motor Show

2012 Land Rover Range Rover Evoque Rear View
2012 Land Rover Range Rover Evoque Rear View

2012 Land Rover Range Rover Evoque Seats Photo
2012 Land Rover Range Rover Evoque Seats Photo

2012 Land Rover Range Rover Evoque Pictures
2012 Land Rover Range Rover Evoque Pictures

Lotus Sports Cars Evora Type 124 Endurance Racecar

Proton-owned and British-based sports car maker Lotus has announced the Evora Type 124 Endurance Racecar (pronounced One Twenty Four). Based on the Evora road car, it is powered by a mid-mounted Toyota V6 powerplant. The engine is race-tuned and can output over 400PS, depending on race regulations. The power unit is linked to a 6 speed sequential transmission with steering wheel-mounted paddle shifters. It can weigh less than 1,200 kg, again depending on race regulations, thanks to an aluminium chassis, very strong lightweight forged aluminium wishbones and lightweight composite and carbon fiber panels.
Lotus Sports Cars Evora Type 124 Endurance Racecar
The Lotus Evora Type 124 Endurance Racecar has been developed from the award-winning Evora road car and is built to FIA regulations and safety standards. Based on the standard Evora road car, the Evora Type 124 (pronounced One Twenty-four) will make its 24 hour racing debut at the ADAC Nurburgring 24 hours race. According to Lotus, the Evora was designed for racing from the start and this made it very easy for the team to convert the Evora into a racecar, thanks to the mid-engine layout, stiff bonded aluminium chassis and lightweight forced aluminium wishbones for the suspension.
The Type 124 (pronounced One Twenty Four) Endurance Racecar is the next step in the evolution of the Evora. The car will make its 24 hour racing debut at the ADAC Nürburgring 24 Hours which provides a great test for the Evora’s performance, efficiency and durability under tough and demanding endurance race conditions.
The Evora gets a race-tuned version of the Toyota V6 mated to a 6-speed sequential paddle shift racing gearbox, and it now produces over 400 PS which is well over the 100 PS per liter ratio. I wish they’d listed out more specifications as to the specs of the engine – I dig this kind of stuff. In stock form, the Evora makes 280 horsepower from its 3.5 liter V6 engine, but even for the road car its said that a supercharged version could come later putting out over 400 horses.
At the heart of the Lotus Evora are fundamental racecar elements: mid-engine layout, high-tech and super-stiff extruded and bonded aluminium chassis and very strong lightweight forged aluminium wishbones. All these elements mean that it is a natural evolution from the road going Lotus Evora to a competitive endurance racecar.
From the outset the design team had intentions to take the Evora racing and the chassis was designed with this in mind. Endurance races are the perfect events to showcase the efficiency, handling and durability characteristics that have been fundamental to the concept of the Evora.
The Lotus Evora Type 124 Endurance Racecar has a race-tuned version of the mid-mounted Toyota V6 engine, with power increased to over 400 ps (depending on race regulations). Vehicle mass is expected to be reduced by up to 200 kg, bringing the weight of the racecar to less than 1200 kg (depending on race regulations).
Further changes for the Lotus Evora Type 124 Endurance Racecar include a six speed sequential paddle shift racing gearbox, full FIA specification roll cage, FIA-compliant 120 litre ATL fuel system, FIA fire extinguisher system, competition carbon fibre rear wing, diffuser and front splitter.
The racecar is fitted with AP Racing 6 piston callipers front and rear, with a race-tuned Bosch ABS system, 4-way adjustable dampers and adjustable anti-roll bars. The racecar runs on 18” rims shod with Pirelli racing slicks and the wheels widths have been increased over the roadcar to 9 ½ J on the front and 11 J on the rear.
Loads of goodies are added to the car – AP Racing 6 pot brakes on both front and back, a race-tuned Bosch ABS system, 4-way adjustable dampers, adjustable anti-roll bars, 18 inch wheels (nice and wide 9.5 from and 11 at the rear) with Pirelli slicks, a full FIA rollcage, an FIA 120 liter ATL fuel system, FIA fire extinguisher, yet weight is cut down from the production car to under 1200kg depending on race regulations. This is thanks to the use of carbon fiber extensively in the rear wing, diffuser, font splitter, and body panels.
The aerodynamically efficient Lotus Evora Type 124 Endurance Racecar body design, made from lightweight composite and carbon fibre panels, remains predominantly unchanged from the road car, with the only modifications being to the lower sections of the front and rear clamshells and the side sills.
Luke Bennett, Director of Lotus Cars Limited, said, “Motorsport has been in our blood ever since our founder, Colin Chapman, built the first Lotus back in 1948. We are proud of our motorsport history, which includes victories in Formula One, Le Mans, saloon car, rally car and sportscar racing around the world; more recently, we won the British GT3 Championship in 2006 with the Lotus Exige. The Lotus Evora Type 124 Endurance Racecar is from the same unique stable and we expect it to be a competitive racecar when we enter various endurance races next year.”
Roger Becker, Vehicle Engineering Director for Group Lotus Plc said, “Every Lotus car is designed to be at home on the race track as well as the road, and the Evora is no different. Designed primarily as an everyday road car, the Evora’s lightweight and stiff structure, its aerodynamics and performance means that it is perfectly suited to taming race tracks around the world, and we are looking forward to seeing the new Lotus Evora Type 124 Endurance Racecar line up on the grid for the 2010 season.”
The racecar is expected to compete in a number of endurance races in 2010/ 2011 forming part of a factory-supported race program. The races that are targeted are: The 2010 ADAC Nürburgring 24 Hours (Nürburgring Nordschleife, Germany) in May 2010, Merdeka Millennium 12 Hours (Sepang, Malaysia) in August 2010, BritCar 24 Hours (Silverstone, UK) in October 2010 and the Dubai 24 Hours (Dubai Autodrome, UAE) January 2011.

The Great And Strong Cars Of Suzuki Equator Quay Concept

Suzuki Equator Quay Concept

Suzuki Equator Quay Concept

Suzuki Equator Quay Concept

Suzuki Equator Quay Concept

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Elfin Stream liner
Elfin Stream

The Sporty Cars Of Suzuki Equator RMZ-4 Concept

Suzuki Equator RMZ-4 Concept
Both on- and Maximum towing capacity is 6,500 pounds with the 2WD V-6 Sport Package. Available wheel/tire packages include "rugged-trail" P265/75R16s on 16-inch off-road-style wheels and "long trail" P265/65R17s on 17-inch wheels. Front suspension is steel double-wishbones, and the rear solid axle uses long-travel overslung leaf springs.

Suzuki Equator RMZ-4 Concept
The Equator's long 125.9-inch wheelbase contributes to comfort and stability, while its 206.6-inch overall length (Extended Cab or Crew Cab with standard bed) provides a good balance of maneuverability and utility. Available for serious off-road duty is a comprehensive system with four-wheel active limited-slip traction control, an electronic locking rear differential, Vehicle Dynamic Control, Hill Descent and Hill Hold Control. Transmission choices are a five-speed manual (standard with the four-cylinder only) or a five-speed electronically controlled automatic, with or without available shift-on-the-fly 4WD with an electronically controlled part-time two-speed transfer case. of torque, while an optional 4.0-liter DOHC aluminum block V-6 ups the ante to a more robust 261 hp and 281 lb.-ft.

Suzuki Equator RMZ-4 Concept
Standard engine is a 2.5-liter DOHC four good for 152 hp and 171 lb.-ft. The available Premium, Sport and RMZ-4 packages include cruise control, power mirrors, locks and windows and remote keyless entry, while a Sport package adds eight-speaker-plus-subwoofer Rockford-Fosgate audio with steering wheel controls, a six-CD changer, XM Satellite Radio, an auxiliary input jack, wireless Bluetooth and, on the Crew Cab RMZ-4, even a factory moonroof. Among the handy convenience features are a dual glove box with lock, a center console box with a 12-volt power outlet, additional power points and cupholders and storage for one-liter bottles in the front doors. Extended Cabs and Crew Cabs have a fold-flat front passenger seat and flip-up rear seats with removable storage boxes underneath. The somewhat Spartan interior tries hard to strike a balance between car comfort and truck function.

Suzuki Equator RMZ-4 Concept
Of course, the wide range of available accessories includes specialized bed components for securing and transporting a motorcycle or ATV a relatively simple task. Extended Cab and Crew Cab models offer an available "high-utility" bed with a spray-on bedliner and a cleverly useful tie-down system with adjustable tracks. A set of unique Suzuki styling elements-including the hood, front fenders, grille, bumpers, front fascia and tailgate-differentiate Equators from their Nissan Frontier cousins. Beyond that, very few of today's pickup alternatives are fuel-efficient compact or midsize, and this very competitive new Suzuki Equator line provides another set of excellent choices. It's available for 2009 in Extended and Crew Cab, short- and long-bed and rear- or four-wheel-drive (4WD) variations.

Suzuki Equator RMZ-4 Concept
Suzuki says this new Equator, developed as a joint effort with Nissan North America-and named "4X4 of the Year" by 4-Wheel & Off-Road magazine-offers a well-rounded blend of comfort, style, utility and off-road capability, and we can't argue. Come to think of it, why has Suzuki, known better to most Americans for its motorcycles, ATVs and boat motors than for its cars, brought a new pickup to market at all? truck sales were tanking due to high gas prices? Why has small-but-growing Japanese automaker Suzuki brought a new midsize pickup truck to market just as U.S.