Fiat previewed the all new 500 in March 2007 - exactly 50 years after the first Fiat 500 was presented. The design of the new 2007 Fiat 500 is based on the 2004 Fiat Trepiuno concept. This car features a distinctive retro-look just like the Volkswagen New Beetle and BMW MINI but is substantially cheaper than those cars, with a starting price of €10,500 (similar to how the original Fiat 500 was cheaper than the Volkswagen Beetle and Austin Mini). Fiat shares the underpinnings of the new 500 with Ford for the 2009 Ford Ka. Production takes place in Fiat facilities in Tychy, Poland, and was scheduled for mid 2007, with commercial debut in September 2007.
Ultimate Cars Review
Saturday, June 5, 2010
Friday, June 4, 2010
Mazda RX-8 Review
The Mazda RX-8 was launched in the UK in October 2003 and has taken the UK sports coupe market by storm. With the introduction of the RX-8 Mazda have created a 4-door, 4-seat coupe that is both practical and exciting to drive.
At the heart of the RX-8 is the RENESIS rotary engine which functions in a totally different way to a conventional internal combustion engine and was developed by German inventor Felix Wankel a man who didn't hold a driving licence or an engineering degree.
On his death Mazda Motor Corporation continued to develop engines without valves and connecting rods according to the Wankel principle. The result is the RENESIS engine - the most powerful non-turbo Mazda rotary engine.
The RX-8 is available with a choice of two power versions the entry level producing 192 PS and the flagship model producing 231 PS. Prices range from £20,500 for the 192 PS model and rise to £22,300 for the 231 PS model.
As motoring journalists we drive a large number of cars every year and sadly you do become immune to the novelty of a new car - but this was not the case with the RX-8 we couldn't wait to drive it.
Model Reviewed Mazda RX-8 High Power (231 PS)
Body Type Coupe
Colour Winning Blue Metallic
Performance ~ manufacturers figures
0 - 62 mph 6.4 Seconds
Top Speed 146 mph
Transmission 6-Speed Manual
Fuel Type Unleaded Petrol
Economy ~ manufacturers figures
Urban 18.1 mpg
Extra Urban 32.5 mpg
Combined 25.2 mpg
Insurance Group 16
Euro NCAP Rating TBA
Wednesday, June 2, 2010
Spyker Car Review
Spyker was a Dutch car manufacturer, started in 1880 by coachbuilders Jacobus and Hendrik-Jan Spijker, but to be able to market the brand better in foreign countries, in 1903 the 'ij' was changed into 'y'. They were originally based in Hilversum but in 1898 moved to Trompenburg, Amsterdam.
In 1898 Spyker manufactured the "Golden Carriage", still in use by the Dutch Queen today.
It was also in 1899 that they started building automobiles and in 1900 put their first models on display, two cylinder 3 hp and 5 hp similar to the Benz. Four cylinder models were introduced in 1903, along with the six cylinder Spyker 60 HP, a racer with the world's first ever four-wheel drive car with a single engine and four-wheel brakes.
The 1905 cars featured a round radiator grille which became a feature of many of the pre war cars. In 1913 the company was having financial problems again and in 1915 was taken over by new owners and renamed Nederlandsche Automobiel en Vliegtuigfabriek Trompenburg (Dutch Car and Aircraft company). Under the new owners, the previous complex model range was simplified and a new car, the 13/30 C1, introduced; sales were disappointing. In 1907, an 18 hp model successfully competed in the Peking to Paris race.
Hendrik-Jan Spijker died in 1907 when the ferry he was on when returning from England sank, and this loss led to the bankruptcy of the original company. A group of investors bought the company and restarted production, but Jacobus Spijker was no longer involved.
During World War I, in which the Netherlands were neutral, they manufactured airplanes and aircraft engines.
In 1922 the company went bankrupt again and was acquired by Spyker's distributor in Britain who renamed the company Spyker Automobielfabriek. Production continued and prices dropped but the company continued to decline. Final production was of the C2 two-ton truck and the C4 car which lasted until 1926 when funds finally ran out.
It is estimated total Spyker car production was at most 2000 cars.
Now They are Back
In 1898 Spyker manufactured the "Golden Carriage", still in use by the Dutch Queen today.
It was also in 1899 that they started building automobiles and in 1900 put their first models on display, two cylinder 3 hp and 5 hp similar to the Benz. Four cylinder models were introduced in 1903, along with the six cylinder Spyker 60 HP, a racer with the world's first ever four-wheel drive car with a single engine and four-wheel brakes.
The 1905 cars featured a round radiator grille which became a feature of many of the pre war cars. In 1913 the company was having financial problems again and in 1915 was taken over by new owners and renamed Nederlandsche Automobiel en Vliegtuigfabriek Trompenburg (Dutch Car and Aircraft company). Under the new owners, the previous complex model range was simplified and a new car, the 13/30 C1, introduced; sales were disappointing. In 1907, an 18 hp model successfully competed in the Peking to Paris race.
Hendrik-Jan Spijker died in 1907 when the ferry he was on when returning from England sank, and this loss led to the bankruptcy of the original company. A group of investors bought the company and restarted production, but Jacobus Spijker was no longer involved.
During World War I, in which the Netherlands were neutral, they manufactured airplanes and aircraft engines.
In 1922 the company went bankrupt again and was acquired by Spyker's distributor in Britain who renamed the company Spyker Automobielfabriek. Production continued and prices dropped but the company continued to decline. Final production was of the C2 two-ton truck and the C4 car which lasted until 1926 when funds finally ran out.
It is estimated total Spyker car production was at most 2000 cars.
Now They are Back
BMW GINA Light Visionary Model revealed
The BMW GINA Light Visionary Model that was seen via video being installed in the BMW Museum in Munich last week has finally been revealed, and the futuristic design study shows how BMW designers are thinking outside of the box when it comes to the materials that make up a car and also how the car relates to the driver. GINA stands for "Geometry and Functions in 'N' Adaptations", which basically means that designers from both BMW and BMW Group DesignworksUSA were allowed to throw out the rulebook. This is most evident in the GINA Light Visionary Model's outer skin, which is made entirely out of textile fabric that's pulled taut around a frame of metal and carbon fiber wires. The skeleton of the car is controlled by electro-hydraulic devices and can actually move and change shape beneath the fabric skin. For instance, the headlights of the concept can be exposed or hidden by the car's skin just like blinking eyes, and the hood opens from the center as the fabric parts to expose the engine. This idea extends to the interior, where BMW designers have made visible only those instruments that are required at a certain time, while the rest of the time the same fabric interior "blinks" them out of view. The car itself looks somewhat like a Z4 Roadster, though after viewing the extensive gallery of high-res images below, you'll be amazed how much the outer skin looks like normal sheetmetal. Until, that is, you see how the doors open. They lift up in a semi-scissor fashion and since there are no exposed hinges, the fabric artfully binds up as the door swings open. While the design of the GINA Light Visionary Model is very Bangle-esque with concave and convex surfaces intermingling everywhere you look, it looks appropriate and natural here. The car is very much a concept, meant more to inspire BMW's own designers and engineers rather than excite the public, but now we're excited about shape-changin, fabric-covered cars, anyway.
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" Adaptions) 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 concept-tions - 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" Adaptions
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 Coupé 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 Coupé 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 Manufactu-ring 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 Coupé. 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 Coupé 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 Coupé concept car, for example, and the interplay of convex-concave surfaces that has affected the design of all produc-tion 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 Coupé 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.
The 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.
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