The Ferrari 250 is a sports car built by Ferrari from 1953 to 1964. The companys most successful line, the 250 series included several variants. It was replaced by the 275 and the 330, most 250 road cars share the same two wheelbases,2,400 mm for short wheelbase and 2,600 mm for long wheelbase. Most convertibles used the SWB type, nearly all 250s share the same Colombo Tipo 125 V12 engine. At 2,953 cc, it was notable for its weight and impressive output of up to 300 PS in the Testa Rossa. The V12 weighed hundreds of less than its chief competitors — for example. Ferrari uses the displacement of a cylinder as the model designation. The light V12 propelled the small Ferrari 250 racing cars to numerous victories, typical of Ferrari, the Colombo V12 made its debut on the race track, with the racing 250s preceding the street cars by three years. The first 250 was the experimental 250 S berlinetta prototype entered in the 1952 Mille Miglia for Giovanni Bracco, the car was entered at Le Mans and in the Carrera Panamericana.
The 250 S used a 2,250 mm wheelbase with a Tuboscocca tubular trellis frame, suspension was by double wishbones at the front, with double longitudinal semi-elliptic springs locating the live axle at the rear. The car had the drum brakes and worm-and-sector steering typical of the period, the dry-sump 3.0 L engine used three Weber 36DCF carburettors and was mated directly to a five-speed manual transmission. Following the success of the 250 S in the Mille Miglia, Pinin Farina created coupé bodywork which had a small grille, compact tail and panoramic rear window, and the new car was launched as the 250 MM at the 1953 Geneva Motor Show. Carrozzeria Vignales open barchetta version was a design whose recessed headlights. The 250 MMs wheelbase was longer than the 250 S at 2,400 mm, the V12 engines dry sump was omitted from the production car, and the transmission was reduced by one gear. Power was increased to 240 PS, the four-cylinder 625 TF and 735 S replaced the V12-powered 250 MM in 1953. The 250 MMs race debut was at the 1953 Giro di Sicilia with privateer Paulo Marzotto, a Carrozzeria Morelli-bodied 250 MM barchetta driven by Clemente Biondetti came fourth in the 1954 Mille Miglia.
The 1954250 Monza was and unusual hybrid of the light four-cylinder 750 Monza, the model used the 250 engine in the short-wheelbase chassis from the 750 Monza. The first two used the Pininfarina barchetta shape of the 750 Monza and a one-off 500 Mondial, two more 250 Monzas were built by Carrozzeria Scaglietti, an early use of the now-familiar coachbuilder
Pininfarina S. p. A. is an Italian car design firm and coachbuilder in Cambiano, Italy. It was founded by Battista Pinin Farina in 1930. On December 14,2015, Mahindra Group, Pininfarina is employed by a wide variety of automobile manufactures to design vehicles. Since the 1980s Pininfarina has designed high-speed trains, trams, rolling stocks, automated light rail cars, people movers, airplanes, with the 1986 creation of Pininfarina Extra they have consulted on industrial design, interior design and graphic design. Pininfarina was run by Battistas son Sergio Pininfarina until 2001, his grandson Andrea Pininfarina until his death in 2008, after Andreas death his younger brother Paolo Pininfarina was appointed as CEO. At its height in 2006 the Pininfarina Group employed 2,768 with subsidiary company offices throughout Europe, as well as in Morocco, as of 2012 with the end of series automotive production, employment has shrunk to 821. Pininfarina is registered and publicly traded on the Borsa Italiana, on December 14,2015, Mahindra Group, announced a deal to acquire Pininfarina S. p. A. in a deal worth about 168 million euros.
That first year the firm employed eighteen and built 50 automobile bodies, on May 22,1930 papers were filed to become a corporation, Società anonima Carrozzeria Pinin Farina headquartered in Turin, Italy, at 107 Corso Trapani. During the 1930s, the company built bodies for Lancia, Alfa Romeo, Isotta-Fraschini, Hispano Suiza, Fiat and this development happened in the mid-1930s when others saw the frameless construction as the end of the independent coachbilder. In 1939, World War II ended automobile production, but the company had 400 employees building 150 bodies a month, the war effort against the Allies brought work making ambulances and searchlight carriages. The Pininfarina factory was destroyed by Allied bombers ending the firms operations, after the war, Italy was banned from the 1946 Paris Motor Show. The Paris show was attended by 809,000 visitors, lines of people stretched from the gate all the way to the Seine. The managers of the Grand Palais said of the display, the devil Pininfarina, but to the press, at the end of 1945 the Cisitalia 202 Coupé was designed.
An elegantly proportioned design with a low hood, it is the car that usually is given credit for establishing Pininfarinas reputation, the Pininfarina design was honored in the Museum of Modern Arts landmark presentation Eight Automobiles in 1951. A total of 170 Coupés where produced by Pininfarina, the publicity of the Museum of Modern Art exhibit brought Pininfarina to the attention of Nash-Kelvinator managers. The subsequent cooperation with Nash Motors resulted in production of Pininfarina designs. In 1952, Mr. Farina visited the U. S, the Nash-Healey sports car body was, completely designed and assembled in limited numbers from 1952 to 1954 at Pininfarinas Turin facilities. Nash heavily advertised its link to the famous Italian designer, much as Studebaker promoted its longtime association with Raymond Loewy, there were 99 Broughams built in 1959 and 101 in 1960. A similar arrangement was repeated in the late 1980s when Pininfarina designed the Cadillac Allanté at the San Giusto Canavese factory, the car bodies were assembled and painted in Italy before being flown from the Turin International Airport to Detroit for final vehicle assembly
He was widely known as il Commendatore or il Drake. In his final years he was referred to as lIngegnere or il Grande Vecchio. Ferrari was born on 18 February 1898 in Modena and his birth certificate had recorded his birth date on 20 February because a heavy snowstorm had prevented his father from reporting the birth at the local registry office. He was the younger of two children to Alfredo and Adalgisa Ferrari, after his elder sibling Alfredo Junior, Alfredo Senior was the son of a grocer from Carpi and started a workshop fabricating metal parts at the family home. Enzo grew up with formal education. At the age of 10 he witnessed Felice Nazzaros win at the 1908 Circuit di Bologna, during World War I he served in the 3rd Mountain Artillery Regiment of the Italian Army. His father Alfredo, and his brother, Alfredo Jr. died in 1916 as a result of a widespread Italian flu outbreak. Ferrari became severely sick himself in the 1918 flu pandemic and was discharged from Italian service. Following the familys carpentry business collapse, Ferrari started searching for a job in the car industry and he unsuccessfully volunteered his services to FIAT in Turin, eventually settling for a job as test-driver for C. M. N.
A car manufacturer in Milan, which rebuilt used truck bodies into small passenger cars, on November 23 of the same year, he took part in the Targa Florio but had to retire after his cars fuel tank developed a leak. The prancing horse emblem was created when Italian fighter pilot Francesco Baracca was shot down during World War I, Baracca gave Enzo Ferrari a necklace with the prancing horse on it prior to takeoff. Baracca was tragically shot down and killed, in memory of his death, Enzo Ferrari used the prancing horse to create the emblem that would become the world famous Ferrari shield. However the world first saw this emblem on an Alfa Romeo as Ferrari was still tied up with Alfa Romeo and it was not until 1947 that the shield was first seen on a Ferrari. This was the birth of Ferrari, in 1924 Ferrari won the Coppa Acerbo at Pescara, a success that encouraged Alfa Romeo to offer him a chance to race in much more prestigious competitions. Ferrari himself continued racing until 1932, before he left Alfa Romeo to found Scuderia Ferrari, despite the quality of the Scuderia drivers, the team struggled to compete with Auto Union and Mercedes.
In 1937 Alfa Romeo decided to regain control of its racing division. Unhappy with the arrangement, Ferrari left and founded Auto-Avio Costruzioni, with the outbreak of World War II in 1943, Ferraris factory was forced to undertake war production for Mussolinis fascist government. Following Allied bombing of the factory, Ferrari relocated from Modena to Maranello, at the end of the conflict, Ferrari decided to start making cars bearing his name, and founded Ferrari S. p. A. in 1947
Battista Pinin Farina was an Italian automobile designer, the founder of the Carrozzeria Pininfarina coachbuilding company, a name associated with many of the best-known postwar sports cars. Battista Farina was born in Cortanze, the tenth of eleven children, his nickname, referred to his being the baby of the family. Pinin started working in his brother Giovannis body shop at the age of 12 and he stayed at Giovannis Stabilimenti Industriali Farina for decades, learning bodywork and beginning to design his own cars. Battista formed Carrozzeria Pinin Farina in 1930 to focus on design and construction of new car bodies, only Carrozzeria Touring was more sought-after in the 1930s. Battistas work for Ferrari, starting in 1952, would become his most famous, though much of it was managed by his son, some time in the early 1950s Stabilimenti Farina was absorbed into the by now much larger Carrozzeria Pininfarina. He was inducted into the Automotive Hall of Fame in 2004, Farina officially changed his name to Battista Pininfarina in 1961.
The change was authorized by President of the Italian Republic, acting on a made by the Minister of Justice. The last design personally attributed to Battista Farina was the 1600 Duetto for Alfa Romeo and this was first seen by the public at the Geneva Motor Show in March 1966. He died less than a later, on 3 April. His nephew, Nino Farina, was the first Formula One world champion, Pininfarina Biography at Companys Official Website European Automotive Hall of Fame Inductee
Ferrari N. V. is an Italian sports car manufacturer based in Maranello. Founded by Enzo Ferrari in 1939 as Auto Avio Costruzioni, the company built its first car in 1940, however the companys inception as an auto manufacturer is usually recognized in 1947, when the first Ferrari-badged car was completed. Ferrari is the worlds most powerful according to Brand Finance. In May 2012 the 1962 Ferrari 250 GTO became the most expensive car in history, Fiat S. p. A. acquired 50 percent of Ferrari in 1969 and expanded its stake to 90 percent in 1988. In October 2014 Fiat Chrysler Automobiles announced its intentions to separate Ferrari S. p. A. from FCA, through the remaining steps of the separation, FCAs interest in Ferraris business was distributed to shareholders of FCA, with 10 percent continuing to be owned by Piero Ferrari. The spin-off was completed on 3 January 2016, Ferrari road cars are generally seen as a symbol of speed and wealth. Enzo Ferrari was not initially interested in the idea of producing road cars when he formed Scuderia Ferrari in 1929, Scuderia Ferrari literally means Ferrari Stable and is usually used to mean Team Ferrari.
Ferrari bought and fielded Alfa Romeo racing cars for gentlemen drivers, in September 1939 Enzo Ferrari left Alfa Romeo under the provision that he would not use the Ferrari name in association with races or racing cars for at least four years. A few days he founded Auto Avio Costruzioni, headquartered in the facilities of the old Scuderia Ferrari, the new company ostensibly produced machine tools and aircraft accessories. In 1940 Ferrari did in fact produce a race car – the Tipo 815 and it was the first Ferrari car and debuted at the 1940 Mille Miglia, but due to World War II it saw little competition. In 1943 the Ferrari factory moved to Maranello, where it has remained ever since, the factory was bombed by the Allies and subsequently rebuilt including a works for road car production. The first Ferrari-badged car was the 1947125 S, powered by a 1.5 L V12 engine, Enzo Ferrari reluctantly built, the Scuderia Ferrari name was resurrected to denote the factory racing cars and distinguish them from those fielded by customer teams.
In 1960 the company was restructured as a corporation under the name SEFAC S. p. A. Early in 1969, Fiat took a 50 percent stake in Ferrari, new model investment further up in the Ferrari range received a boost. In 1988, Enzo Ferrari oversaw the launch of the Ferrari F40, the last new Ferrari to be launched before his death that year, in 1989 the company was renamed as Ferrari S. p. A. From 2002 to 2004, Ferrari produced the Enzo, their fastest model at the time and it was to be called the F60, continuing on from the F40 and F50, but Ferrari was so pleased with it, they called it the Enzo instead. It was initially offered to loyal and reoccurring customers, each of the 399 made had a tag of $650,000 apiece. On 15 September 2012,964 Ferrari cars (worth over $162 million attended the Ferrari Driving Days event at Silverstone Circuit, on 29 October 2014, the FCA group, resulting from the merger between manufacturers Fiat and Chrysler, announced the split of its luxury brand, Ferrari
Governments and private organizations have developed car classification schemes that are used for innumerable purposes including regulation and categorization, among others. This article details commonly used classification schemes in use worldwide, vehicles can be categorized in numerous ways. Regulatory agencies may establish a vehicle classification system for determining a tax amount, in the United Kingdom, a vehicle is taxed according to the vehicles construction, weight, type of fuel and emissions, as well as the purpose for which it is used. Other jurisdictions may determine vehicle tax based upon environmental principles, such as the user pays principle, another standard for road vehicles of all types that is used internationally, is ISO 3833-1977. In the United States, since 2010 the Insurance Institute for Highway Safety uses a scheme it has developed that takes into account a combination of both shadow and weight. The United States Federal Highway Administration has developed a scheme used for automatically calculating road use tolls.
There are two categories depending on whether the vehicle carries passengers or commodities. Vehicles that carry commodities are further subdivided by number of axles and number of units, the United States Environmental Protection Agency has developed a classification scheme used to compare fuel economy among similar vehicles. Passenger vehicles are classified based on a total interior passenger. Trucks are classified based upon their gross vehicle weight rating, heavy duty vehicles are not included within the EPA scheme. A similar set of classes is used by the Canadian EPA, in Australia, the Federal Chamber of Automotive Industries publishes its own classifications. This is a table listing several different methods of vehicle classification. Straddling the boundary between car and motorbike, these vehicles have engines under 1.0 litre, typically only two passengers, and are sometimes unorthodox in construction. Some microcars are three-wheelers, while the majority have four wheels, microcars were popular in post-war Europe, where their appearance led them to be called Bubble cars.
More recent microcars are often electric powered, the size of ultracompact cars will be less than minicars, but have engine greater than 50cc displacement and able to transport 1 or 2 persons. Ultracompact cars cannot use standard, because of strict safety standards for minicars. The regulation about running capacity and safety performance of cars will be published in early autumn. Today, there are smaller than ultracompact cars, called category-1 motorized vehicles which it has 50cc displacement or less
Aluminium or aluminum is a chemical element in the boron group with symbol Al and atomic number 13. It is a silvery-white, nonmagnetic, ductile metal, Aluminium metal is so chemically reactive that native specimens are rare and limited to extreme reducing environments. Instead, it is combined in over 270 different minerals. The chief ore of aluminium is bauxite, Aluminium is remarkable for the metals low density and its ability to resist corrosion through the phenomenon of passivation. Aluminium and its alloys are vital to the industry and important in transportation and structures, such as building facades. The oxides and sulfates are the most useful compounds of aluminium, despite its prevalence in the environment, no known form of life uses aluminium salts metabolically, but aluminium is well tolerated by plants and animals. Because of these salts abundance, the potential for a role for them is of continuing interest. Aluminium is a soft, lightweight, ductile. It is nonmagnetic and does not easily ignite, a fresh film of aluminium serves as a good reflector of visible light and an excellent reflector of medium and far infrared radiation.
The yield strength of aluminium is 7–11 MPa, while aluminium alloys have yield strengths ranging from 200 MPa to 600 MPa. Aluminium has about one-third the density and stiffness of steel and it is easily machined, cast and extruded. Aluminium atoms are arranged in a cubic structure. Aluminium has an energy of approximately 200 mJ/m2. Aluminium is a thermal and electrical conductor, having 59% the conductivity of copper. Aluminium is capable of superconductivity, with a critical temperature of 1.2 kelvin. Aluminium is the most common material for the fabrication of superconducting qubits, the strongest aluminium alloys are less corrosion resistant due to galvanic reactions with alloyed copper. This corrosion resistance is reduced by aqueous salts, particularly in the presence of dissimilar metals. In highly acidic solutions, aluminium reacts with water to form hydrogen, primarily because it is corroded by dissolved chlorides, such as common sodium chloride, household plumbing is never made from aluminium
A beam axle, rigid axle or solid axle is a dependent suspension design, in which a set of wheels is connected laterally by a single beam or shaft. Beam axles were commonly used at the rear wheels of a vehicle. In most automobiles, beam axles have been replaced by front, with a beam axle the camber angle between the wheels is the same no matter where it is in the travel of the suspension. A beam axles fore and aft location is constrained by either, trailing arms, semi-trailing arms, radius rods, the lateral location is constrained by either, a Panhard rod, a Scott Russell linkage or a Watts linkage. While shock absorbers and either leaf springs, coil springs, or air bags are used to control vertical movement. A live axle is a type of beam axle in which the shaft transmits power to the wheels, while typically used in vehicles with Hotchkiss drive, this suspension system can be used with other types of power transmission. The principal advantage of the axle is its simplicity. This simplicity makes it very space-efficient and relatively cheap to manufacture and they are nearly universally used in buses and heavy-duty trucks.
Most light and medium duty trucks, SUVs, and vans use a beam axle. Beam axles have an important advantage for off-road applications, as they provide better vehicle articulation and this simplicity makes it relatively easy to lift a vehicle. Also the cornering ability is typically worse than other designs because the wheels have zero camber angle gain during body roll. Front beam axle suspension is sensitive to any lack of concentricity in the hub. This is addressed on some vehicles with steering dampers although removal and careful refitting of the front wheels often cures the problem
A Kammback is a car body style that derives from the research of the German aerodynamicist Wunibald Kamm in the 1930s. The design calls for a body with smooth contours that continues to a tail that is cut off. This shape reduces the drag of the vehicle, in Europe the design is generally known as a Kamm tail or K-tail. Paul Jaray experimented and developed streamlined car body work in the 1920s and his innovative body design featuring a low-profile teardrop shape with a long tail minimized the air resistance of passenger cars. Better highway systems being built in the 1930s called for higher automobile cruising and top speeds, wind tunnel tests showed that a true tear-drop shaped body offered only a slight improvement in efficiency to the Chrysler Airflow design. In 1935, Georg Hans Madelung, a German engineer, professor and he worked on an aerodynamic design for a bus, and Koenig-Fachsenfeld patented the idea. In addition to aerodynamic efficiency, Wunibald Kamm emphasized vehicle stability in his design and he proved mathematically and empirically the effectiveness of the design.
The Kamm-back, or K-form, was a body with a smoothly contoured front that continues to a vertical flat surface in the rear. The earliest use of Kamm to describe a body incorporating this design was the prototype 1940 Kamm Coupe based on a BMW328 chassis. The earliest mass-produced cars that used Kammback principles were the 1949–1951 Nash Airflyte in the U. S. and this is called the Kamm effect. There is controversy about the proportions of a true Kamm tail, thus a minivan is not a Kammback, and neither are numerous cars that have truncated tails. Automakers’ use of the term Kammback has diminished as Kamms principles have become more assimilated into modern car design. The 1981–1982 compact two-door hatchback version of the AMC Eagle was named a Kammback and it retained the mini-wagon look of the AMC Gremlin, but with much larger quarter glass, and rear window that derived from the AMC Spirits two-door sedan body style. e. The AMC AMX-GT and Pontiac Firebird–based Type K concept cars, - an explicitly Kamm-influenced design which informed the Citroën CX and Rover SD1 Ziemnowicz, Christopher.
The Origin of the Kammback Design, archived from the original on 15 April 2012
A tachometer is an instrument measuring the rotation speed of a shaft or disk, as in a motor or other machine. The device usually displays the revolutions per minute on an analogue dial. The word comes from Greek ταχος and metron, essentially the words tachometer and speedometer have identical meaning, a device that measures speed. It is by convention that in the automotive world one is used for engine. In formal engineering nomenclature, more terms are used to distinguish the two. The first mechanical tachometers were based on measuring the centrifugal force, the inventor is assumed to be the German engineer Dietrich Uhlhorn, he used it for measuring the speed of machines in 1817. Since 1840, it has used to measure the speed of locomotives. Tachometers or revolution counters on cars and other vehicles show the rate of rotation of the engines crankshaft and this can assist the driver in selecting appropriate throttle and gear settings for the driving conditions. This is more applicable to manual transmissions than to automatics, the red zone is superfluous on most modern cars, since their engines typically have a revolution limiter which electronically limits engine speed to prevent damage.
Tractors fitted with a take off system have tachometers showing the engine speed needed to rotate the PTO at the standardized speed required by most PTO-driven implements. In many countries, tractors are required to have a speedometer for use on a road, to save fitting a second dial, the vehicles tachometer is often marked with a second scale in units of speed. This scale is only accurate in a gear, but since many tractors only have one gear that is practical for use on-road. Tractors with multiple road gears often have tachometers with more than one speed scale, aircraft tachometers have a green arc showing the engines designed cruising speed range. This is from a connection called an AC tap which is a connection to one of the stators coil output. Tachometers driven by a cable from a drive unit fitted to the engine exist - usually on simple diesel-engined machinery with basic or no electrical systems. On recent EMS found on vehicles, the signal for the tachometer is usually generated from an ECU which derives the information from either the crankshaft or camshaft speed sensor.
Tachometers are used to estimate traffic speed and volume, a vehicle is equipped with the sensor and conducts tach runs which record the traffic data. These data are a substitute or complement to loop detector data, to get statistically significant results requires a high number of runs, and bias is introduced by the time of day, day of week, and the season
Front-engine, rear-wheel-drive layout
In automotive design, an FR, or front-engine, rear-wheel-drive layout is one where the engine is located at the front of the vehicle and driven wheels are located at the rear. This was the automobile layout for most of the 20th century. Modern designs commonly use the front-engine, front-wheel-drive layout, the first FR car was an 1895 Panhard model, so this layout was known as the Système Panhard in the early years. The layout has the advantage of minimizing mechanical complexity, as it allows the transmission to be placed in-line with the output shaft. In comparison, a vehicle with the engine over the driven wheels eliminates the need for the drive shaft, in order to reduce the relative weight of the drive shaft, the transmission was normally split into two parts, the gearbox and the final drive. The gearbox was produced with its highest gear being 1,1. The final drive, in the axle, would reduce this to the most appropriate speed for the wheels. As power is the product of torque and angular velocity, spinning the shaft faster for any given power reduces the torque, in an era when gasoline was cheap and cars were heavy, the mechanical advantages of the FR drivetrain layout made up for any disadvantage in weight terms.
It remained almost universal among car designs until the 1970s, after the Arab oil embargo of 1973 and the 1979 fuel crises, a majority of American FR vehicles were phased out for the FF layout – this trend would spawn the SUV-van conversion market. Throughout the 1980s and 1990s, most American companies set as a priority the eventual removal of rear-wheel drive from their mainstream, chrysler went 100% FF by 1990 and GMs American production went entirely FF by 1997 except the Corvette and Camaro. This configuration is referred to as a transaxle since the transmission. In Europe, front-wheel drive was popularized by small cars like the Mini, Renault 5 and Volkswagen Golf, upscale marques like Mercedes-Benz, BMW, and Jaguar remained mostly independent of this trend, and retained a lineup mostly or entirely made up of FR cars. Japanese mainstream marques such as Toyota were almost exclusively FR until the late 1970s, toyotas first FF vehicle was the Toyota Tercel, with the Corolla and Celica becoming FF while the Camry was designed as an FF from the beginning.
The Supra, Cressida and Century remained FR, luxury division Lexus has a mostly FR lineup. Subarus BRZ is an FR car, currently most cars are FF, including all front-engined economy cars, though FR cars are making a return as an alternative to large sport-utility vehicles. In North America, GM returned to production of FR-based luxury vehicles with the 2003 Cadillac CTS, as of 2012, all but the SRX and XTS are FR-based vehicles. Chevrolet reintroduced the FR-based Camaro in 2009, and the Caprice PPV in 2011, Pontiac had a short run with the FR-based G8 and Pontiac Solstice. A Chevrolet replacement for the G8 called the Chevrolet SS was released in 2013, chrysler and Dodge reintroduced the 300 and Charger on a FR platform
Automotive design is the profession involved in the development of the appearance, and to some extent the ergonomics, of motor vehicles or more specifically road vehicles. This most commonly refers to automobiles but refers to motorcycles, buses, the functional design and development of a modern motor vehicle is typically done by a large team from many different disciplines included within automotive engineering. Automotive design in context is primarily concerned with developing the visual appearance or aesthetics of the vehicle. Automotive design is practiced by designers who usually have an art background, the task of the design team is usually split into three main aspects, exterior design, interior design, and color and trim design. Graphic design is an aspect of design, this is generally shared amongst the design team as the lead designer sees fit. Design focuses not only on the outer shape of automobile parts. The aesthetic value will need to correspond to ergonomic functionality and utility features as well, though not all the new vehicular gadgets are to be designated as factory standard items, some of them may be integral to determining the future course of any specific vehicular models.
The stylist responsible for the design of the exterior of the vehicle develops the proportions, Exterior design is first done by a series of digital or manual drawings. Progressively, drawings that are more detailed are executed and approved by appropriate layers of management, Clay and or digital models are developed from, and along with the drawings. The data from these models are used to create a full sized mock-up of the final design. With three- and five-axis CNC milling machines, the model is first designed in a computer program and carved using the machine. Even in times of high-class 3d software and virtual models on power walls, here the emphasis is on ergonomics and the comfort of the passengers. The procedure here is the same as with exterior design, the color and trim designer is responsible for the research and development of all interior and exterior colors and materials used on a vehicle. These include paints, fabric designs, grains, headliner, wood trim, contrast and pattern must be carefully combined to give the vehicle a unique interior environment experience.
Designers work closely with the exterior and interior designers, designers draw inspiration from other design disciplines such as, industrial design, home furnishing and sometimes product design. Specific research is done into global trends to design for two to three model years in the future. Trend boards are created from research in order to keep track of design influences as they relate to the automotive industry. The designer uses this information to develop themes and concepts that are further refined and tested on the vehicle models