Open-wheel car

This article is about a type of racing motor vehicle. For the UK racing club, see Monoposto Racing Club.
Open-wheel car

A Barlotti go-kart: a low-end open-wheel car
Classification Vehicle
Application Recreation, sports
Fuel source Gasoline, electric, hydrogen
Powered Yes
Self-propelled Yes
Wheels 4
Axles 1–2
Inventor Ferdinand Verbiest

An open-wheel car (formula car, or often single-seater car in British English) is a car with the wheels outside the car's main body, and usually having only one seat. Open-wheel cars contrast with street cars, sports cars, stock cars, and touring cars, which have their wheels below the body or fenders. Open-wheel cars are usually built specifically for racing, frequently with a higher degree of technological sophistication than in other forms of motor sport.

History

American racecar driver and constructor Ray Harroun was an early pioneer of the concept of a lightweight single-seater, open-wheel "monoposto" racecar.[1] After working as a mechanic in the automotive industry, Harroun began competitive professional racing in 1906, winning the AAA National Championship in 1910. He was then hired by the Marmon Motor Car Company as chief engineer, charged with building a racecar intended to race at the very first Indianapolis 500, which he went on to win. He developed a revolutionary concept which would become the originator and forefather of the single-seater (i.e monoposto) racecar design.[2][3]

Design

A typical open-wheeler has a minimal cockpit sufficient only to enclose the driver's body, with the head exposed to the air. In the Whelen Modified Tour and other short track modified series, the driver's head is contained in the car. In modern cars the engine is often located directly behind the driver, and drives the rear wheels; except in asphalt modified cars, such as the Whelen Modified Tour, where the engine is in front of the driver. Depending on the rules of the class, many types of open-wheelers have wings at the front and rear of the vehicle, as well as a very low and virtually flat undertray that helps achieve additional aerodynamic downforce pushing the car onto the road.

Some major races, such as the Singapore Grand Prix, Monaco Grand Prix (sanctioned by Formula One) and the Long Beach Grand Prix (sanctioned by Indycar), are held on temporary street circuits. However, most open-wheel races are on dedicated road courses, such as Watkins Glen International in the US, Nürburgring in Germany, the Sepang International Circuit in Malaysia and the Bahrain International Circuit in the Middle East. In the United States some top-level open-wheel events are held on ovals, of both short track and superspeedway variety, with an emphasis being placed more on speed and endurance than the maneuverability inherently required by road and street course events. The Whelen Modified Tour is the only opened wheeled race car series endorsed by NASCAR. This series races on most of NASCAR's most famous tracks in the United States. Other asphalt modified series race on short tracks in the United States and Canada, such as Wyoming County International Speedway in New York. The most well-attended oval race in the world is the annual Indianapolis 500 (Indy 500) in Speedway, Indiana, sanctioned by IndyCar; in the United States, it is quite common to refer to open-wheel cars as IndyCars, or Champ Cars, because of their recognizable appearance and widespread popularity across America at the Indy 500.

Driving

Open-wheeled racing is among the fastest in the world. Formula 1 cars can reach 360 kilometres per hour (220 mph). At Autodromo Nazionale Monza, Antônio Pizzonia of BMW Williams F1 team recorded a top speed of 369.9 kilometres per hour (229.8 mph) in the 2004 Italian Grand Prix. Since the end of the V10 era in 2006 speeds like this have not been reached, with contemporary machinery reaching around 345 kilometres per hour (214 mph). It is difficult to give precise figures for the absolute top speeds of Formula 1 cars, as the cars do not have speedometers as such and the data are not generally released by teams. The 'speed traps' on fast circuits such as Monza give a good indication, but are not necessarily located at the point on the track where the car is travelling at its fastest. BAR Honda team recorded an average top speed of 400 kilometres per hour (250 mph) in 2006 at Bonneville Salt Flats with unofficial top speed reaching 413 kilometres per hour (257 mph) using modified BAR 007 Formula 1 car. Speeds on ovals can range in constant excess of 210–220 miles per hour (340–350 km/h), and at Indianapolis in excess of 230 miles per hour (370 km/h). Some sources claim that in 1996, Paul Tracy recorded a trap speed of 256.948 miles per hour (413.518 km/h) at Michigan International Speedway. In 2000, Gil de Ferran set the one-lap qualifying record of 241.428 miles per hour (388.541 km/h) at California Speedway.[4] Even on tight non-oval street circuits such as the Grand Prix of Toronto, open-wheel Indy Cars attain speeds of 190 miles per hour (310 km/h).

Driving an open-wheel car is substantially different from driving a car with fenders. Virtually all Formula One and Indycar drivers spent some time in various open-wheel categories before joining either top series. Open-wheel vehicles, due to their light weight, aerodynamic capabilities, and powerful engines, are often considered the fastest racing vehicles available and among the most challenging to master. Wheel-to-wheel contact is dangerous, particularly when the forward edge of one tire contacts the rear of another tire: since the treads are moving in opposite directions (one upward, one downward) at the point of contact, both wheels rapidly decelerate, torquing the chassis of both cars and often causing one or both vehicles to be suddenly and powerfully flung upwards (the rear car tends to pitch forward, and the front car tends to pitch back.) An example of this is the 2005 Chicagoland crash of Ryan Briscoe with Alex Barron.

The lower weight of an open-wheel racecar allows for better performance. While the exposure of the wheels to the airstream causes a very high aerodynamic drag at high speeds, it allows improved cooling of the brakes, which is important on road courses with their frequent changes of pace.

Gallery

References

See also

This article is issued from Wikipedia - version of the Wednesday, February 03, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.