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tire1
/tuyeur/, v., tired, tiring, n.v.t.1. to reduce or exhaust the strength of, as by exertion; make weary; fatigue: The long walk tired him.2. to exhaust the interest, patience, etc., of; make weary; bore: Your stories tire me.v.i.3. to have the strength reduced or exhausted, as by labor or exertion; become fatigued; be sleepy.4. to have one's appreciation, interest, patience, etc., exhausted; become or be weary; become bored (usually fol. by of): He soon tired of playing billiards.n.5. Brit. Dial. fatigue.Syn. 2. exasperate, irk.tire2/tuyeur/, n., v., tired, tiring.n.1. a ring or band of rubber, either solid or hollow and inflated, or of metal, placed over the rim of a wheel to provide traction, resistance to wear, or other desirable properties.2. a metal band attached to the outside of the felloes and forming the tread of a wagon wheel.v.t.3. to furnish with tires.[1475-85; special use of TIRE3]tire3/tuyeur/, v., tired, tiring, n.v.t.1. Archaic. to dress (the head or hair), esp. with a headdress.2. Obs. to attire or array.n.3. Archaic. a headdress.4. Obs. attire or dress.[1300-50; ME; aph. var. of ATTIRE]
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Rubber cushion that fits around a wheel and usually contains compressed air.Solid-rubber tires were used on road vehicles until they were replaced by air-filled pneumatic tires, which, although first patented by Robert Thomson (1822–1873) in 1845, came into common use only when John Dunlop (1840–1921) put them on bicycles in 1888 and the French manufacturer Michelin began to produce them for motor vehicles. The tire consisted of an inner tube containing compressed air that was covered by an outer rubber casing to provide traction. In the 1950s tubeless tires became standard on most automobiles. Improved tire construction produced the radial-ply tire.* * *
Introductionalso spelled Tyre,a continuous band that encircles the rim of a wheel and forms a tread that rolls on either a road, a prepared track, or the ground.Types of tires.There are two main types of tires, those made of metal and those made of rubber. Railroad cars, which run on smooth steel rails, use iron or steel tires for low rolling resistance. The metal tire is basically a flat hoop fitted tightly over the exterior of the wheel. Besides low rolling resistance, its other attributes are strength, durability, and resistance to wear.Free-moving vehicles such as automobiles, trucks, buses, bicycles, and airplanes need more friction to turn, climb, accelerate, and brake, so these vehicles use rubber tires, which provide both high friction and some cushioning ability. Rubber tires are of two types: (1) solid, or cushion, tires, in which the rubber portion functions to carry the load, absorb shocks, and resist cutting and abrasion; and (2) pneumatic tires, in which the load is carried and the shocks are absorbed mainly by the compressed air that fills the tire. Pneumatic tires are now used for almost all free-moving vehicles because of their greater cushioning ability and other advantages. Solid rubber tires are now used only on industrial and farm carts and on military vehicles, applications where tires are liable to be cut or pierced.Solid tires.Solid rubber tires were introduced in 1881 on the wheels of hansom cabs in London. They were formerly used for many types of road vehicles, but they have now disappeared from highways owing to legislation that discouraged their use because they were hard on roads. The large sizes were supplanted by large pneumatic tires (truck and bus casings), but small solid tires came to be used extensively on industrial trucks and tractors and on carts. Solid tires are often adhered directly to the wheel or to a metal band applied to the periphery of the wheel.Pneumatic tiresThe pneumatic tire is designed to provide a flexible cover with an impermeable lining to contain and restrain the compressed air. This cover is provided with a rubber tread portion that is designed to withstand the cutting and abrasive wear of road contact and to protect the tire against puncture and loss of air. Such a structure has, as distinct from a solid rubber or cushion tire, no capacity in itself either to carry load or absorb shocks. It is entirely dependent on the contained compressed air to enable it to function.The first patent for a pneumatic tire was issued to Robert William Thomson in England in 1845 for a hollow leather tire filled with air. Although a set of Thomson's “Aerial Wheels” ran for 1,200 miles on an English brougham, the same inventor's solid-rubber tires were more popular; and thus, for almost half a century, air-filled tires were forgotten. The growing popularity of the bicycle in the late 19th century revived interest in tire design, and in 1888 John Boyd Dunlop (Dunlop, John Boyd), a veterinary surgeon of Belfast, obtained patents on a pneumatic tire for bicycles. Pneumatic tires were first applied to motor vehicles by the French rubber manufacturer Michelin & Cie. For more than 60 years, pneumatic tires had inner tubes to contain the compressed air and outer casings to protect the inner tubes and provide traction. In the 1950s, however, tubeless tires reinforced by alternating plies, or layers, of cord became standard equipment on new automobiles. In that decade Michelin introduced the radial-ply tire, which is now standard for all automobiles in developed countries.Pneumatic tires are usually retained on the wheel through the use of beads (hoops of wire) that are molded into the tire edges. The tire edges are placed in a shaped channel on the wheel rim's circumference and are held firmly against the channel's edges by the pressure exerted once the tire is inflated with air. Pressures range from about 30 pounds per square inch (200 kilopascals) for large, soft tires to approximately 100 pounds per square inch (700 kilopascals) for high-pressure, high-load applications. The pressure is carried by layers of cords embedded in a rubber cover that in turn serves to contain the air, protect the cords, and give high friction with the ground. This felicitous combination is the reason why pneumatic tires are so widely used for transportation. More than 200 million of them are manufactured for motor vehicles alone each year, 90 percent for automobiles and 10 percent for trucks.Pneumatic tires are designed to meet five main goals: low rolling resistance, low vertical stiffness (to cushion the ride), high sliding friction in both wet and dry conditions, high longitudinal and lateral stiffness (to minimize sliding motions in the “contact patch” where the tread meets the road), and resistance to wear and damage such as cutting, puncturing, and abrasion. In order to achieve these goals, tire designers must choose appropriate combinations of materials and structures, such as those described below.Tire materials.A pneumatic tire is reinforced by layers of relatively inextensible cords that hold the air pressure and restrict deformation and growth of the tire during use. To this end cord materials must have high stiffness, resistance to repeated flexing, high strength-to-weight ratio, and good adhesion to rubber. Tire cords have been made of cotton, rayon, nylon, polyester, and glass, but steel and polyaramid (an extremely hard and stiff synthetic fibre) are currently the dominant materials in use.Various rubber compounds are used in different parts of the tire. The liner, which is intended to minimize the loss of air, is usually made of butyl rubber because that material has a low permeability to gas. Sidewalls, on the other hand, must resist scraping, flexing, and attack by ozone in the air. A typical formulation for sidewalls (measured in parts by weight of each ingredient) would be 50 parts natural rubber (for resistance to heat buildup), 50 parts butadiene rubber (for abrasion resistance), and 50 parts carbon black (for reinforcement), along with small amounts of processing oil, antioxidant, and protective wax. A tire's treads must be especially resistant to abrasion. A tread compound might have no natural rubber at all but rather 65 parts styrene-butadiene rubber (for hardness and abrasion resistance), 35 parts butadiene rubber, and as much as 65 parts carbon black.The addition of carbon black or silica as reinforcing agents in rubber compounds has greatly prolonged tire life. Also contributing to longevity are the abrasion-resistant polymer polybutadiene and improved vulcanization systems. (Vulcanization is the interlinking of rubber molecules in order to create a usable elastic solid. It is conducted by heating the rubber mix along with sulfur and various additives in a tire mold for about 20 minutes at a temperature of approximately 300° F, or 150° C.) These advances, together with the almost universal adoption of radial-ply construction (described below), have extended the life expectancy of some tires to more than 90,000 miles (150,000 km). Still, it must be emphasized that the formulation of rubber mixes for tires is more an art than a science. For instance, why a tread recipe based on butadiene rubber will have greater abrasion resistance than one based on natural rubber or styrene-butadiene rubber is not known.Pneumatic tire structures.The most important feature of tire design is the ply, i.e., the way in which the layers of reinforcing cords in the inner carcass are laid, or arranged. The three main types of arrangements are the bias-ply, the bias-ply belted, and the radial-ply belted. As shown in the illustration—>, the cords in a bias-ply tire are laid at a “crown” angle of about 50 degrees to the axis of the tire tube, and the cords in successive plies (two or four) cross one another—an arrangement that serves to equalize cord tensions. In a bias-ply belted tire, another set of cords overlies the bias-laid ones. This extra set of cords, called a belt, is typically made of fibreglass. A radial-ply belted tire also has a belt running around the entire tire, but the cords are typically made of steel wire-mesh, hence the term “steel-belted radial” tire.Belted bias-ply tires have a longer tread life and provide better gasoline mileage than conventional bias-ply tires. They also have better resistance to blowouts and reduce stopping distance in braking. Belted tires supplanted conventional bias-ply tires in the United States in the 1960s and '70s. Meanwhile, though, radial-ply tires had already become standard equipment in Europe.In the radial structure, layers of cords are arranged to lie almost perpendicular to the axis of the tire tube. Because the tire is actually a toroid (a circular tube) rather than a straight cylinder, the ply cords actually lie approximately 11 degrees off the perpendicular. This arrangement maximizes the tension across the width of the tire for a given air pressure, and hence gives greater resistance to lateral distortion of the tire on cornering. Radial tires provide better steering characteristics and less rolling resistance than bias-ply tires, tend to run cooler, are safer in bad weather, and are said to give considerably more mileage. They are more expensive than bias-ply tires and have a slightly hard riding quality. Radial tires are now the most widely used type of tire. Bias-ply tires are still widely used in Third World countries, and they are also used for aircraft because they are less susceptible to damage by severe overloads.Tire specifications.Tires made to North American and European standards carry a code that shows their size and expected performance. In the American “P-metric” system, tire size is indicated, for example, by the code P215/70R15, where the letter P denotes a passenger-vehicle tire; 215 denotes the tire width in millimetres; 70 denotes the aspect ratio, i.e., the ratio of the tire's height from rim to tread, relative to its width; R denotes radial construction; and 15 is the wheel rim diameter in inches. In addition to size, a speed rating is given using a letter code: S for a maximum speed of 112 miles per hour (180 km/h); T for 118 mph; H for 130 mph; V for 149 mph; and Z for more than 149 mph. A tread wear rating is given for expected tread life as a percentage of that for a standard tire. For example, a rating of 300 would imply a tread life three times as long as that of the reference tire.Snow tires.Snow tires have an extra-deep tread for better traction on snow and ice. They are reputed to have 50 percent more pulling ability than regular tires on loosely packed snow and nearly 30 percent more on glare ice. In stopping on glare ice, however, snow tires have no advantage over regular tires; tire chains or studded tires are best for ice surfaces. Studded tires usually have about 100 studs tipped with tungsten carbide which contact the road as the tire rotates. Because of the damage they are said to cause road surfaces, they are prohibited in certain localities.Additional ReadingEric Tompkins, The History of the Pneumatic Tyre (1981); Samuel K. Clark (ed.), Mechanics of Pneumatic Tires, rev. ed. (1981); A.N. Gent and D.I. Livingston, “Automobile Tires,” in Anthony Kelly (ed.), Concise Encyclopedia of Composite Materials, rev. ed. (1994), pp. 21–24; James E. Mark, Burak Erman, and Frederick R. Eirich (eds.), Science and Technology of Rubber, 2nd ed. (1994).* * *
Universalium. 2010.
