There are three basic technologies currently available, described below.
Self-supporting The origins of the commercial
self-supporting run-flat tire started in 1935 with a tire that had a fabric inner tire. The tire was advertised as a protection against
blowouts, a common and dangerous occurrence in the 1930s. In 1934,
Michelin introduced a tire that was based on technology developed for local commuter trains and trolleys. It had a safety rim inside the tire which if punctured would run on a special foam lining. The tire was sold for military use and for specialized vehicles like bank armoured cars. It was advertised as "semi-bulletproof". While the tire performed as advertised it was far too expensive to be a feasible option for most private automobile users. In 1958,
Chrysler teamed with
Goodyear Tire and Rubber Company to offer Captive Air run-flat tires using an interlining to carry the weight. In 1972
Dunlop launched the Total Mobility Tyre (later Denovo) "fail-safe" wheel and tire system that became optional equipment on the
Rover P6 3500 in 1973, and by 1983 evolved into the TD/Denloc which became standard equipment across the whole
Austin Metro range. Most recently,
Bridgestone and
Pirelli run-flat tires are supplied on some new model
BMW cars. The automaker promoted these as a safety feature and as an alternative to carrying a spare tire. Pressure Zero Tire (PZT) was pioneered by American Engineering Group (AEG) for
US Special Forces. AEG prototype dissipates heat and has the tire flexibility and strength to support the heavy military pick-up weight while providing a relatively smooth ride. The durability characteristics of this design were studied further on four different tire sizes for
ATV Polaris,
Toyota Hilux, and
Toyota Land Cruiser & GMV 1.1. special operations vehicles. Self-supporting run-flat tires are now common on light trucks and passenger cars and typically allows the vehicle to be driven for at around . However, if the tires are subject to this kind of misuse, wheels may become damaged in the process, and repair may be impossible or unsafe, especially if the tire is punctured in the sidewall or at the edge of the tread. These tires carry a 20% to 40% weight penalty over similar standard tires and the thicker sidewall also means higher rolling resistance, which reduces the vehicle's fuel economy. However, the weight penalty of the individual tire is usually more than compensated by the fact that the vehicle need no longer carry a spare, as well as the equipment needed to swap in the spare. The thicker sidewall however results in more road imperfections filtering through the tire to the rim and hence to the car, which results in a harsher ride.
Self-sealing These tires contain an extra lining within the tire that self-seals in the event of a small hole due to a
nail or
screw. In this way, the loss of air is prevented from the outset such that the tire is either permanently self-repairing or at least loses air very slowly. There are also a number of
retrofitted tire
sealants which act in a similar way to self-sealing tires. These compounds are normally injected through the tire
valve. The rotating force then distributes the compound onto the inner surface of the tire to act as a self-sealing lining within the tire.
Auxiliary-supported In this system, there is an additional support ring or insert attached to the wheel that can support the weight of the vehicle in the event of a loss of pressure. The run-flat insert has an unsurpassed ability to carry heavy vehicle loads for long distances at high speeds. It is therefore the normal run-flat selection for military vehicles, high-level executive protection vehicles, and
armored vehicles used by government, aid groups, or private contractors in conflict zones. ==Standards of performance==