A pneumatic tire for an electric vehicle includes a pair of bead areas, a ground-contacting tread disposed radially outwardly of the pair of bead areas, and a pair of sidewalls. Each sidewall extends from a respective bead area to the tread. The tread joins each sidewall at a respective shoulder and the shoulders include an inboard shoulder and an outboard shoulder. A radius on the inboard shoulder is larger than a radius on the outboard shoulder. Physical features are formed on the tread, and each feature is formed in the shape of a fin. The features increase air flow towards an electric vehicle motor located inboardly of the tire. At least one of the fins includes a leading edge formed with micro-features.

A pneumatic tire in which a side reinforcement layer formed of a treated member is arranged, the treated member formed by coating with rubber organic fiber cords extending parallelly to ply cords of a carcass ply of the carcass main body, only on a sidewall portion of a half portion on one tire widthwise side; a tire radial inner end of the side reinforcement layer is located on a side inner in the tire radial direction than a tire radial outermost position of a rim flange, and a tire radial outer end of the side reinforcement layer overlaps the belt by 5 mm or more in a tire widthwise direction; and the tread portion has one or more circumferential main grooves, and a contact width of a tire widthwise outermost land portion is larger than a contact width of a tire widthwise outermost land portion.

A pneumatic tire in which a side reinforcement layer formed of a treated member is arranged, the treated member formed by coating with rubber organic fiber cords extending parallelly to ply cords of a carcass ply of the carcass main body, only on a sidewall portion of a half portion on one tire widthwise side; a tire radial inner end of the side reinforcement layer is located on a side inner in the tire radial direction than a tire radial outermost position of a rim flange, and a tire radial outer end of the side reinforcement layer overlaps the belt by 5 mm or more in a tire widthwise direction; and the tread portion has one or more circumferential main grooves, and a contact width of a tire widthwise outermost land portion is larger than a contact width of a tire widthwise outermost land portion.

An asymmetrical tire is provided that includes at least a crown, a first shoulder having a first tread, and a second shoulder having a second tread. In one embodiment of the present invention, the crown and second shoulder include high-performance tread and the first shoulder includes off-road tread. By using off-road tread on the outer shoulder, the tire will have the visual aesthetics of an off-road tire. And by using high-performance tread on the crown and second shoulder, the vehicle will exhibit a smooth and quiet ride that is fuel efficient, and will not rub on, or interfere with the vehicle's wheel well or splash guard. In one embodiment, an upper portion of the first shoulder includes high-performance tread and a side portion includes off-road tread. By using two different types of tread on the outer shoulder, the tire can provide a smoother ride, while still exhibiting an off-road appearance.

An asymmetrical tire is provided that includes at least a crown, a first shoulder having a first tread, and a second shoulder having a second tread. In one embodiment of the present invention, the crown and second shoulder include high-performance tread and the first shoulder includes off-road tread. By using off-road tread on the outer shoulder, the tire will have the visual aesthetics of an off-road tire. And by using high-performance tread on the crown and second shoulder, the vehicle will exhibit a smooth and quiet ride that is fuel efficient, and will not rub on, or interfere with the vehicle's wheel well or splash guard. In one embodiment, an upper portion of the first shoulder includes high-performance tread and a side portion includes off-road tread. By using two different types of tread on the outer shoulder, the tire can provide a smoother ride, while still exhibiting an off-road appearance.

A pneumatic tire has a designated vehicle inner/outer side orientation for when mounted on a vehicle, and includes: a reinforcing rubber layer disposed in sidewall portions on sides in a tire lateral direction, the reinforcing rubber layer having a crescent shaped meridian cross-section; wherein a radius of curvature with an arc joining intersections of straight lines and a tire external contour, and a radius of curvature with an arc joining intersections of the straight lines and a carcass layer have a relationship such that, on the vehicle outer side, a radius of curvature of the carcass layer is large with respect to a radius of curvature of the tire external contour, and on the vehicle inner side, a radius of curvature of the carcass layer is small with respect to a radius of curvature of the tire external contour.

A pneumatic tire has a designated vehicle inner/outer side orientation for when mounted on a vehicle, and includes: a reinforcing rubber layer disposed in sidewall portions on sides in a tire lateral direction, the reinforcing rubber layer having a crescent shaped meridian cross-section; wherein a radius of curvature with an arc joining intersections of straight lines and a tire external contour, and a radius of curvature with an arc joining intersections of the straight lines and a carcass layer have a relationship such that, on the vehicle outer side, a radius of curvature of the carcass layer is large with respect to a radius of curvature of the tire external contour, and on the vehicle inner side, a radius of curvature of the carcass layer is small with respect to a radius of curvature of the tire external contour.

A mold design having a non-symmetric tread ring parting line is described that forms a tread pattern that extends onto the off-shoulder area of a tire on one side. The mold has a single tread segment that forms the entire tread pattern on the tire. The tread segment of the mold is non-symmetric in that one end, a first end, extends farther downward than the opposite end, a second end. The first end of the tread segment contains a tread pattern design capable of imparting a tread design on the off-shoulder or sidewall of one side of the tire to form a non-symmetric tread pattern.

A mold design having a non-symmetric tread ring parting line is described that forms a tread pattern that extends onto the off-shoulder area of a tire on one side. The mold has a single tread segment that forms the entire tread pattern on the tire. The tread segment of the mold is non-symmetric in that one end, a first end, extends farther downward than the opposite end, a second end. The first end of the tread segment contains a tread pattern design capable of imparting a tread design on the off-shoulder or sidewall of one side of the tire to form a non-symmetric tread pattern.

Tyre suitable for running flat comprising a crown, two sidewalls and two beads, a carcass reinforcement anchored in each bead and a sidewall insert placed in each of the two sidewalls axially internally relative to the carcass reinforcement, such that it is equipped with an electronic device comprising at least one radiofrequency transponder and such that the electronic device is embedded in one of the sidewall inserts.