A modular non-pneumatic tire includes a first annular tire module and a second annular tire module coaxial with the first annular tire module. The first annular tire module includes a first inner ring, a first outer ring coaxial with the first inner ring, first support structure extending between the first inner ring and the first outer ring, and a first circumferential tread extending about the first outer ring. The second annular tire module includes a second inner ring, a second outer ring coaxial with the second inner ring, second support structure extending between the second inner ring and the second outer ring, and a second circumferential tread extending about the second outer ring. The first and second circumferential treads are asymmetrical. The first circumferential tread has a first orientation and the second circumferential tread has a second orientation that is different from the first orientation.

A modular non-pneumatic tire includes a first annular tire module and a second annular tire module coaxial with the first annular tire module. The first annular tire module includes a first inner ring, a first outer ring coaxial with the first inner ring, first support structure extending between the first inner ring and the first outer ring, and a first circumferential tread extending about the first outer ring. The second annular tire module includes a second inner ring, a second outer ring coaxial with the second inner ring, second support structure extending between the second inner ring and the second outer ring, and a second circumferential tread extending about the second outer ring. The first and second circumferential treads are asymmetrical. The first circumferential tread has a first orientation and the second circumferential tread has a second orientation that is different from the first orientation.

A pneumatic tire includes at least one balance patch arranged on a tire inner surface that is a surface on the inner side of the tire, and a functional component having a communication function and arranged on the tire inner surface at a position separated at a predetermined angle θ from the balance patch in a tire circumferential direction.

A process for retreading a tire, the process comprising the steps of providing a tire casing; providing a cured rubber component having first and second planar surfaces, where the first planar surface includes a tread pattern; providing a cushion gum, wherein the cushion gum is a composition including a functional polymer including at least one functional group, and a crosslinking agent including at least two moieties that will react with the functional group of the functional elastomer; applying the cushion gum to the tire casing; applying the second planar surface of the cured rubber to the cushion gum to form a tire composite; and treating the tire composite to thereby form a retread tire.

A tread for bonding to a tire carcass to form a retreaded tire having a length, a width, a top side and a bottom side. The tread also includes a central portion and a pair of wing portions extending laterally from the central portions. The top sides of each wing portion include one or more discontinuities having a longitudinal component and configured to resist deflection when subjected to a force from the bottom side and to deflect downwardly when subjected to a force from the top side. In particular embodiments, the one or more discontinuities are arranged within each wing portion are arranged within a thickened portion of each wing portion.

A tread for bonding to a tire carcass to form a retreaded tire having a length, a width, a top side and a bottom side. The tread also includes a central portion and a pair of wing portions extending laterally from the central portions. The top sides of each wing portion include one or more discontinuities having a longitudinal component and configured to resist deflection when subjected to a force from the bottom side and to deflect downwardly when subjected to a force from the top side. In particular embodiments, the one or more discontinuities are arranged within each wing portion are arranged within a thickened portion of each wing portion.

The present invention relates to a pre-vulcanized annular crown of an extra-large tire, and a preparation method and an application thereof. The annular crown includes shoulder extending edges, which extend from both sides of the crown to the central direction of the tire along shoulders, where the shoulder extending edges are provided with a structure of pattern blocks and pattern grooves, which extend from a tread to sidewalls and are suitable for the extra-large tire, and outer contour lines of sections of the shoulders and the shoulder extending edges are concave inwards. Pattern grooves in original shoulders can be completely removed when an old tire body is ground, and the crown structure and functional advantages of the extra-large tire which is retreaded can be fully given.

A tire may comprise a hub and a plurality of discrete traction elements coupled to the hub. Each of the traction elements may comprise a backing plate and an elastomeric material bonded to the backing plate. Circumferentially adjacent traction elements may axially overlap.

A tire may comprise a hub and a plurality of discrete traction elements coupled to the hub. Each of the traction elements may comprise a backing plate and an elastomeric material bonded to the backing plate. Circumferentially adjacent traction elements may axially overlap.

Provided is a rubber composition having a high vulcanization rate and excellent in storage stability. The rubber composition contains a rubber component that contains at least one type of a dienic rubber, a filler, a vulcanizing agent, a compound represented by a formula (1), a compound represented by a formula (2), and a vulcanization accelerator except the compound represented by the formula (1), wherein the total amount of the vulcanization accelerator and the compound represented by the formula (1) is 1.3 to 2.0 parts by mass relative to 100 parts by mass of the rubber component. ##STR00001##