A tread block arrangement of a tread band or tire forms a tread for rolling contact against a ground surface. The tread block arrangement limits a first number of sipes, with a second number of transversal sipes of which a third number of sipes form a group. For each sipe of the group, the tread block arrangement forms a bottom, first sidewall, second sidewall, and first end wall. The end first end wall of each group sipe is configured such that a distance between the first end wall and a pneumatic tire outer side is less than a distance between the other end and outer side. A sipe first end wall part has a first surface normal of the sipe. The first surface forms a sipe/tread angle≥20 degrees. The second number/first number ratio is ≥75% and the third number/second number ratio is ≥20%.

A pneumatic tire has paired bead portions, paired sidewall portions, a tread portion, a plurality of lug grooves extending from a shoulder area of the tread portion to reach a buttress area of the sidewall portion, and a block defined by the plurality of lug grooves. The block includes a shoulder block provided in the shoulder area, and a buttress block provided in the buttress area. The buttress area is provided with an annular rib annularly extending along a tire circumferential direction. The lug grooves are comparted into an outside lug groove positioned in an outer side of the annular rib, and an inside lug groove positioned in an inner side of the annular rib. A widened portion is provided in at least part of the plurality of lug grooves so as to enlarge a width of the annular rib.

The invention relates to a tread block arrangement of a tread band or a tire. The tread block arrangement forms a tread that is meant for a rolling contact against a ground surface, wherein the tread is provided with at least one longitudinal groove. The tread block arrangement limits a first number (NT) of sipes, of which a second number (NTT) are transversal sipes of which a third number (N) of sipes form a group. For each sipe of the group, the tread block arrangement forms a bottom a first sidewall, a second sidewall, and a first end wall. The end first end wall of each sipe of the group is configured such that a distance between the first end wall of the sipe in question and an outer side of the pneumatic tire or the tread band is less than a distance between the other end of the sipe in question and the outer side. Moreover, at least a part of the first end wall of the sipe in question has a first surface normal of the sipe in question, and the first surface normal of the sipe in question forms a first angle of the sipe in question of at least 20 degrees with the tread. Furthermore, the ratio (NTT/NT) of the second number (NTT) to the first number (N) is at least 75% and the ratio (N/NTT) of the third number (N) to the second number (NTT) is at least 20%.

A tyre includes a tread portion including an outboard middle land portion disposed between an outboard tread edge and a tyre equator. The outboard middle land portion includes first and second longitudinal edges, outboard middle lateral grooves extending from the first longitudinal edge and having terminal ends within the outboard middle land portion, first outboard middle sipes extending from the respective terminal ends of the outboard middle lateral grooves to the second longitudinal edge, and second outboard middle sipes extending from the first longitudinal edge toward the second longitudinal edge beyond the terminal ends of the outboard middle lateral grooves and terminating within the outboard middle land portion. The outboard middle land portion is not provided with any lateral grooves that extend from the second longitudinal edge toward the first longitudinal edge to reach an axial center location of the outboard middle land portion.

A pneumatic tire includes alternating first and second groove portions. The first groove portion intersects an equator and extends in a width direction. The second groove portion inclines from the first groove portion to a tread edge at a smaller angle relative to a circumferential direction than an angle of the first groove portion relative to the circumferential direction. The first groove portion communicates with the second groove portion of the lug groove adjacent in the circumferential direction. The first groove portion is on a stepping side of each lug groove. The second groove portions are curved or bent and an average angle of the second groove portions in an inner region is smaller than in an outer region. Shallow grooves having a bent point are formed on blocks. The blocks are defined by circumferential narrow grooves connecting the second groove portions adjacent in the circumferential direction and the lug grooves.

The disclosure improves the wear resistance without impairing the on-ice performance. A tire is provided with a block divided by a lateral groove on a ground-contacting part. The block is provided with a plurality of sipes. The plurality of sipes are arranged in a thickness direction of the sipes. Each sipe has a pair of sipe walls that are separated in the thickness direction. Each sipe includes a protrusion that protrudes in a taper shape from one toward the other of the pair of sipe walls.

A tread for a tire includes: a first tread zone extending circumferentially, continuously, and entirely around the tire, the first tread zone being formed of a first compound; a second tread zone extending circumferentially, continuously, and entirely around the tire, the second tread zone being formed of a second compound different from the first compound; and a boundary groove axially separating the first tread zone from the second tread zone, the first tread zone, the second tread zone, and the boundary groove entirely forming the tread, the boundary groove having an axial centerline disposed an axial distance from an equatorial plane of the tire. The first tread zone has a first circumferential groove and a sidewall portion defining an intermediate circumferential rib of the first tread zone and a shoulder circumferential rib of the first tread zone.

A tread for a tire includes a first circumferential main groove; a second circumferential main groove; a third circumferential main groove; and a fourth circumferential main groove. The fourth circumferential main groove has a stabilizing structure for increasing tread stiffness. The stabilizing structure is axially offset a predetermined amount from a centerline of the fourth circumferential main groove. The fourth circumferential main groove has an angled axially inner sidewall, an angled axially outer sidewall, and a curved base surface. The stabilizing structure extends radially inward from the curved base surface of the fourth circumferential main groove.

A tread for a tire includes a first circumferential main groove, a second circumferential main groove, a third circumferential main groove, and a fourth circumferential main groove. The fourth main groove has a stabilizing structure for increasing tread stiffness. The stabilizing structure has a circumferentially extending subgroove in a radially innermost bottom of the fourth circumferential main groove. The subgroove is axially offset a predetermined amount from a centerline of the fourth circumferential main groove.

In a pneumatic tire, a plurality of side blocks include a first side block which is contiguous with the exterior in a tire axial direction of a first tread block, and a second side block which is contiguous with the exterior in the tire axial direction of a second tread block; the first side block comprises a first apical surface which is arranged at an outer end of the first side block in the tire axial direction; the second side block comprises a second apical surface which is arranged at an outer end of the second side block in the tire axial direction, and area of the second apical surface is greater than area of the first apical surface.