In a tire, at least one of middle land portions includes a plurality of through narrow grooves extending through the middle land portion in a tire width direction, a plurality of middle blocks each defined and formed by the through narrow grooves, and a non-through lug grooves each opening at one end to an edge portion on a tire equatorial plane side of the middle block and terminating at an other end in a central portion of the middle block. Further, a center groove has a wave-like shape with an amplitude in the tire width direction. Furthermore, an edge portion on the center groove side of the middle block has an arc shape that projects in a width direction of the middle block.

A tire includes a plurality of circumferential grooves extending in a tire circumferential direction, and a plurality of land portions defined by the circumferential grooves. Further, at least one of the circumferential grooves includes tie bars formed in a groove bottom of the circumferential groove and connecting the land portions adjacent to each other across the circumferential groove. Furthermore, each of the tie bars includes a slit that extends through the tie bar in the tire circumferential direction and that is closed when the tire comes into contact with the ground. In addition, the slit includes an inclined portion inclined with respect to the tire circumferential direction in a tread plan view.

A pneumatic tire includes a first main groove in a circumferential direction outward of an equatorial plane in a vehicle width direction, a second main groove in the circumferential direction at a position closer to the equatorial plane than the first main groove, a third main groove in the circumferential direction at a position inward of the equatorial plane in the vehicle width direction, and a fourth main groove in the circumferential direction at a position farther from the equatorial plane than the third main groove; relationships 1.05≤G1/G3≤1.25, 1.20≤G2/G3≤1.40, and 1.10≤G4/G3≤1.30 are satisfied; and relationships G3<G1<G2 and G3<G1<G4 are satisfied, where G1 is a first main groove width, G2 is a second main groove width, G3 is a third main groove width, and G4 is a fourth main groove width.

Tread for heavy-duty vehicle tire, having tread surface in the new state, having a first volume of cavities opening onto the tread surface, a second volume of cavities formed entirely under the tread surface and having at least one channel of height Hc delimited by two main walls spaced apart from one another by a width Lc and connected together by a lower part and by an upper part, this channel intended to form, after partial wear corresponding to a thickness Lu, an additional groove, such that each channel has a plurality of extensions forming cavities extending between this channel and the tread surface over a height He at least equal to 20% and at most equal to 75% of the thickness Lu, each extension opening at least into the upper part of the channel through an opening having a cross-sectional area Sa at least equal to 0.8*(Hc*Lc).

A pneumatic vehicle tire, in particular a commercial vehicle tire, includes a tread which has a profile and has at least one circumferential groove (1) which is encircling in the circumferential direction, is embodied to a profile depth (P.sub.T) and in the cross section, starting at the tread external face, is composed of three adjoining groove portions, one outer groove portion (2) that expands in a funnel-shaped manner toward the outside, one 1 mm to 3 mm wide contracted groove portion, and one inner groove portion (4) which lies radially inward, is expanded in relation to the contracted groove portion (3) and has the largest cross-sectional face of all portions, and which is delimited by two cover flanks (4a), lateral groove flanks (4′b, 4″b) that adjoin said cover flanks (4a), and a groove base (4c).

In a pneumatic tire, one end of a first lug groove opens to an edge of an inner second land on the ground contact edge side, and at the other end terminates within the inner second land. One end of the second lug groove opens to the edge of the inner second land on a equatorial plane edge side, and the other end terminates within the inner second land. The first and second lug grooves are alternately arranged in the circumferential direction. In a region on the outer side in the width direction, a circumferential main groove on the equatorial plane side defining the outer second land has a bent shape with an amplitude in a lateral direction, and includes an acute angle bend bending at an edge on the equatorial plane side. The outside second land includes a lug groove opening to a position facing the bend.

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.

In a state in which a pneumatic tire is mounted on a specified rim, inflated to 92% of a specified internal pressure, and loaded with a load of 75% of the maximum load capacity, an average thickness of an undertread rubber is smaller in a center region than in a shoulder region, a ratio (CAO/UAO) is 0.15 or more and 0.95 or less, a ratio (UAI/UAO) is less than 1, and a ratio (L/W) is 0.29 or more and 0.51 or less, in a tire meridian cross-sectional view, where CAO, UAO and UAI are cross-sectional areas of the cap tread rubber, the undertread rubber, and the undertread rubber in the center region, respectively, L is a tire width direction dimension from a defined intersection point to a ground contact edge, and W is a tire width direction dimension of each shoulder region.

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.

A tire, in which a groove width that opens to a road contact surface of a tread portion is greater than 1.0 mm and 4.0 mm or less, includes: one or more circumferential narrow grooves extending in a tire circumferential direction; and a plurality of sipes communicating with the circumferential narrow groove. The circumferential narrow groove includes: a widened portion provided in a region in which a groove depth from the surface of the tread portion is 30% or more of a maximum groove depth and having a widened groove width; and a plurality of notch portions provided at intervals in the tire circumferential direction to bulge toward one side in a tire width direction to communicate from the surface of the tread portion to the widened portion. The sipes are connected to the notch portions.