A pneumatic tire is provided with an asymmetrical tread pattern. The width of an outboard shoulder main groove is less than the width of an outboard crown main groove. The angle of the axially inner groove-sidewall is less than that of the axially outer groove-sidewall. An outboard shoulder land region is provided with outboard shoulder blind grooves extending from the outboard tread edge and terminating within the outboard shoulder land region, and outboard shoulder lateral grooves extending from the outboard tread edge to the outboard shoulder main groove, which are arranged alternately in the tire circumferential direction. An outboard middle land region is provided with outboard middle blind grooves extending axially inwardly from the outboard shoulder main groove, and outboard middle sipes extending from inner ends of the outboard middle blind grooves to the outboard crown main groove.

A two-wheeled vehicle tyre includes a tread portion including a tread rubber. The tread rubber includes a cap rubber forming a tread surface and a base rubber disposed radially inwardly of the cap rubber. 300% modulus (M300c) of the cap rubber is greater than 300% modulus (M300b) of the base rubber. Loss tangent (tan c) of the cap rubber is smaller than loss tangent (tan b) of the base rubber. The tread surface includes a crown region centered on a tyre equator and a pair of shoulder regions located axially outwardly of the crown region, and a thickness of the cap rubber in the crown region is greater than a thickness of the cap rubber in each of the shoulder regions.

A pneumatic tire comprises a tread portion provided with tread grooves defining a asymmetrical tread pattern. The tread grooves include an outboard shoulder main groove and an outboard crown main groove extending zigzag continuously in the tire circumferential direction. The outboard shoulder main groove is composed of alternate long groove segments and short groove segments which are inclined with respect to the tire circumferential direction to the outboard tread edge. The inclination angle b of the short groove segments is larger than The inclination angle a of the long groove segments. The groove widths of the long groove segments are gradually increased toward the outboard tread edge.

A tire center slant groove near tread surface tire equatorial plane extends toward reverse rotation-direction of designated rotation-direction while slanting from a tire equatorial plane side to a tire-width direction outer side, an extension direction angle forms with respect to a tire circumference-direction within range, 3-10; and at center slant groove-end portion in reverse rotation-direction, at least a tire-width direction outer side groove-edge of the center slant groove forms into a circular-arc-shaped portion to have the tire-width direction outer side groove-edge angle formed with respect to tire circumference-direction, the angle increasing toward reverse rotation-direction, the tire-width direction outer side groove-edge angle of the center slant groove forms with respect to tire circumference-direction larger than an angle of a tire-width direction inner side groove-edge of the center slant groove forms with respect to tire circumference-direction, and the center slant groove depth gradually decreases toward the center slant groove-edge in reverse rotation-direction.

A vehicle tire may have a tread with a circumferential groove defined by side faces of two circumferential ribs. The side faces may have a number of radially extending paddles formed by a pair of walls. A ratio of the length of one wall to the other may be at least 1.2.

A pneumatic tire comprises a tread portion 2 provided with two shoulder main grooves 3, a crown main grooves 4, two shoulder land zones 8, and two middle land zones 7. The shoulder land zones 8 are each provided with shoulder lateral grooves 11. The middle land zones 7 are each provided with middle narrow grooves 10. Each of the middle narrow grooves 10 comprises a sipe-like narrow portion 12 whose groove width is less than 2 mm, and a wide portion 14 whose groove width is not less than 2 mm. The wide portion 14 includes an axially outer wide portion 15 formed at the axially outer end of the middle narrow groove 10.

A heavy duty pneumatic tire includes a tread including a pair of central portions, a pair of middle portions and a pair of shoulder portions, wherein each of the portions has an axial width varying periodically while increasing and decreasing in a circumferential direction of the tire. Each of the central portions includes a central block with a hexagonal shaped top face and a central sipe. A total that is the sum of each maximum axial width of the central portions, each maximum axial width of the middle portions, each maximum axial width of the shoulder portions, a maximum axial length of the central sipe provided on one of the central portions, and a maximum axial length of the central sipe provided on the other one of the central portions is in a range of from 1.05 to 1.31 times a tread width.

In a pneumatic tire, a modulus at 300% elongation of a cap tread ranges from 3.0 Mpa to 7.0 Mpa, and the modulus at 300% elongation of an undertread ranges from 10.0 Mpa to 20.0 Mpa. Additionally, an earthing tread is made from a rubber material with a volume resistivity of 1107 .Math.cm or less. The earthing tread is made from the same rubber material as the undertread and has an integral structure with the undertread.

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.

A pneumatic tire that can greatly improve the steering stability on dry and wet road surfaces without worsening of the rolling resistance. A rubber composition used in a tread of the pneumatic tire includes a rubber component (A) including 50 mass % or more of isoprene-based rubber, a specific amount of a thermoplastic resin (B), and a filler (C) including 70 mass % or more of silica. In the rubber composition, tan at 0 C. is 0.5 or less, the difference between tan at 30 C. and tan at 60 C. is 0.070 or less, and the storage modulus at a dynamic strain of 1% and 0 C. is 20 MPa or less. In the pneumatic tire, a tread edge component ratio defined as (sum of tire widthwise extending length of lug grooves and tire widthwise extending length of widthwise sipes on the tread surface)/(tire circumferential length) is 6.0 to 8.0.