Provided is a tire manufacturing feature in which, even when an electronic component is disposed on a side wall portion in order to secure sufficient communication performance, damage to the tire or to the electronic component is avoided. A pneumatic tire in which an electronic component is disposed in the interior thereof, wherein a protective layer for reinforcing a side wall is provided at a position on the inside of a carcass and on the outside of an inner liner with respect to the tire axial direction, the protective layer has higher rigidity and lower heat generating properties than the side wall, and the electronic component is disposed between the carcass and the protective layer.

A tire has a cap rubber formed of nonconductive rubber and forms a ground surface, and a conductive portion provided in at least one side end portion of a pair of side end portions in both ends in a tire width direction. The conductive portion is formed of a conductive rubber, and reaches a side surface of the cap rubber from the ground surface through an inner portion of the cap rubber. The conductive portion is relatively small in a thickness in the ground surface and a side surface of the cap rubber, is relatively large in the maximum thickness of an intermediate portion between the ground surface and the side surface of the cap rubber, and is formed into a crescent shape which is curved into an inner side in a tire width direction and an inner side in a radial direction, in a tire meridian cross section.

An intersection point between an interface between a cap rubber layer and a base rubber layer and an outermost belt lateral reference line extending from an outer end of an outermost belt is positioned on an inner side in a tire axial direction than an intersection point between a normal line extending from an outer end of a widest belt to the tread surface and the outermost belt lateral reference line. An outer end of the cap rubber layer is terminated on an inner side in a tire radial direction than an outer end of the base rubber layer, and the outer end of the base rubber layer is positioned on an outer side in the tire axial direction than an end of the tread surface.

A tire including an annular tire frame composed of a plurality of resin materials, wherein an Asker D hardness Ho of a side portion of the tire frame, which side portion is to be located on an outer side in a vehicle width direction when the tire is mounted on a vehicle, is lower than an Asker D hardness Hi of a side portion of the tire frame, which side portion is to be located on an inner side in the vehicle width direction when the tire is mounted on the vehicle, and wherein a resin contained as a main component in a resin material constituting the side portion of the tire frame, which side portion is to be located on the inner side in the vehicle width direction when the tire is mounted on the vehicle, has a melting point of 140 C. or higher, or does not have a melting point and has a glass transition point of 40 C. or higher.

Provided is a pneumatic tire including, on an outer surface of its sidewall portion, a decorative portion including a print layer and inner and outer layers respectively disposed on tire inner and outer sides of the print layer. When storage moduli at 25 C. of the print, inner, and outer layers are respectively defined as E1.sub.25, E2.sub.25, and E3.sub.25, E1.sub.25<E2.sub.25 and E1.sub.25<E3.sub.25 are satisfied. When storage moduli at 80 C. of the print, inner, and outer layers are respectively defined as E1.sub.80, E2.sub.80, and E3.sub.80, and storage modulus variations 1, 2, and 3 at high temperature of the print, inner, and outer layers are respectively defined as 1=|E1.sub.25E1.sub.80|/E1.sub.25, 2=|E2.sub.25E2.sub.80|/E2.sub.25, and 3=|E3.sub.25E3.sub.80|/E3.sub.25, 1<2 and 1<3, and E2.sub.25>E2.sub.80 and E3.sub.25>E3.sub.80 are satisfied.

A radial tire (10), with the sidewalls thereof (20), and the tread thereof (30) arranged for minimizing the temperature of the tire while guaranteeing its electrical conductivity. The tread (30) comprises two wings (311, 312) and a central portion (32). These components rest on a base layer (33) radially on the inside of the tread (30). The base layer (33) contains a lateral portion (331, 332) partly in contact with a tread wing (311, 312). This structure of the crown of the tire, in contact with the carcass reinforcement makes it possible to constitute a preferential conductive pathway of the electric charges between the rim and the ground when the tire is mounted on its rim and flattened on the ground.

A radial tire (10) for a heavy vehicle of construction plant type, and more particularly, the sidewalls thereof (20), arranged to minimize the temperature of the tire while guaranteeing its electrical conductivity. The tread (30) comprises two tread wings (31) and a central portion (32). The bead layer (71), the elastomeric coating compound of the carcass layer (50), the second sidewall layer (22) and the tread wing (31) constitute a preferential conductive pathway of the electric charges between the rim and the ground when the tire is mounted on its rim and flattened on the ground.

A pneumatic tire includes one carcass including a folded up portion and a reinforcing layer between the folded up portion and a bead filler. The folded up portion has an end portion in a region inward of a belt layer in a radial direction and inward of the belt layer in a lateral direction. The bead filler has an outer end portion distanced from a bead heel portion from 20% or more to 40% or less of a tire cross-sectional height. The reinforcing layer has an outer end portion outward of the outer end portion of the bead filler in the radial direction and inward in the radial direction with respect to a position of a tire maximum width position in the radial direction. A sidewall portion is formed of a side rubber having tan at 60 C. of from 0.04 or more to 0.10 or less.

A tire (1) includes sidewalls (2), a crown region (3) provided with a tread (4), a reinforcing structure (5) extending between the sidewalls and passing via the crown region, at least a portion of one of the sidewalls and/or of the crown comprising an insert (6) comprising a first elastomer composition serving as a matrix, within which a second elastomer composition derived from recycled tires is distributed substantially uniformly, the modulus of the first composition being at least 10% greater than the modulus of the second composition, and the proportion of second composition being greater than or equal to 40%.

A pneumatic tire having a side portion and a belt layer, monofilament cords are used as reinforcing cords in the belt layer, and in a tire-radial-direction cross-section of the belt layer, an arrangement number e of monofilament cords per 5 cm in a tire width direction (cords/5 cm) and a tire cross-sectional width Wt (mm) when the tire is installed to a standardized rim and an inner pressure is set to 250 kPa satisfies the following (formula 1) and (formula 2):

e/(139.50.3Wt)>1 (formula 1)

e/(191.50.3Wt)<1 (formula 2),