Patent ID: 7980279
Filing Date: 2011-07-19
Classification: B60C,Y10S,Y10T

Abstract:
1. A heavy duty tire vulcanized in a segmented mold and comprising a tread portion defining a tread width and a footprint shape, a pair of sidewall portions, a pair of bead portions, a carcass extending between the bead portions through the tread portion and sidewall portions, and a belt layer disposed radially outside the carcass in the tread portion and composed of at least two plies of steel cords, wherein the segmented mold has a tread molding surface defined by a plural number (n) of circumferentially arranged segments, the tread portion is molded by the tread molding surface during vulcanization of the tire, wherein stretch of the belt layer in the tire radial direction during vulcanization is in a range of from 3.2 to 5.2%, the stretch S (%) is (Ra−Rb)/Rb×100, wherein Rb is the inner diameter (mm) of the belt layer embedded in a green tire of which inside is not yet pressurized, and Ra is the inner diameter (mm) of the belt layer embedded in the vulcanized tire which is mounted on a standard rim and inflated to 0.5 kPa and loaded with no tire load, both measured at the tire equatorial plane, and the tread portion is provided with an axially outermost circumferential groove at an axial distance from the tire equator which distance is in a range of from 25% to 34% of the tread width, the footprint shape satisfies the following conditions (1) and (2): wherein SL 0 , SL 70 and SL 97 are the circumferential lengths of the footprint shape measured at axial distances of 0%, 35% and 48.5%, respectively, of the tread width from the tire equator, whereby the belt layer has a radial run-out (RRO) whose component at n-th order is not more than 0.20 mm, wherein the number of the n-th order equals the number (n) of the segments, and the radial run-out is measured at an axial distance of 70% of one half of the tread width from the tire equator under a normally inflated unloaded condition of the tire.