| CPC B60C 11/005 (2013.01) [B60C 11/0008 (2013.01); B60C 11/0058 (2013.01); B60C 11/0075 (2013.01); B60C 11/0083 (2013.01); B60C 11/0327 (2013.01); B60C 11/01 (2013.01); B60C 2011/0016 (2013.01); B60C 2011/0025 (2013.01); B60C 2011/0033 (2013.01)] | 18 Claims |
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1. A tire comprising:
a tread configured to come into contact with a road surface,
wherein at least three circumferential grooves are formed in the tread,
wherein a ground contact surface obtained by mounting the tire on a normal rim, adjusting an internal pressure of the tire to a normal internal pressure, applying a load that is 70% of a normal load, to the tire, as a vertical load, and bringing the tire into contact with a planar road surface, is a reference ground contact surface,
wherein the tread comprises a cap layer forming a part of an outer surface of the tire, a base layer disposed inwardly of the cap layer in a radial direction, and an intermediate layer disposed between the cap layer and the base layer in the radial direction,
wherein a loss tangent of the intermediate layer at 30° C. is less than a loss tangent of the cap layer at 30° C. and a loss tangent of the base layer at 30° C. is less than the loss tangent of the intermediate layer at 30° C.,
wherein the tread comprises at least two three-layer body portions formed of the cap layer, the intermediate layer, and the base layer, and at least one two-layer body portion that is formed of the cap layer and the base layer and disposed between a first three-layer body portion and a second three-layer body portion,
wherein the circumferential groove is formed in the two-layer body portion,
wherein a groove bottom and groove walls of each circumferential groove are formed of the cap layer, and
wherein a ratio of a total of thicknesses of the cap layer forming the groove walls at a position at which a groove depth of the circumferential groove is 50% of an entire groove depth thereof, relative to a ground contact width of the reference ground contact surface, is not less than 5% and not greater than 15%.
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16. A tire comprising:
a tread configured to come into contact with a road surface,
wherein at least three circumferential grooves are formed in the tread,
wherein a ground contact surface obtained by mounting the tire on a normal rim, adjusting an internal pressure of the tire to a normal internal pressure, applying a load that is 70% of a normal load, to the tire, as a vertical load, and bringing the tire into contact with a planar road surface, is a reference ground contact surface,
wherein the tread comprises a cap layer forming a part of an outer surface of the tire, a base layer disposed inwardly of the cap layer in a radial direction, and an intermediate layer disposed between the cap layer and the base layer in the radial direction,
wherein a loss tangent of the intermediate layer at 30° C. is less than a loss tangent of the cap layer at 30° C. and a loss tangent of the base layer at 30° C. is less than the loss tangent of the intermediate layer at 30° C.,
wherein the tread comprises at least two three-layer body portions formed of the cap layer, the intermediate layer, and the base layer, and at least one two-layer body portion that is formed of the cap layer and the base layer and disposed between a first three-layer body portion and a second three-layer body portion,
wherein the outer surface of the tire comprises a tread surface and a pair of side surfaces continuous with ends of the tread surface,
wherein, on a meridian cross-section of the tire, a contour of the tread surface comprises a plurality of curved contour lines formed as arcs having different radii,
wherein a contour of the outer surface of the tire comprises, in each of end portions of the tread surface, a curved line portion that is formed as a curved contour line connected to a corresponding one of the side surfaces and is formed as an arc having a smallest radius among the plurality of curved contour lines included in the contour of the tread surface, an inner adjacent contour line disposed inwardly of the curved line portion in an axial direction in contact with the curved line portion, and an outer adjacent contour line disposed outwardly of the curved line portion in the axial direction in contact with the curved line portion,
wherein tread reference ends are each represented as an intersection point of a line tangent to the curved line portion at a contact point at which the inner adjacent contour line and the curved line portion are in contact with each other, and a line tangent to the curved line portion at a contact point at which the outer adjacent contour line and the curved line portion are in contact with each other,
wherein a distance, in the axial direction, from one of the tread reference ends to another of the tread reference ends is a tread width,
wherein a ratio of an axial width of the two-layer body portion to the tread width is not less than 20% and not greater than 50%, and
wherein a ratio of a thickness of the cap layer to a total of the thickness of the cap layer and a thickness of the intermediate layer at each three-layer body portion is not less than 30% and not greater than 50%.
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18. A tire comprising:
a tread configured to come into contact with a road surface,
wherein at least three circumferential grooves are formed in the tread,
wherein a ground contact surface obtained by mounting the tire on a normal rim, adjusting an internal pressure of the tire to a normal internal pressure, applying a load that is 70% of a normal load, to the tire, as a vertical load, and bringing the tire into contact with a planar road surface, is a reference ground contact surface,
wherein the tread comprises a cap layer forming a part of an outer surface of the tire, a base layer disposed inwardly of the cap layer in a radial direction, and an intermediate layer disposed between the cap layer and the base layer in the radial direction,
wherein a loss tangent of the intermediate layer at 30° C. is less than a loss tangent of the cap layer at 30° C. and a loss tangent of the base layer at 30° C. is less than the loss tangent of the intermediate layer at 30° C.,
wherein the tread comprises at least two three-layer body portions formed of the cap layer, the intermediate layer, and the base layer, and at least one two-layer body portion that is formed of the cap layer and the base layer and disposed between a first three-layer body portion and a second three-layer body portion, and
wherein the tread further comprises four three-layer body portions and three two-layer body portions, and the three-layer body portions and the two-layer body portions are positioned alternately in an axial direction of the tire.
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