A shear band that may be used e.g., in a non-pneumatic tire having interlaced reinforcing elements positioned within a shear layer of elastomeric material. A variety of configurations may be used to create the interlaced positioning of the reinforcing elements including e.g., a horizontal diamond or vertical diamond configuration.

A shear band that may be used e.g., in a non-pneumatic tire having interlaced reinforcing elements positioned within a shear layer of elastomeric material. A variety of configurations may be used to create the interlaced positioning of the reinforcing elements including e.g., a horizontal diamond or vertical diamond configuration.

The present invention includes: an elastically deformable tire part (7) which includes an inner cylinder, an outer cylinder (4) configured to surround the inner cylinder from the outside in a tire radial direction, and a linking member (3) configured to link the inner cylinder to the outer cylinder (4) and a tread member (5) externally fitted onto the outer cylinder (4), wherein an elastic modulus of a material forming the tread member (5) is smaller than an elastic modulus of a material forming a tire part (7), an outer circumferential surface of the tread member (5) is formed in a curved shape in which the outer circumferential surface thereof protrudes outward in the tire radial direction when viewed in a vertical cross-sectional view in both a tire width direction and the tire radial direction, the outer cylinder (4) includes an outer circumferential section (41) positioned on a tire equatorial section, side sections (42) positioned on both sides in the tire width direction with respect to the outer circumferential section (41), and a shoulder section (43) configured to connect the outer circumferential section (41) to the side sections (42), the outer circumferential section (41) is formed in a straight line shape in which the outer circumferential section (41) extends in the tire width direction when viewed in the vertical cross-sectional view, and the shoulder section (43) gradually extends inward in the tire radial direction as it goes outward in the tire width direction.

A tread (2) for the driven axle of an agricultural vehicle having tread pattern elements (21, 41) extending radially towards the outside from a bearing surface (22). The tread pattern elements have, in the central part of the tread, a series of blocks (41) juxtaposed with one another in the longitudinal direction and separated by transverse cuts (42), and having, in the rolling direction (15), a leading face, a contact face and a trailing face. The leading face having a radial height greater than the radial height of the trailing face. The contact face being oriented at an angle α with respect to radial direction Z, α being between 93 and 105° and radial depth PR of the transverse cuts (42) being at least 50% of the radial height of the leading face, the width of the blocks representing at least 15% of the width of the tread.

A wheel for a vehicle (e.g., a construction vehicle, an all-terrain vehicle, or other off-road vehicle) or other device, in which the wheel includes a non-pneumatic tire that may be designed to enhance its use and performance, including to be able to be used longer and/or in more challenging conditions, such as by being more resistant to cracking or other damage which could lead to premature failure (e.g., due to manufacturing artifacts and/or rocks and other hazards that can cut, chip, or tear during use). The non-pneumatic tire includes an annular beam configured to deflect at a contact patch of the non-pneumatic tire and an annular support extending radially inwardly from the annular beam and configured to support loading by tension. An elastomeric material of at least one of the annular beam and the annular support may have selected properties, including greater crack propagation resistance when subject to tensile stress.

An object of the present disclosure is to provide a highly durable tire using a resin composition, and a solution to the problem is a tire obtained by using a resin composition containing a polyamide resin and an elastomer having a glass transition temperature of 25° C. or less, wherein the melt viscosity ν (Pa.Math.sec) at 240° C. and the average distance between elastomer interfaces, τ (μm), satisfy the relationship of the following expression (1):
ν<34.369τ.sup.−3.525  (1).

Systems and methods for an energy harvester proximate to a rotatable component of a vehicle's wheel are disclosed. In some embodiments, an energy harvester system includes: a substrate having a first surface configured to contact and interface with a surface of a wheel, and a second surface opposite the first surface; a piezoelectric component configured to produce energy in response to mechanical strain imparted on the piezoelectric component, wherein the piezoelectric component is configured to deform while experiencing the mechanical strain so as to contact at least a portion of the second surface.

Systems and methods for an energy harvester proximate to a rotatable component of a vehicle's wheel are disclosed. In some embodiments, an energy harvester system includes: a substrate having a first surface configured to contact and interface with a surface of a wheel, and a second surface opposite the first surface; a piezoelectric component configured to produce energy in response to mechanical strain imparted on the piezoelectric component, wherein the piezoelectric component is configured to deform while experiencing the mechanical strain so as to contact at least a portion of the second surface.

An object of the present disclosure is to provide a non-pneumatic tire having a small temperature dependence of ride comfort, providing a good ride comfort over a wide temperature range, and having an excellent durability. A solution thereto is a non-pneumatic tire (1) using a resin composition for a framework member, the resin composition having a bending modulus of elasticity at −20° C. according to ISO 178 of 1600 MPa or less, and a bending modulus of elasticity at 60° C. according to ISO 178 of 150 MPa or more.

An object of the present disclosure is to provide a non-pneumatic tire having a small temperature dependence of ride comfort, providing a good ride comfort over a wide temperature range, and having an excellent durability. A solution thereto is a non-pneumatic tire (1) using a resin composition for a framework member, the resin composition having a bending modulus of elasticity at −20° C. according to ISO 178 of 1600 MPa or less, and a bending modulus of elasticity at 60° C. according to ISO 178 of 150 MPa or more.