An elastomer composition includes guayule rubber and a butadiene rubber, with at least about 5 phr guayule rubber based on 100 phr elastomer. The cured rubber has a higher coefficient of friction as compared to a cured rubber of the same formulation except using Hevea rubber rather than guayule rubber.

The present invention regards a footwear sole including a first component and a base group constrained to the midsole component and provided with a second component or support component as well as a third component or tread component including a plurality of stud elements.

A sole structure for an article of footwear comprises a sole plate that includes a foot-facing surface with a forefoot portion, and a ground-facing surface opposite from the foot-receiving surface. A tension member is operatively secured to the ground-facing surface and has a portion configured to move relative to the sole plate during dorsiflexion of the sole structure in a first portion of a flexion range, and interfere with the sole plate during dorsiflexion of the sole structure in a second portion of the flexion range greater than the first portion altering the rate of the resultant torque.

A sole structure includes an insole with a sensory feedback system. The insole includes a first insole layer and a second insole layer coupled to the second insole layer, and the sensory feedback system includes multiple protrusions extending from the second insole layer and through the second insole layer. The protrusions are made from a material that is harder than the material forming the first insole layer. In other words, the hardness of the material forming the protrusions is greater than the hardness of the material forming the first insole layer. The protrusions are placed along a predetermined feedback region of the insole based on the user's needs. As such, the protrusions can provide the user a tactile sensory feedback to the user during golf swing.

A multi-durometer sole structure includes a sole structure body including a forefoot region, a heel region, and a midfoot region between the heel region and the forefoot region, a medial edge, and a lateral edge opposite the medial edge. The sole structure body further includes a first body segment extending along the forefoot region, the midfoot region, and the heel region, a second body segment extending along the forefoot region, the midfoot region, and the heel region, and a third body segment extending along midfoot region and the heel region. The first, second, and third body segments are made of different materials having three different hardnesses, respectively, such that a total hardness of the sole structure body varies from the medial edge to the lateral edge.

An improved sole structure for article of footwear is disclosed herein. The sole structure includes a midsole and an outsole coupled to the midsole. The midsole includes a plurality of grooves disposed both centrally and on the sides of the bottom surface. The outsole includes a plurality of outboard plates, aligned on the sides of the outsole, and a plurality of inboard plates, centrally aligned on the outsole. A plurality of hinges couple the plurality of outboard plates to the plurality of inboard plates such that each of the plates are able to pivot independent of the other plates. The outsole further includes a series of slots and openings aligned with the plurality of grooves of the midsole. The combination of the independent pivotal plates of the outsole, the grooves of the midsole, and flexure of the midsole provide a dynamic and multi-directional flexing sole structure.

A sole structure for an article of footwear having an upper includes a heel region, a forefoot region, and a mid-foot region disposed between the heel region and the forefoot region. The sole structure also includes a bladder including a first barrier layer cooperating with a second barrier layer to define a first chamber bounding a periphery of the heel region, and a second chamber extending from the mid-foot region through the forefoot region and including a plurality of segments extending from a medial side of the sole structure to a lateral side of the sole structure. Each of the segments of the second chamber includes a medial reservoir adjacent to the medial side and a lateral reservoir adjacent to the lateral side, the medial reservoir fluidly coupled to the lateral reservoir via a first conduit.

An article of footwear includes an upper and a sole structure. The sole structure includes a plate that has a heel portion, a midfoot portion, a forefoot portion, and an extension portion. The extension portion extends forward of the forefoot portion and forward of a foremost extent of upper. The plate includes a first plate layer establishing an outer surface of the plate and extending in each of the heel portion, the midfoot portion, the forefoot portion, and the extension portion, and a second plate layer interfacing with the first plate layer and extending in the forefoot portion and the extension portion. A bending stiffness of the second plate layer is greater than a bending stiffness of the first plate layer.

Golf shoes having improved constructions are provided. The golf shoes include upper, midsole, and outsole sections. The upper may be made of a soft, breathable leather material. The midsole includes an upper region formed from a first material such as a foamed ethylene vinyl acetate (EVA); and a lower region formed from a second material such as a foamed ethylene vinyl acetate (EVA), wherein the materials have different hardness levels. A fiber-reinforced composite plate may be disposed in the midsole. The outsole contains different traction members arranged in a precise geometric structure that helps provide improved stability and traction.

A material that includes at least one layer made of an auxetic structure and articles of footwear having soles comprising the materials. When the material is under tension, it expands in both the direction under tension and in the directional orthogonal to the direction under tension. The articles of footwear have soles that have at least one layer made of a material that has a pattern of apertures to provide the auxetic structure. The apertures are surrounded by sole portions that can rotate or pivot to change the size of the apertures.