Disclosed is a novel non-slip grippy ventilated shoe made of a slip resistant material with a failure mode of from 1 to 50 Newtons/millimeter, and is generally made of a cage-like configuration to provide maximum slip resistance as well as ventilation with minimum structure, just sufficient enough structure to allow the shoe to provide grip on a surface. The shoe is useful in performing floor exercises such as barre, yoga and pilates among other applications such as water sports like surfing where grip is important, or for hospital settings for fall risk patients to alleviate the risk of falling.

Provided in the present invention is a shoe that has a ground engaging surface with a simplified structure and that is excellent in lightweight properties since an outsole is composed of an elastomer sheet including a sheet body and foamed polymer particles dispersed in the sheet body.

Provided in the present invention is a shoe that has a ground engaging surface with a simplified structure and that is excellent in lightweight properties since an outsole is composed of an elastomer sheet including a sheet body and foamed polymer particles dispersed in the sheet body.

Sole structures including a plate including a first polyolefin resin, and an edge portion comprising a second resin are disclosed herein. The edge portion is more flexible or less rigid than the plate. Articles of footwear formed from the sole structures are also provided. Methods of making the polyolefin resin compositions, plates, edge portions, sole structures, and articles of footwear are also provided. In some aspects, the first polyolefin resin composition includes an effective amount of a polymeric resin modifier.

Golf shoes having improved outsole constructions are provided. The golf shoes include upper, midsole, and outsole sections. The outsole includes a first set of arc pathways extending along the outsole in one direction. A second set of arc pathways extend along the outsole in a second direction. When the first and second arc pathways are superposed over each other, four-sided tile pieces are formed, and these tiles contain protruding traction members. In one embodiment, the tiles comprise a first protruding traction member, an opposing second protruding traction member, and a non-protruding segment disposed between the first and second traction members. Different traction zones containing different traction members are provided on the outsole. These zones provide improved multi-surface traction. In one embodiment of the outsole, there is no channeling and no trenching of the golf course turf. There is less damage to the golf course for a given amount of traction. In one embodiment, the tile pieces, first and second protruding traction members, and non-protruding segment comprise the same material and form a unitary piece. Preferably, the unitary piece is made of a rubber material. In another embodiment, a heel step region without traction members may be provided on the outsole. Additionally, spike receptacles and spikes may be provided on the outsole in addition to the traction members.

Footwear and/or sole structures may include any one or more of: (a) a midsole component having one or more relatively large projections that extend into one or more corresponding openings in a midsole component (wherein the free end surface(s) of the large projection(s) may be siped); (b) a midsole component having one or more relatively small protrusions that extend into one or more small corresponding holes in an outsole component; (c) a midsole component having one or more relatively small holes into which one or more small corresponding protrusions on the outsole component extend; (d) a midsole component having medial and/or lateral side ridges (e.g., at least in an arch area) that receive a portion of outermost side edges of a corresponding outsole component; and/or (e) a midsole component having a relatively large central arch recess exposed through an opening in the outsole component.

A sole structure for an article of footwear includes a forefoot region disposed adjacent an anterior end, a heel region disposed adjacent a posterior end, and a mid-foot region disposed intermediate the forefoot region and the heel region. The sole structure further includes fluid-filled bladder having a first segment extending along a medial side in the heel region, a second segment extending along a lateral side in the heel region, and a web area disposed between the first segment and the second segment. Additionally, the sole structure includes an outer sole member having an upper portion extending from a first end in the forefoot region to a second end in the heel region. The second end of the outer sole member is received on a first side of the web area. The outer sole member also includes a rib extending downwardly from the upper portion and defining a cavity.

A structure for a wear-resistant, fully embedded node intended to extend the life of polyurethane used for restoring shoes.

A structure for a wear-resistant, fully embedded node intended to extend the life of polyurethane used for restoring shoes.

Golf shoes having improved outsole constructions are provided. The golf shoes include upper, midsole, and outsole sections. The outsole includes a first set of arc pathways extending along the outsole in one direction. A second set of arc pathways extend along the outsole in a second direction. When the first and second arc pathways are superposed over each other, four-sided tile pieces are formed, and these tiles contain protruding traction members. In one embodiment, the tiles comprise a first protruding traction member, an opposing second protruding traction member, and a non-protruding segment disposed between the first and second traction members. Different traction zones containing different traction members are provided on the outsole. These zones provide improved multi-surface traction. In one embodiment of the outsole, there is no channeling and no trenching of the golf course turf. There is less damage to the golf course for a given amount of traction. In another embodiment, a heel step region without traction members may be provided on the outsole. Additionally, spike receptacles may be provided on the outsole in addition to the traction members.