A fluid-filled chamber, which may be incorporated into articles of footwear and other products, may include an outer barrier and a tensile element. The outer barrier may have a first portion, an opposite second portion, and an interior surface defining an interior void. The tensile element may be secured to the first portion of the outer barrier in a plurality of first bond areas and may be secured to the second portion of the outer barrier in a plurality of second bond areas. Each of the bond areas may be connected to portions of the tensile element spaced from the interior surface.

A method of manufacturing an insole may include providing an electronic element on a support layer; connecting a connector to the support layer; providing the support layer to a lower mold frame; covering the lower mold frame with an upper mold frame; and applying a foam material between the lower mold frame and the upper mold frame.

Disclosed is a microwave-transmitting mould structure, comprising a first template, a second template and a mould combining unit. The mould combining unit has a first snap fit, a second snap fit and an engagement member. The first snap fit is arranged on the first template; the second snap fit is arranged on the second template; and the engagement member is snap-fit engaged between the first snap fit and the second snap fit, so that when the first template and the second template are subjected to an outward pressure, corresponding faces thereof which the engagement member can pass through respectively abut against abutting faces of the first snap fit and of the second snap fit, and thus, the first template and the second template cannot be separated from each other due to an increased pressure inside the mould.

The present disclosure provides for making annealed additive manufacturing powder, where the powder can be used to make structures using additive manufacturing processes. The additive manufacturing powder can be annealed to improve the flowability of the powder. Once annealed, the powder can be used in the additive manufacturing process and structures can be formed by affixing the powder particles to one another (e.g., by reflowing and re-solidifying a material present in the powder particles). The annealed additive manufacturing powder can be formed in a layer-by-layer additive process to produce articles such as a component of an article of sporting equipment, apparel or footwear (10), including a sole structure (30) for footwear (10).

The present invention provides a method for making a sole structure with a knitted fabric and a sole structure. The method comprises steps of: placing a thermoplastic filling material in a knitted fabric, sealing an opening of the knitted fabric, placing the knitted fabric with the opening sealed in a mold, applying a heating temperature to melt the thermoplastic filling material of the knitted fabric, and restricting a shape of the knitted fabric via the mold to make a sole structure. The sole structure includes a compressible elastomer and a knitting texture wrapped around the compressible elastomer and fused with a surface of the compressible elastomer. The compressible elastomer is formed from the thermoplastic filling material after being melted and cooled. The knitting texture is formed from the knitted fabric and is capable of being directly observed from an appearance of the sole structure.

A sole structure for an article of footwear includes a unitary cushioning component comprising a plurality of scrap foam pieces configured as a plurality of different polyhedron shapes and a resin binder securing the scrap foam pieces to one another. The sole structure may comprise a midsole including an outer shell defining a central cavity. The cushioning component may be disposed in the central cavity as a core of the midsole. A method of manufacturing an article of footwear cutting the scrap foam body into pieces, mixing the pieces with a resin binder, and compression molding the mixed pieces and resin binder in a mold to form a cushioning component of a sole structure of the article of footwear.

A plate is used for a sole that forms a part of a shoe. The plate includes a reinforcement portion composed of a composite material containing a synthetic resin and a plurality of fibers. The plurality of fibers in the reinforcement portion each have a weight average fiber length not shorter than 0.4 mm and not longer than 7.0 mm and have such an orientation property that orientations thereof are aligned in a foot length direction.

A sole system for an article of footwear may include one or more of the following: a knitted component including an underfoot portion having a plurality of knitted cleat members; and an outsole cover assembly having a plurality of recesses corresponding to the plurality of knitted cleat members of the knitted component. The outsole cover assembly may substantially cover the underfoot portion of the knitted component.

A sole structure for an article of footwear may include a chamber for receiving a pressurized fluid, the chamber having a first chamber barrier layer and a second chamber barrier layer bonded to the first chamber barrier layer about peripheral portions of the first chamber barrier layer and the second chamber barrier layer to define an interior void between the first chamber barrier layer and the second chamber barrier layer. The sole structure may also include a tensile member bonded to, and extending between, the first chamber barrier layer and the second chamber barrier layer. The sole structure may include a bond inhibiting material located between the tensile member and the first chamber barrier layer, the tensile member and the first chamber barrier layer being unbonded in an unbonded area in which the bond inhibiting material is disposed. The chamber may include an outwardly extending bulge in the unbonded area.

In a method for adapting a thermally deformable item of clothing to a body part, the item is at least partially heated and brought into contact with an abutment region and the appropriate body part. The item of clothing has a side which, in the use position, is directed towards the body and a side which, in the use position, is directed away from the body. At least one pressure-exerting unit subjects that side of the item of clothing which is directed away from the body, at least in part, to a shaping pressure such that the at least partially heated item of clothing is adapted, at least in part, to the shape of the part of the body. The item of clothing is at least partially cooled by a cooling unit such that it is stabilized in the shape adapted to the part of the body.