A bonded mesh composite panel can be used to form a three-dimensional upper shell that includes extensions used for double-lasting and/or to otherwise provide a shelf to support foam padding. The foam padding may be, e.g., a foam midsole. The extensions of the upper shell may be located in a lower portion of the shell and may be bonded to the foam midsole in a heel, midfoot and/or forefoot regions.

Articles of wear having one or more textiles that include a low processing temperature polymeric composition and a high processing temperature polymeric composition, and methods of manufacturing the same are disclosed. The low processing temperature polymeric composition and the high processing temperature polymeric composition can be selectively incorporated into a textile to provide one or more structural properties and/or other advantageous properties to the article. The textile can be thermoformed to impart such structural and/or other advantageous properties to the article of wear. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

Processes and systems for thermoforming articles of wear are disclosed. The process can include utilizing a negative pressure generation system to seal an article in a forming material thereby compressing the forming material onto the outer surface of the article. The process can also include exposing the sealed article to an increased temperature followed by exposure to a decrease temperature, while maintaining the compressive force of the forming material on the outer surface of the article. A positive pressure can also be applied to the sealed article while undergoing the heating and/or cooling steps, which can facilitate the removal of bubbles from the article during thermoforming as well as apply additional compressive force to the outer surface of the article.

Described are methods for the manufacture of a plurality of shoes, an apparatus to perform such method, as well as shoes manufactured by such method. According to certain examples, the method for the manufacture of a plurality of shoes includes providing a plurality of first shoe components for the manufacture of the plurality of shoes, and moving the plurality of first shoe components with a transport means which is at least partially comprised of the plurality of first shoe components.

A method of manufacturing a skate boot shell, and more particularly a non-lasted skate boot shell, including shaping tridimensional outer and inner sub-shells, and bonding the shaped sub-shells together through lamination. The lamination is performed after the sub-shells are shaped and includes applying heat to the sub-shells and/or pressure on one of the sub-shells toward the other against a mold surface. A skate boot shell with multiple sub-shells is also discussed, including an outer sub-shell, and inner sub-shell and a reinforcement sub-shell.

An upper shell panel may be placed between first and second sections of a mold. The first section may include one or more expansion cavities and the second section may include one or more pour cavities. A foam-producing chemical mixture may be delivered into the one or more pour cavities and the mold may be closed. The delivered foam-producing chemical mixture may be allowed to expand within the closed mold and to force regions of the upper shell panel into the one or more expansion cavities. The upper shell panel may then be removed from the mold subsequent to the expansion of the delivered mixture.

Beads may be stitched to a substrate layer and then fused to form structures including foam midsoles, foam pads, and other foam structures. Beads may be embroidered to multiple substrate layers and then folded or stacked together to form a preform used in a mold to form a midsole.

Port-injection footwear is provided. In one example, port-injection footwear is provided including a footwear-structure bag encompassing an injected foam. In some examples, the footwear-structure bag may form an integrated footwear component. The port-injection footwear further may include a foam barrier disposed adjacent to the footwear-structure bag to retain the injected foam within the bag during injection. An outsole may be directly coupled to the footwear-structure bag forming a base of the footwear article. In other examples, the port-injection footwear may include a footwear-structure bag having an injection port, an injected foam retained in the footwear-structure bag, where the injected foam was injected through the injection port, and a port cap positioned at the injection port of the footwear-structure bag.

The present disclosure encompasses three-dimensional articles comprising flexible-composite materials and methods of manufacturing said three-dimensional articles. More particularly, the present system relates to methods for manufacturing seamless three-dimensional-shaped articles usable for such finished products as airbags/inflatable structures, bags, shoes, and similar three-dimensional products. A preferred manufacturing process combines composite molding methods with specific precursor materials to form fiber-reinforced continuous shaped articles that are flexible and collapsible.

A method of manufacturing a non-woven fabric includes the steps of: (a.) providing a substrate, wherein the substrate is air permeable in at least a portion of its surface; (b.) providing a fiber transfer device adapted to transfer fibers onto the substrate; (c.) transferring a first plurality of fibers onto the substrate; and (d.) applying a pressure differential to the air permeable portion of the substrate, wherein the strength of the pressure differential is varied across the surface of the substrate.