A system for forming material includes a housing including at least one wall defining an interior space. The housing is configured to contain a pressurized fluid in the interior space. The system also includes at least one tool configured to shape the material. The at least one tool is movable along a path from a first position external to the housing to a second position at least partially within the interior space. The system further includes a membrane extending at least partially in the path of the at least one tool.

A method for bending a flexible panel includes first, providing an airbag assembly; second, inflating the airbag assembly; next, abutting against the bending area with the airbag assembly; and lastly, bending the flexible panel by pivoting on the airbag assembly so that a bent portion of the flexible panel tightly contacts a surface of the airbag assembly, and the terminal area is located behind the flexible panel. The airbag assembly includes a housing and an elastic film. The housing includes at least one outlet and at least one inlet. The elastic film wraps the housing to form a gas chamber. The outlet and the inlet communicate with the gas chamber.

A method of forming a castless orthotic for a patient's foot in need thereof. The method comprises preparing an orthotic template for the foot wherein the template extends between a heel end and a toe end. In preparing the template the steps of attaching a three-quarter length or full length upper thermoplastic material to a or three-quarter length lower thermoplastic material, or providing a thermoplastic material having a variable thickness such that said thickness decreases from said heel end to said toe end is provided. Then attaching an outer lower layer to the lower thermoplastic material and attaching an outer upper layer to the upper thermoplastic material, or attaching an outer layer to each face of the variable thickness thermoplastic material and heating the prepared orthotic template for a predetermined period of time at a predetermined temperature to soften the orthotic template. A wrap is then placed on top of the foot foam and the foot of the patient is placed on top of the wrap and foot foam. The patient's foot is lifted and the heated orthotic template is placed on top of the wrap and then placing the patient's foot on top of the heated orthotic template. The wrap is placed about the longitudinal axis of the foot to retain the heated orthotic template intermediate the sole of the foot and the foot foam whereby the sides of the orthotic template are particularly supported by the wrap. The method further includes ensuring the foot is positioned over a cuboid support and a medial longitudinal arch support wherein the cuboid support is disposed on the outside of the bottom of the foot and the cuboid support is moved to push the foot upwardly until a resistance is felt, and where the foot is also positioned over the medial longitudinal arch support which is then pushed and pulled upwardly until the foot is moved into a neutral position or if it is unable to be translated or rotated due to until it reaches its end range of motion. At this time, the heel of the patient's foot is lifted to place their weight substantially on the front of their foot and a coolant is applied to at least the heel end of the orthotic template.

A method of forming a castless orthotic for a patient's foot in need thereof. The method comprises preparing an orthotic template for the foot wherein the template extends between a heel end and a toe end. In preparing the template the steps of attaching a three-quarter length or full length upper thermoplastic material to a or three-quarter length lower thermoplastic material, or providing a thermoplastic material having a variable thickness such that said thickness decreases from said heel end to said toe end is provided. Then attaching an outer lower layer to the lower thermoplastic material and attaching an outer upper layer to the upper thermoplastic material, or attaching an outer layer to each face of the variable thickness thermoplastic material and heating the prepared orthotic template for a predetermined period of time at a predetermined temperature to soften the orthotic template. A wrap is then placed on top of the foot foam and the foot of the patient is placed on top of the wrap and foot foam. The patient's foot is lifted and the heated orthotic template is placed on top of the wrap and then placing the patient's foot on top of the heated orthotic template. The wrap is placed about the longitudinal axis of the foot to retain the heated orthotic template intermediate the sole of the foot and the foot foam whereby the sides of the orthotic template are particularly supported by the wrap. The method further includes ensuring the foot is positioned over a cuboid support and a medial longitudinal arch support wherein the cuboid support is disposed on the outside of the bottom of the foot and the cuboid support is moved to push the foot upwardly until a resistance is felt, and where the foot is also positioned over the medial longitudinal arch support which is then pushed and pulled upwardly until the foot is moved into a neutral position or if it is unable to be translated or rotated due to until it reaches its end range of motion. At this time, the heel of the patient's foot is lifted to place their weight substantially on the front of their foot and a coolant is applied to at least the heel end of the orthotic template.

A skate boot shell including a tridimensional outer sub-shell made of a first material, the outer sub-shell including a first sole portion connected to first heel, ankle and side portions; a tridimensional inner sub-shell received within and connected to the outer sub-shell, an outer surface of the inner sub-shell being complementary to an inner surface of the outer sub-shell, the inner sub-shell being made of a second material different from the first material; and a tridimensional reinforcement sub-shell made of a third material different from the first and second materials and bonded inside at least one of the inner and outer sub-shells.

An imprint device and an imprint method which form mold patterns on both surfaces of a molding target. An imprint device transfers mold patterns on both surfaces of a molding target using flexible first and second dies and includes first and second casings which each apply pressure of first and second pressurizing rooms respectively, to the first and second dies respectively and the molding target, a pressurizer that adjusts the pressures of the pressurizing rooms, first and second moving units that move the first and second dies respectively and the molding target in a direction coming close to or distant from each other, a depressurizer that depressurizes a depressurizing room formed between the first and second casings, and eliminates fluids present between the dies and the molding target, and a pressure adjuster that adjusts pressures to reduce pressure differences between the depressurizing room and the pressurizing rooms.

A method for forming a three-dimensional curved surface on a laminated substrate is provided. In the method, the laminated substrate is brought into close contact with an elastic sheet. Here, the laminated substrate comprises a support substrate and a conductive layer on the support substrate, and the support substrate comprises a resin substrate comprising a thermoplastic resin. The elastic sheet is deformed while the laminated substrate is in close contact with the elastic sheet. The laminated substrate is brought into close contact with a temperature-controlled mold to soften the resin substrate.

A method and apparatus is presented. A portion is cut from a thermoplastic sheet of a first thermoplastic material based on a three dimensional model. The portion is secured to a mold. The portion and the mold are heated under vacuum to form a structure. The structure may take the form of a protective covering. In some illustrative examples, the mold may be formed of a second thermoplastic material based on the three dimensional model using additive manufacturing.

A method of producing a preform, having a step for preparing a sheet-shaped prepreg and a preform mold having a forming surface and a separable portion constituting at least a portion of the forming surface, forming the prepreg using the preform mold, and then removing the preform together with the separable portion from the preform mold.

An apparatus for hot drape forming a part includes a plurality of pyrometers, a bladder covering a formable material, and a pyrometer control medium positioned between the plurality of pyrometers and the formable material. The plurality of pyrometers are configured to measure a temperature of the pyrometer control medium.