The invention relates to a method for producing primary packaging having an integrated septum characterised by: a) providing a septum, b) providing an injection-molding die having two die halves, c) positioning the septum in the injection-molding die, d) moving the two die halves of the injection-molding die to form a cavity corresponding to the shape of the primary packaging to be produced, e) injecting a material into the cavity via an injection opening, where the two die halves of the injection-molding die pretensioningly holding the septum, and a rim of the septum is overmolded by the material, f) cooling the injected material while maintaining a holding pressure, g) moving the two die halves of the injection-molding die such that the produced primary packaging means having the integrated septum can be removed from the injection-molding die, and h) removing the produced primary packaging having the integrated septum from the injection-molding die.

A gasket with a carrier film containing a combination of a rubber-only gasket body and a carrier film holding the gasket body. The carrier film can be easily detached from the gasket body even when the gasket body adheres to the carrier film. In embodiments, the gasket contains a combination of a rubber-only gasket body and a carrier film holding the gasket body. A tab enlarging the plane area of the gasket body is integrally provided in the gasket body. As a method for handling the gasket, when the carrier film is detached from the gasket body, the carrier film is detached from the gasket body in a state where the gasket body is fixed to a base with the tab or the carrier film is detached from the gasket body with the tab in a state where the carrier film is fixed to the base.

A method for producing a part includes the steps of: positioning an insert in a mold via a gripping element, able to be actuated between an inactive configuration and an active configuration, of a gripping device comprising a shaping wall; shaping the insert in a reinforcing element against a surface; during positioning, maintaining a separation between the surface and the insert, and moving the shaping wall to apply the insert against the surface; and during the shaping, applying the shaping wall and the gripping element against the insert and the surface, the element being actuated in its inactive configuration before the application of the shaping wall.

A method for attaching an anchor to an end of a tensile member by inverting the assembly of anchor and tensile member and injecting pressurized potting compound. A length of filaments of the tensile member are placed within a cavity through the anchor. The anchor and filaments are placed in an inverted position, with the distal end of the anchor facing downward and the cable extending upward out of the anchor. If the anchor has an open distal end this is sealed. Liquid potting compound is injected into the anchor cavity and allowed to solidify. During the solidification process, a controlled translation (pulling) of the cable is preferably introduced.

An objective of the present invention is to provide a film to hold a metal layer, a metallic decorative sheet intermediate product, a metallic decorative sheet, a metallic molded product, and a method for producing a metallic molded product which prevent the occurrence of the whitening phenomena or the like of the metallic molded product which occur during production of the metallic molded products by using a metallic decorative sheet, as well as enables molding in a wider temperature range. A film to hold a metal layer comprises a thermoplastic resin having a melting point of 230 C. to 250 C. is provided, wherein the film to hold a metal layer has transparency.

An injection-molding process for injecting a shoe soling including at least two adjacent injection-molding layers onto a shoe upper drawn over a shoe last, uses a mold cavity including a frame, the cavity being covered at the top by the upper also serving as a mold cover, with plastic material being injected into the cavity below the upper. To produce two adjacent injection-molding layers of plastic materials having different properties and reaction times in one operation, i.e. without needing an interim mold opening, before covering the cavity a film is clamped over it by a clamp mounted on the frame. When filling the cavity, the space below the film is first filled with plastic material to produce the first injection-molding layer and then, to produce the adjacent second injection-molding layer, the space above the film is filled with plastic material. Plastic materials are used that inseparably attach to the film.

A method for attaching an anchor to an end of a tensile member by inverting the assembly of anchor and tensile member and injecting pressurized potting compound. A length of filaments of the tensile member are placed within a cavity through the anchor. The anchor and filaments are placed in an inverted position, with the distal end of the anchor facing downward and the cable extending upward out of the anchor. If the anchor has an open distal end this is sealed. Liquid potting compound is injected into the anchor cavity and allowed to solidify. During the solidification process, a controlled translation (pulling) of the cable is preferably introduced.

A lacrosse head pocket and a related method of manufacture are provided to facilitate consistent, repeatable and/or custom manufacture of lacrosse equipment. The pocket can be knitted, weaved or otherwise assembled on an automated assembly machine from strands, and/or can be formed as a unitary textile material having regions/sections with different physical and/or mechanical properties. The pocket can be integrally molded within portions of a lacrosse head to eliminate manually constructed connections between the pocket and lacrosse head. The pocket can include a perimeter flange constructed from special materials and/or a perimeter flange including intermittent voids along an outer edge so that the perimeter flange stretches when the pocket is in a loaded state with the lacrosse ball therein, thereby providing dampening to the pocket when a lacrosse ball exerts force upon the pocket in the loaded state.

A method of manufacturing a composite molded body includes a first step of introducing an FRP base material into a mold via a slit part provided in the mold, and inserting the FRP base material along a mold cavity; and a second step of injecting a molten thermoplastic resin composition A into the mold cavity to form the FRP base material into a three-dimensional shape and integrate the injected thermoplastic resin composition A and the FRP base material. The method makes it possible to easily and accurately mold a composite molded body of which a desired portion is efficiently and accurately reinforced in the same mold.

Embodiments of the present technology include molding processes for metallic foams, apparatuses, and products. An example method includes placing an uncompressed charge of conductive metal foam into a cavity disposed on a first tool, wherein the first tool is located on a first portion of a compression mold apparatus, translating the first portion of the compression mold apparatus towards a second portion of the compression mold apparatus so as to compress the uncompressed charge of conductive metal foam, creating a compressed charge of conductive metal foam, and overmolding around and through the compressed charge of conductive metal foam with an overmolding material.