A method for sealing the edges of composite fiber components includes applying a thermoplastic semifinished product to a cut edge of a composite fiber component and thermoplastically or integrally joining the thermoplastic semifinished product to the cut edge of the composite fiber component by ultrasonic welding.

A method for sealing the edges of composite fiber components includes applying a thermoplastic semifinished product to a cut edge of a composite fiber component and thermoplastically or integrally joining the thermoplastic semifinished product to the cut edge of the composite fiber component by ultrasonic welding.

There is disclosed a sealable, flexible membrane for encapsulating a part to be isostatically pressed at an elevated temperature. The membrane includes at least one first layer of polymeric film having a melting point above the elevated temperature, and at least one second layer disposed on the first layer. The second layer comprising a metal. In one embodiment, the metal comes into contact with the part to be isostatically pressed. The membrane, which typically has a thickness ranging from 10 to about 500 m, and is impermeable to the flow of liquids and gases when sealed, can be used to warm press parts up to about 350 C. and pressures ranging from 5,000 psi to 100,000 psi. Methods to isostatically press parts using this sealable, flexible membrane are also disclosed. Bags made from the sealable, flexible membrane that are used in isostatic presses are also disclosed.

A composite fibrous susceptor for use in induction welding is described, along with methods of its construction and use. The composite fibrous susceptor can include a magnetically susceptible continuous fiber in conjunction with a thermoplastic polymer. The composite fibrous susceptor can be deposited according to an additive manufacturing process on a surface to be bonded according to an induction welding process.

A composite fibrous susceptor for use in induction welding is described, along with methods of its construction and use. The composite fibrous susceptor can include a magnetically susceptible continuous fiber in conjunction with a thermoplastic polymer. The composite fibrous susceptor can be deposited according to an additive manufacturing process on a surface to be bonded according to an induction welding process.

A device for coating of workpieces, which preferably includes, at least in sections, wood, wooden materials, plastics, aluminium or the like. The device includes a feed device for feeding a coating material, a pressing device for pressing the coating material onto a surface of the workpiece, a conveyor device for causing a relative motion between the pressing device and the respective workpiece, and a first joining device for applying and/or activating an adhesive agent on a coating material fed by the feed device and/or a surface to be coated of the workpiece. The device further includes at least a second joining device for applying and/or activating an adhesive agent on a coating material fed by the feed device and/or a surface to be coated of the workpiece.

A method for providing an integrated composite article made of a metal and a resin is provided. A crystalline thermoplastic resin composition is provided as a resin material. A plate material of various kinds of Al alloys having a thickness of 0.5 to 1.5 mm and having been subjected to a chemical treatment of NMT and cut out to be of a form and a dimension is placed in a metallic mold for an injection molding and injecting the crystalline thermoplastic resin composition into the metallic mold to form the integrated composite article having a final plate shape including curved face portion. The integrated composite article is provided as a roof of an automobile, and contribute to promotion of lighter weight of a vehicle, reduction of CO.sub.2, coping with problems of global warming.

The invention concerns a device (1) for the coating of workpieces (2) which preferably consist, at least in sections, of wood, wooden materials, plastics, aluminium or the like, comprising: a feed means (10) for feeding a coating material (12), a pressing means (20) for pressing the coating material (12) onto a surface (2a) of a workpiece (2), a conveyor means (4) for causing a relative motion between the pressing means (20) and the respective workpiece (2), and a first joining means (30; 50) for applying and/or activating an adhesive agent on a coating material (12) fed by the feed means (10) and/or a surface to be coated of the workpiece (2), characterized in that the device further comprises at least a second joining means (40; 60) for applying and/or activating an adhesive agent on a coating material (12) fed by the feed means (10) and/or a surface to be coated of a workpiece (2).

A current collector and a method of manufacturing the same are disclosed herein. In some embodiments, a current collector includes a complex polymer film layer, wherein the complex polymer film layer includes: a polymer matrix; and a metal material dispersed in the polymer matrix, wherein the metal material is fiber-shaped or plate-shaped, and the metal material is oriented in one direction.

Formable films are provided that include one or more biaxially-oriented polyethylene terephthalate layers. The formable films include a metaphase with a metaphase transition of about 180 C. to 200 C. as measured by differential scanning calorimetry (DSC). The formable films further include a molded volume of greater than 200%. Laminate structures including the formable films and processes for producing and using the formable films and laminate structures are also provided.