Abstract: The present invention relates to a component for the absorption of energy on an impact having a frame as well as having a section located in the frame and connected to the frame, with the section consisting of a multilayer fiber composite or comprising a multilayer fiber composite.

Abstract: The invention relates to a method for the production of a molded part which comprises a base part consisting of a plurality of layers and a thermoplastic or duroplastic synthetic material bonded therewith, the bond of the base part with the thermoplastic or duroplastic synthetic material being formed such that the thermoplastic or duroplastic synthetic material is deformed under a pressure to become flowable, or that it is introduced already liquefied under pressure and forms a bond with the base part. According to the invention, the production of the base part and the production of the bond of the thermoplastic or duroplastic synthetic material with the base part is carried out in the same die.

Abstract: The invention relates to a method for the production of a molded part which comprises a base part consisting of a plurality of layers and a thermoplastic or duroplastic synthetic material bonded therewith, the bond of the base part with the thermoplastic or duroplastic synthetic material being formed such that the thermoplastic or duroplastic synthetic material is deformed under a pressure to become flowable, or that it is introduced already liquefied under pressure and forms a bond with the base part. According to the invention, the production of the base part and the production of the bond of the thermoplastic or duroplastic synthetic material with the base part is carried out in the same die.

Abstract: The invention relates to a hybrid fastener, in particular for the absorption of kinetic impact energy and/or for the absorption of the forces occurring on towing, in particular on towing vehicles, comprising at least one force introduction member which introduces force into the hybrid fastener and/or introduces force from the hybrid fastener into an adjacent component and comprising at least one energy absorption member which absorbs the force introduced at least in part by deformation and which is in connection with the force introduction member, with the connection between the energy absorption member and the force introduction member being made in shape-matched and/or force-transmitting manner and/or such that the energy absorption member is connected to the force introduction member with bias.