A method for producing a vehicle substructure with at least one first component, and also a vehicle substructure, are described herein. The first component is connectable to a second component by an installation connection. The first component is manufactured from a material which is not suitable for reversible deformations. A latching device having a deformable latching element is attached here to the first component. For this purpose, the first component is inserted into an injection molding device and is insert-molded with a reversibly deformable plastic. The latching device is produced here by injection molding and attached to the first component.

A method for manufacturing plastic products using a 3D printer is provided, wherein the method may be configured for improving appearance quality by suppressing a sink mark and improving strength of a fastening structure, by firstly injection-molding a body of a plastic product using an injection molding method and secondly printing the fastening structure of the body using a 3D printer.

In order to reduce production tolerances, a receiving device is proposed for receiving a first, in particular a sealing profile for vehicle doors, which is designed to injection mold at least one, in particular two further profiles onto the first profile, comprising at least two molds, in order to hold the first profile in each of the molds at least in some sections, having a connecting device for connecting two of the at least two molds and for aligning the first profile, wherein the two interconnected molds each comprise at least one receiving opening for receiving and holding the profile and the connecting device, wherein the receiving opening is designed to be able to receive the first profile and the connecting device in at least one of the two interconnected molds so as to be at least partly countersunk.

A device for producing a mold part. The device includes a first tool component and a second tool component. The first tool component has a first pressing surface and a first cavity. The second tool component has second pressing surface, a second cavity, and a nozzle configured to supply a liquefied synthetic material. The first and second cavities are configured to overlap at least partially in a cross-section perpendicular to the first and second pressing surfaces when the first and second pressing surface face each other. At least one of the first and second tool components is configured to be movable relative to another.

A fiber composite resin molding made of fiber composite resin including fibers and base resin, wherein fiber orientation directions of the fibers in a thickness direction of the fiber composite resin molding are different between a discretionary first region and a second region away from the first region on the surface of the fiber composite resin molding.

A decorative element for a motor vehicle comprising a transparent carrier element which can be fastened to the motor vehicle, a transparent surface layer which forms an external surface of the decorative element and is arranged on a visible side of the decorative element on the carrier element during intended use, a film printed with a predetermined pattern and arranged on a side opposite the visible side on the carrier element, and a transparent inner surface layer which forms an inner surface of the decorative element. The printed film comprises at least one transparent cut-out. A paint layer in a predetermined color is arranged between the printed film and the inner surface layer. A method for producing the decorative element is also disclosed.

An air diffuser for use at a ventilation outlet of an HVAC system. The air diffuser comprises a base platform having an opening plenum formed from injection-molded plastic, the base platform including a collar for attachment to the outlet, the plenum defined by a perimeter rim, the edges of the rim lying substantially within a first common plane, at least one first diffuser plate positioned over the plenum, the first diffuser plate formed from injection-molded plastic and having edges lying substantially within a second common plane, and a plurality of stems integrally molded with one or more of the first diffuser plate and the base, the stems configured to secure the first diffuser plate to the base platform, each of the stems having a first end sized to fit within a complimentary female receptacle formed in one of the first diffuser plate and the base platform, the stems being formed via injection molding with one of the first diffuser plate and the base platform.

The present invention discloses an improved operating fluid reservoir having a venting and/or air admission valve. The operating fluid reservoir is characterized in that a valve housing is formed integrally with an operating fluid reservoir wall. A vent opening, via which a valve housing interior is in fluid communication with a vent line, is embodied as a through opening through the operating fluid reservoir wall. A valve body, which is arranged in the valve housing interior, can be introduced into the valve housing interior via an introduction opening in the valve housing. The valve body comprises a holding device, by means of which the valve body is held movably in the valve housing.

An exterior trim for a motor vehicle has a body that forms a surface of the exterior trim. The body has an exterior surface and an interior surface, and defines a recess or cut-out. The body has a single undulating wall formed on the interior surface of the body substantially perpendicular to a plane defined by the body, and the single undulating wall at least partially surrounds the recess or cut-out. The exterior trim also includes a human-machine interface (HMI) device disposed at least partially within the recess or cut-out of the body. The HMI device may be used to externally control certain features of the motor vehicle.

The invention refers to a method for producing expanded polymer pellets, which comprises the following steps: melting a polymer comprising a polyamide; adding at least one blowing agent; expanding the melt through at least one die for producing an expanded polymer; and pelletizing the expanded polymer. The invention further concerns polymer pellets produced with the method as well as their use, e.g. for the production of cushioning elements for sports apparel, such as for producing soles or parts of soles of sports shoes. A further aspect of the invention concerns a method for the manufacture of molded components, comprising loading pellets of an expanded polymer material into a mold, and connecting the pellets by providing heat energy, wherein the expanded polymer material of the pellets or beads comprises a chain extender. The molded components may be used in broad ranges of application.