A load introduction device and a method for adhesive bonding of a load introduction device for fiber composite materials is disclosed. A sealant, particularly a first adhesive is used in the creation of a cavity and in the creation of a secured arrangement for the injection of adhesive into the cavity.

The present invention relates to a chassis (10) for a vehicle comprising a plurality of sandwich plate elements (100) and a plurality of connection elements (200, 200′, 200a-c) for connecting said plurality of sandwich plate elements (100). Each connection element (200, 200′, 200a-c) comprises two or more recesses (210, 220) configured to receive an edge portion (160) of one of the plurality of sandwich plate elements (100). The plurality of connection elements (200, 200′, 200a-c) comprises at least one connection element (200′, 200a-c) which has at least one external surface (202a-e) provided with a connection configuration (250a-e) for a mortise and tenon type joint. A method (20) for forming a chassis (10) for a vehicle is also provided.

A wheel arch for housing at least one wheel of a vehicle and for attachment to a chassis of a vehicle is described. The wheel arch comprises a load bearing mounting point, wherein the wheel arch is configured to receive, in use, forces at the load bearing mounting point from a vehicle component mounted at the load bearing mounting point. A vehicle and a method of assembling a vehicle comprising the wheel arch is also described.

A reinforcing element for reinforcing structural elements including at least one channel on an outer side. The outer side forms a shoulder next to the channel. Furthermore, the reinforcing element is provided for forming an open system in terms of an adhesion of the reinforcing element in the structural element, wherein, in a use state of the reinforcing element in the structural element, a space is formed between the shoulder of the reinforcing element and the structural element, which is open relative to an adjacent cavity of the structural element.

One aspect is an apparatus including a plurality of additively manufactured components each having an adhesive injection channel. The components are connected together such that adhesive injection channels are aligned to form an adhesive path that allows adhesive flow between the components. Another aspect is an apparatus, including an additively manufactured component having an adhesive injection channel and an adhesive flow mechanism comprising at least one of an adhesive side end effector or a vacuum side end effector, the adhesive flow mechanism configured to provide adhesive to the adhesive injection channels.

An automotive vehicle has a skateboard platform and a vehicle body that is attached to the skateboard platform or chassis. The sides of the vehicle body are formed using a structural frame, made up of multiple structural sub-frames that give structural integrity to the sides of the vehicle body and to which body panels are attached. Each structural sub-frame is directly attached to the skateboard platform or chassis.

A system including two pre-fixed substrates, wherein a first substrate and a second substrate. Each of the substrates has an opening in an overlap region, and an adhesive is arranged between the overlap regions, wherein the adhesive connects the two substrates together and is arranged at least partly in the openings. The adhesive is locally cured in the region of the openings. A cured sub-region of the adhesive extends from the first opening into the second opening, and a second sub-region of the adhesive is not cured.

A structural reinforcement, utilized to reinforce a structural joint of a vehicle, and method of reinforcing a structural joint of a vehicle. The structural reinforcement having a clamshell structure comprising two complimentary halves. The structural reinforcement further comprising an activatable composition.

The present disclosure relates to a motor vehicle body panel including a main body made of plastic material and sized to be bonded to a motor vehicle structure, and a bead of glue arranged to receive a second bead of glue, the bead of glue being made of a more flexible material than that forming the main body.

A vehicle body includes a structural member having an inner surface defining an elongated cavity. The structural member includes an outer panel member joined to an inner panel member. A tension web secured in the cavity separates the outer and inner panel members. A reinforcement member is positioned in the cavity of the structural member. The reinforcement member contacts the transverse web and a gap is provided between the reinforcement member and the inner surface of the structural member. The reinforcement member including a base member having a plurality of bumpers extended in a width direction of the reinforcement member. The plurality of bumpers face one of the inner surface and the tension web. An adhesive secured to the reinforcement member is activatable to expand toward the inner surface to define a joint between the reinforcement member and the structural member and to at least partially fill the gap.