Disclosed is a vehicle rear wing structure, that includes a rear wing plate and a rear wing. The rear wing plate includes: a buckle portion, formed into an angular structure, and is used to clip and hold along a front end of the rear wing, so that the rear wing plate is fixed securely onto a surface of the rear wing; a main body portion, formed into a planar structure, and is disposed on a surface of the rear wing, and is connected and fixed to the buckle portion, on an inner surface of a rear part of the main body portion is disposed an adhesive portion; and a protrusion portion formed into a tilt-up structure, this tilt-up structure tilts up along a rear end of the rear wing to form a wind resistant plane.

A method for fabricating a joint designed to connect tubes for a space frame, where a space frame may be a vehicle chassis, is provided. The method may generate joints with variable geometry and fine features which may reduce production costs, reduce production time, and generate joints configured for highly specific applications. The joint may include centering features which may create a space between a surface of the tube and a surface of the joint through which adhesive may flow.

A vehicle chassis is provided. The vehicle chassis may comprise one or more vehicle chassis modules or chassis substructures that are formed from a plurality of customized chassis nodes and connecting tubes. The customized chassis nodes and connecting tubes may be formed of one or more metal and/or non-metal materials. The customized chassis nodes may be formed with connecting features to which additional vehicle panels or structures may be permanently or removeably attached. The vehicle chassis modules or chassis substructures may be interchangeably and removeably connected to provide a vehicle chassis having a set of predetermined chassis safety or performance characteristics.

A motor vehicle includes a tailgate which has an inner panel, a reinforcing component and an outer panel. The inner component or the outer component is flanged on an end portion, forming a cavity or intermediate space. An adhesive is placed in the intermediate space. An end portion of the non-flanged component is arranged in the intermediate space. An intermediate space is formed between an inner surface of the inner component and an inner surface of the outer component and is filled with adhesive. The end portion of the middle component present in each case is arranged in the intermediate space.

A front pillar outer includes a first member and a second member. The first member includes a first glass-surface-side flange part and a first door-side flange part. The sheet thickness of the second member is thinner than the sheet thickness of the first member. The second member includes a second glass-surface-side flange part and a second door-side flange part. The first door-side flange part protrudes further towards the rear end of the front pillar outer than the first glass-surface-side flange part and a first main body part, and overlaps with the second door-side flange part. The second glass-surface-side flange part overlaps with a rearward region of the first glass-surface-side flange part. A second main body part overlaps with a rearward region of the first main body part. In a region in which the first member overlaps with the second member, the first member is joined to the second member.

A rocker assembly for a vehicle comprising a rocker panel and a side sill that enclose an injection molded reinforcement. The reinforcement includes a plurality of intersecting walls that may be provided in horizontal and vertical planes. An intermediate wall formed by frames within four sided cells that define windows. The rocker assembly may include two different types of reinforcements, one with intersecting walls, or fins, extending laterally and one formed by a plurality of longitudinally extending tubular members.

A vehicle framework structure includes: a framework body portion extending in a vehicle front-rear direction in a vehicle end portion in a vehicle width direction, the framework body portion forming a closed section by an inner panel constituting an inner part of the framework body portion in the vehicle width direction and an outer panel constituting an outer part of the framework body portion in the vehicle width direction; and a reinforcing member placed inside the closed section of the framework body portion, the reinforcing member including a body portion inclined from the vehicle front-rear direction and provided over the inner panel and the outer panel, and a flange portion extending from an outer peripheral edge of the body portion and joined to the inner panel and the outer panel.

A bulkhead for a vehicle body structure includes a panel. The panel has a contour defined by a contour length and characterized by an open section having three surfaces in a cross-sectional view. The bulkhead also includes a support member embedded in the panel. The support member includes an external form configured to interface with and match at least two of the three surfaces of the contour. The support member also includes a support member length configured to fit within the contour length and a boxed cross-section having a substantially uniform shape along the support member length. The bulkhead additionally includes an adhesive applied between the external form of the support member and the interfacing surfaces of the contour to thereby bond the support member to the panel and reinforce the bulkhead. A vehicle having a structure with such a bulkhead is also considered.

Systems and methods are described herein for providing electrical conductivity between a first member including a first metal material having a first galvanic potential and a second member including a second metal material having a second galvanic potential during electrocoating. An adhesive comprising conductive metallic particles is applied to one of the first or the second members. The first member and the second member are joined via the particle-induced adhesive, wherein the particle-induced adhesive provides electrical conductivity between the first member and the second member when the first member and the second member are joined.

A vehicle has a vehicle body provided with a pair of rockers, the rockers each being provided on one side of a floor panel in a right-left direction and on another side of the floor panel in the right-left direction. The vehicle has a battery pack that is disposed below the floor panel, and that stores electric power to be supplied to a traveling motor. The vehicle has a pair of fixing members, the fixing members each being disposed on one side of the battery pack in the right-left direction and another side of the battery pack in the right-left direction, that is configured to fix the battery pack to the rockers. The vehicle has an elastic member disposed between the battery pack and the fixing members. The elastic member is disposed in a state compressed by the battery pack and the fixing members.