A vehicle component includes a polymeric material, a first filler, and a second filler. The polymeric material can be present at a concentration of at least about 35% by weight of the vehicle component. The first filler can be a carbon-containing filler dispersed within the polymeric material. The carbon-containing filler can be present at a concentration of at least about 20% by weight of the vehicle component. The second filler includes a substrate and carbon nanotubes. The carbon nanotubes extend from a surface of the substrate.

A vehicle includes a dash cross member extending along a vehicle width direction, a front side member arranged in front of the dash cross member and joined to the dash cross member, a floor member arranged behind the dash cross member, and a brace joined to the dash cross member and joined to the floor member. A joint between the brace and the dash cross member overlaps a joint between the front side member and the dash cross member in the vehicle width direction. The brace includes an extending portion. The extending portion is joined to the floor member.

A vehicle body may include a dash crossmember, a rocker extending rearwards from an end of the dash crossmember, a front pillar extends upwards from the rocker along the side portion of the cabin and a reinforcement plate including a first end joined to the dash crossmember and a second end joined to the front pillar. An inner wall of the dash crossmember may have an uneven shape that defines at least one bend extending in the right-left direction. The first end of the reinforcement plate may at least partly have a bent shape that conforms with the uneven shape of the dash crossmember.

An assembly for a vehicle comprising a crossmember, which is provided for connecting to two pillars lying opposite each other with respect to the x-y plane of the vehicle; a mounting that is connected to the crossmember, protrudes therefrom in the radial direction, and has two mounts, which are mutually spaced in the y direction, and end-face connection means; and a panel-shaped instrument which is connected to the connection means of the mounting at a distance to the upper closure thereof and which is held such that the operating surface of the instrument faces the passenger compartment of the vehicle in the x direction. The two mounts are designed as supporting frame mounts with a respective upper cord and a respective lower cord, each of which has limbs adjoining one another at an angle, one limb lying on the y-z plane and the other lying on the x-y plane, and which are inclined relative to each other so as to have a greater distance to each other at the instrument connection side than at the end facing the crossmember. At least one of the two cords has at least one predetermined bending point, which is provided by the geometry of the cord, between the two connection points of the cord, said cord bending at the predetermined bending point in the z and/or y direction in the event of a load (x direction).

A power control unit mounting structure mounted on a vehicle includes an engine in an engine room at a front of the vehicle, an intake manifold disposed above the engine, a power control unit that is disposed above the engine, coupled to a cable, and controls power of a drive motor, and a toeboard cross member disposed on a toeboard. The engine and the toeboard cross member partly overlap in a projected plane along a fore-and-aft direction to provide a space behind the control unit in a front view of the vehicle. The intake manifold and the control unit are disposed within a contour of the engine in a plan view of the vehicle. The intake manifold is disposed ahead of the control unit, and portions of intake pipes of the intake manifold on both sides extend rearward and are partly opposed to both side surfaces of the control unit.

The disclosure provides an instrument panel structure of a vehicle, which is connected to a steering device of the vehicle and configured to mount an in-vehicle device. The instrument panel structure of the vehicle includes an the instrument panel, a hanger beam member, and a bracket. The instrument panel has an instrument panel upper portion, and an instrument panel middle portion located below the instrument panel upper portion and having an opening for placing the in-vehicle device. The hanger beam member is configured to support the instrument panel and extends in a left-right direction of the vehicle and is connected between a left side and a right side of a vehicle body. The bracket is disposed on the hanger beam member and configured to support the in-vehicle device. The in-vehicle device and the instrument panel middle portion are connected to the hanger beam member via the bracket.

A vehicle component includes a polymeric material, a first filler, and a second filler. The polymeric material can be present at a concentration of at least about 35% by weight of the vehicle component. The first filler can be a carbon-containing filler dispersed within the polymeric material. The carbon-containing filler can be present at a concentration of at least about 20% by weight of the vehicle component. The second filler includes a substrate and carbon nanotubes. The carbon nanotubes extend from a surface of the substrate.

A front portion of a vehicle body includes front side frames, a subframe, and a vehicle compartment front structure body. The subframe has a subframe body, a front fastening portion fastened to the front side frame in a front region of the subframe body, and a rear fastening portion fastened and fixed to the vehicle compartment front structure body in a rear region of the subframe body. The rear fastening portion has a first convex portion protruding toward a vehicle rear side. A part of a steering gear box constitutes a second convex portion protruding upward from the subframe body. The front fastening portion has a third convex portion protruding upward from the front region of the subframe body. The vehicle compartment front structure body has a first inclined guide portion, a second inclined guide portion, and a third inclined guide portion having front surfaces to contact the convex portions.

An instrument panel assembly for a vehicle includes an instrument panel body including a driver-side portion, a center stack portion, and a passenger-side portion. A cross-car beam assembly is configured to at least partially support the instrument panel body and includes a horizontal member extending across at least the passenger-side portion of the instrument panel body. A first lower reinforcement bracket is spaced apart from the horizontal member and extends across the passenger-side portion of the instrument panel body. A second lower reinforcement bracket is coupled with the first lower reinforcement bracket. A vertical reinforcement bracket extends between the horizontal member and the first and second lower reinforcement brackets. The vertical reinforcement bracket includes a curved portion proximate a first end and coupled with the horizontal member. A second end of the vertical reinforcement bracket is coupled with at least one of the first and second lower reinforcement brackets.

A structural element forms a motor vehicle dashboard body that is intended to be installed in a transverse installation position inside a vehicle passenger compartment. The structural element has a one-piece openwork structure produced by three-dimensional printing. The openwork structure defines: a first internal passage that passes all the way through the structural element and extends transversely when the structural element is in the installation position. The first passage is shaped so as to receive a crossmember that is in particular bent with a constant radius of curvature and having at least two fastening elements that are intended to be fastened to the crossmember. A second internal passage connects the first passage to a face of the structural element that is directed toward the rear of the vehicle when the structural element is in the installation position. The second passage has at least one fastening element that is intended to fasten a steering column fastening support.