A suspension having a first link member that is coupled to a front wheel and a second link member that is located on a rear side of the first link member is mounted to a suspension housing. The suspension housing has a first supporting part that supports the first link member and a second supporting part that is provided on a rear side of the first supporting part and supports the second link member. The front frame has a first fixing portion to which the first supporting part is fixed and a second fixing portion to which the second supporting part is fixed, and the first fixing portion and the second fixing portion are provided at positions different from each other in a vehicle width direction.

The present vehicle rear part structure includes: a rear cross member that extends in a vehicle width direction on a bottom of a vehicle, and is coupled to structural materials of both side parts of the vehicle; under braces that extend in the vehicle width direction, and couple the rear cross member, and the structural materials of both side parts of the vehicle; a pair of rear suspension towers that are provided in the both side parts of the vehicle, and support the pair of rear suspensions; and a room partition, having both ends in the vehicle width direction connected to the pair of rear suspension towers, and having an intermediate lower end in the vehicle width direction coupled to the rear cross member from an upper side. Coupling positions of the under braces and the rear cross member are below a coupling position of the room partition and the rear cross member.

This vehicle body front structure includes a front side frame (14) which extends in a forward and rearward direction of a vehicle body, and a side wall member (52) which is provided outside the front side frame (14) in a vehicle width direction and joined to the front side frame (14), wherein the front side frame (14) has at least three folding portions, which include a first folding portion (24), a second folding portion (25), and a third folding portion (26) capable of being bent by an impact load (F1, F3) input from in front of a vehicle, in this order at intervals from a front toward a rear of the vehicle body, and has a reinforcing panel (65) which is provided between the second folding portion (25) and the third folding portion (26) among the side wall members (52), is stacked on a compression portion (81) on which a compressive force (F2, F4) acts from the impact load (F1, F3), and has a vertical bead (87).

In a vehicle body front structure including a dashboard panel (10), a damper housing (18) attached to a front side of the dashboard panel, and a component mounting part reinforcing plate (24) attached to the dashboard panel, a dashboard panel reinforcing plate (40, 48, 50) extends between the attachment part of the dashboard panel for the vehicle body structure member and the attachment part of the dashboard panel for the component mounting part reinforcing plate, and is attached to the dashboard panel. The dashboard panel reinforcing plate is adjacent to or overlaps with the attachment part of the dashboard panel for the vehicle body structure member of the dashboard panel without being attached to the vehicle body structure member, and has a part (40B) attached to or adjacent to the component mounting part reinforcing plate.

A vehicle side member includes: a main member portion which extends in a longitudinal direction of a vehicle; a front-side mounting portion which is one-piece construction with a front portion of the main member portion; a rear-side mounting portion which is one-piece construction with a rear portion of the main member portion; and a damper mounting portion which is one-piece construction with the main member portion, and in which a top end of a damper is received and mounted.

Shock absorber assembly structures are disclosed. An example shock absorber disclosed herein includes a shock absorber mount coupled to an end of the shock absorber, the shock absorber mount including a recess to receive a locating rib of a vehicle body, and an aperture to receive a fastener to couple the shock absorber mount to an attachment boss of the vehicle body.

A bearing arrangement for a damper bearing of a shock absorber in a wheelhouse of a vehicle. A damper receptacle is formed in a wheelhouse sheet metal part delimiting the wheelhouse. A threaded bolt is guided through a damper bearing screw hole and through a screw hole of the damper receptacle and the bolt tip of the threaded bolt is screwed together with an internal thread of a reinforcement element which is arranged on the side of the damper receptacle. A positioning aid is associated with the damper receptacle, via which positioning aid the damper bearing of the shock absorber can be pre-positioned in an assembly process up to an installation position in which the screw hole of the damper bearing, the screw hole of the damper receptacle, and the reinforcement element internal thread are oriented flush with respect to each other in a screw direction.

A vehicle front structure having an upper member joined to a damper base and being capable of absorbing a larger load when a vehicle is in full-lap collision or offset collision and comprises a pair of left and right upper members disposed respectively on left and right sides of the vehicle a pair of left and right damper bases in each of which a damper is fitted, wherein each of the upper members includes a main upper member portion having a cross section in a rectangular shape that is perpendicular to an axis thereof, the left and right damper bases are joined respectively to the left and right upper members at upper portions of the main upper member portions, and each of the main upper member portions includes a lower portion having a pair of indented portions formed at both corner portions in a vehicle width direction of the lower portion of and a step portion formed to extend in the vehicle width direction and connect the pair of the indented portions.

A work vehicle includes a lower frame 15, support frames 21 joined to left and right portions of the lower frame 15 and extending upward, suspension arms 25 and 26 supported by the support frames 21, and uprights supported by the suspension arms 25 and 26 and supporting wheels. The work vehicle also includes suspension springs 31 connected to the suspension arms 25 and 26 and the support frames 21, and dampers 32 connected to the suspension arms 25 and 26 and the support frames 21. The lower frame 15 is joined to a body frame.

A hybrid structural assembly for a motor vehicle includes a casting and a structural inlay. The casting includes a plurality of structural components joined together in a casting process to form structural load paths and extending in a plurality of directions in a 3D space. The casting includes a cast-allowable alloy material. The structural inlay is secured to at least one of the structural components. The structural inlay includes a material having at least one of a higher ductility and a higher toughness than the cast-allowable alloy material.