A bumper assembly of a motor vehicle includes a cross-member which extends in the motor vehicle transverse direction and a front section which is arranged in front of the cross-member in the motor vehicle longitudinal direction. The front section is supported on the cross-member in the motor vehicle vertical direction via a support element. The support element is produced in one piece with the front section and is pivotable between a production position and a mounted position.

A bumper assembly of a motor vehicle includes a cross-member which extends in the motor vehicle transverse direction and a front section which is arranged in front of the cross-member in the motor vehicle longitudinal direction. The front section is supported on the cross-member in the motor vehicle vertical direction via a support element. The support element is produced in one piece with the front section and is pivotable between a production position and a mounted position.

A shock absorbing component (a vehicular component having a shock absorbing structure) formed from an aluminum alloy hollow extrusion in an elongated shape includes a collision wall, a non-collision wall, an upper wall, a lower wall, and an inner rib. The collision wall forms a collision surface. The non-collision wall forms a non-collision surface 1B. The upper wall and the lower wall 40 connect the collision wall to the non-collision wall. The shock absorbing component is mounted to a vehicle with a stay (a mounting member) on the non-collision surface. The collision wall and the non-collision wall include joint portions joined to the inner rib. The joint portions of the collision wall and the non-collision wall include a collision wall-side recess formed by recessing the collision wall toward the inner rib in the longitudinal direction of the shock absorbing component and a non-collision wall-side recess formed by recessing the non-collision wall toward the inner rib in the longitudinal direction.

A shock absorbing component (a vehicular component having a shock absorbing structure) formed from an aluminum alloy hollow extrusion in an elongated shape includes a collision wall, a non-collision wall, an upper wall, a lower wall, and an inner rib. The collision wall forms a collision surface. The non-collision wall forms a non-collision surface 1B. The upper wall and the lower wall 40 connect the collision wall to the non-collision wall. The shock absorbing component is mounted to a vehicle with a stay (a mounting member) on the non-collision surface. The collision wall and the non-collision wall include joint portions joined to the inner rib. The joint portions of the collision wall and the non-collision wall include a collision wall-side recess formed by recessing the collision wall toward the inner rib in the longitudinal direction of the shock absorbing component and a non-collision wall-side recess formed by recessing the non-collision wall toward the inner rib in the longitudinal direction.

A first member (110) of an automotive structural member (1) has a flange portion (111), a first member ridgeline portion (112) connected to the flange portion (111), a protruding portion (113) having a top surface (113a) which is connected to, the first member ridgeline portion (112) and is aligned with a top surface (111a) of the flange portion (111) at the same level (L), and a recessed portion (114) adjacent to the protruding portion (113). A second member (120) has a second member ridgeline portion (121) having an upper surface (121a) in contact with a lower surface (112b) along the lower surface (112b) of the first member ridgeline portion (112), a vertical wall (122) connected to the second, member ridgeline portion (121), and a bottom wall (123) connected to the vertical wall (122). A stiffening member (200) supports the recessed portion (114).

A first member (110) of an automotive structural member (1) has a flange portion (111), a first member ridgeline portion (112) connected to the flange portion (111), a protruding portion (113) having a top surface (113a) which is connected to, the first member ridgeline portion (112) and is aligned with a top surface (111a) of the flange portion (111) at the same level (L), and a recessed portion (114) adjacent to the protruding portion (113). A second member (120) has a second member ridgeline portion (121) having an upper surface (121a) in contact with a lower surface (112b) along the lower surface (112b) of the first member ridgeline portion (112), a vertical wall (122) connected to the second, member ridgeline portion (121), and a bottom wall (123) connected to the vertical wall (122). A stiffening member (200) supports the recessed portion (114).

A vehicle includes a body. The vehicle includes a front bumper reinforcement that is attached to a front end of the body, and extends along a vehicle width direction. The vehicle includes a lower bumper reinforcement that is attached to the front end of the body, is located under the front bumper reinforcement, and extends along the vehicle width direction. The vehicle includes at least one specific member that is fixed to a partial section of the lower bumper reinforcement along an extending direction of the lower bumper reinforcement. Each of the at least one specific member includes a first portion that covers a front face of the lower bumper reinforcement, and a second portion that protrudes more upward than an upper face of the lower bumper reinforcement.

A cross-member arrangement for a bumper assembly on a motor vehicle includes a first deformation element mounting and a second deformation element mounting, a forward cross-member profile, which is connected to each of the two deformation element mountings, a rear cross-member profile, which is connected to each of the two deformation element mountings. A bumper assembly for a battery-powered motor vehicle includes one deformation element for bracing the bumper assembly against a front end of the motor vehicle arranged on each side of a central longitudinal axis of the motor vehicle.

A cross-member arrangement for a bumper assembly on a motor vehicle includes a first deformation element mounting and a second deformation element mounting, a forward cross-member profile, which is connected to each of the two deformation element mountings, a rear cross-member profile, which is connected to each of the two deformation element mountings. A bumper assembly for a battery-powered motor vehicle includes one deformation element for bracing the bumper assembly against a front end of the motor vehicle arranged on each side of a central longitudinal axis of the motor vehicle.

A structural member for a vehicle includes bumper stays having a tubular configuration and fixed to each of front ends of a pair of front side members included in a vehicle, and a tubular bumper beam provided with holes and into which the bumper stay is inserted. Each of the bumper stays includes a first shock absorbing portion and a second shock absorbing portion provided adjacent to the first shock absorbing portion on an outer side.