A vehicle may include a body including a rear surface defining an opening, a door configured to open and close the opening, and a rear bumper reinforcement fixed to a portion of the body located below the opening via a crash box. The body may include a lower back reinforcement extending in a vehicle widthwise direction along a lower edge of the opening and at least a part of the lower back reinforcement may be located directly above the rear bumper reinforcement in a vehicle height direction.

A vehicle front section structure including left and right front side frames, and left and right front side members. The left and right front side frames extend along a vehicle front-rear direction at respective sides in a vehicle width direction with respect to the power unit. A lower kick section sloping with a downward gradient on progression toward a vehicle rear side is formed at a rear section of each of the front side frames. The left and right front side members extend along the vehicle front-rear direction at a vehicle upper side of the left and right front side frames, are supported by the left and right front side frames, and configure part of a vehicle body. An upper kick section sloping with a downward gradient on progression toward the vehicle rear side is formed at a rear section of each of the front side members.

A vehicle front section structure includes left and right front side frame. A deformation portion configured to undergo compression deformation in the vehicle front-rear direction at a time of head-on collision of the vehicle is provided at a front end portion of each of the left and right front side frames. Left and right front side members that support a floor section of a vehicle cabin extend along the vehicle front-rear direction at a vehicle upper side with respect to the left and right front side frames. Front sections of the left and right front side members and the corresponding left and right deformation portions are connected by left and right coupling members. The left and right coupling members are configured so as to more readily undergo plastic deformation under collision load at a time of head-on collision than the left and right front side members.

A vehicle front section structure includes: a power unit installed at a front section; a left and right pair of front side frames extending in a vehicle front-rear direction; a left and right pair of front side members extending in the vehicle front-rear direction at a vehicle upper side of the left and right pair of front side frames, with rear end portions of the front side members being respectively joined to the left and right pair of front side frames; a cross member disposed at a vehicle rear side and obliquely upward of the power unit so as to span between the left and right pair of front side members and to support a driving seat of the vehicle; and a reinforcement brace spanning between the cross member and at least one front side member of the left front side member or a right front side member.

A front vehicle-body structure of a vehicle is provided that allows for lower deceleration (so-called G) for occupants in the event of an oblique collision, which involves the largest load input, while restraining a load in a shear direction from being input to connecting portions of frames. A front vehicle-body structure of a vehicle includes a suspension housing formed with a suspension damper supporting portion, an upper arm supporting portion, and a lower arm supporting portion. A plurality of frames connecting the suspension housing and a vehicle cabin structural member are provided, and at least one frame of the plurality of frames is configured to be facilitated to break in a Z-shape in vehicle plan view in the event of an oblique collision.

A front pillar substructure that enables reduction in deformation of a front pillar. One embodiment of the present disclosure provides a front pillar substructure including a front pillar, and a rocker being joined to the front pillar. The front pillar includes an inner panel located inside with respect to the rocker, and an outer panel arranged so as to interpose the rocker between the inner panel and the outer panel. The outer panel includes an upper panel, and a lower panel overlapped with and joined to the upper panel, the lower panel extending downward with respect to the upper panel. The upper panel or the lower panel includes a bent section bending in the width direction when viewed from the front-rear direction, the bent section being located inside with respect to a joint region where the upper panel and the lower panel are joined.

A frame assembly for a motor vehicle that may include a first load beam, a second load beam, and a frame rail that are configured for receipt and transfer of energy to a sill that can move the sill in a downward direction. A counterbalancing load beam that includes a first fixed end is attached to the first load beam and a second fixed end is attached to the frame rail. The counterbalancing load beam is configured for receipt of at least a portion of the energy applied to the first load beam, and the counterbalancing load beam is configured to transfer the energy received from the first load beam to the frame rail such that the transfer of energy to the sill that can move the sill in the downward direction is counterbalanced by the energy transferred by the counterbalancing load beam to the frame rail.

A vehicle storage structure is deformed and crushed, when an excessive load is inputted to a vehicle from outside, without any influence to functions of surrounding structures. The vehicle storage structure includes a case formed in a box shape having side walls, rising integrally with a periphery of a bottom plate, and an open top face, wherein when a line in a vehicle front-rear direction, connecting centers in an up-down direction of the bottom plate, is defined as a bottom-plate center line, and a line connecting a front end of the bottom-plate center line with a rear end of the bottom-plate center line is defined as a bottom-end connection line, the bottom-plate center line is a polygonal line having a ridge as a folding point and the ridge is positioned higher than the bottom-end connection line.

A vehicle engine cradle structure includes a front member, a rear assembly and a side member. The front member extends in a vehicle lateral direction and has a first outboard end and a second outboard end. The rear assembly extends in the vehicle lateral direction and has a first outboard area and a second outboard area opposite the first outboard area. The first side member has a first forward end, a first rearward end and a first forward outboard portion all being formed as a single monolithic unitary element. The first forward end is fixedly attached to the first outboard end of the front member. The first rearward end is fixedly attached to the first outboard area of the rear assembly. The first forward outboard portion extends in an outboard direction from the first outboard end of the front member defining an off-center impact area.

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.