The disclosure provides a vehicle body rear part structure. The vehicle body rear part structure includes a load support part on a quarter pillar. The load support part includes a side sill stiffener, a quarter pillar stiffener and a damper stiffener. The side sill stiffener reinforces a side sill and forms a part of the quarter pillar. The quarter pillar stiffener is provided continuously with the side sill stiffener and reinforces the quarter pillar. The damper stiffener is provided above a rear wheel house and joined to the quarter pillar stiffener and a roof side rail.

The disclosure provides a vehicle body rear part structure. The vehicle body rear part structure includes a load support part on a quarter pillar. The load support part includes a side sill stiffener, a quarter pillar stiffener and a damper stiffener. The side sill stiffener reinforces a side sill and forms a part of the quarter pillar. The quarter pillar stiffener is provided continuously with the side sill stiffener and reinforces the quarter pillar. The damper stiffener is provided above a rear wheel house and joined to the quarter pillar stiffener and a roof side rail.

A body for a vehicle includes a first member provided at a lower portion of a front floor module extending to a front of a second member provided at a center floor module, and a third member provided at a lower portion of a rear floor module extending to a rear of the second member provided at the center floor module to form a main load path along the first, second, and third members extending from a foremost end of the vehicle to a hindmost end of the vehicle.

A body for a vehicle includes a first member provided at a lower portion of a front floor module extending to a front of a second member provided at a center floor module, and a third member provided at a lower portion of a rear floor module extending to a rear of the second member provided at the center floor module to form a main load path along the first, second, and third members extending from a foremost end of the vehicle to a hindmost end of the vehicle.

A vehicle window pane having a window pane body assembly having an outer side, which faces a vehicle environment, and an inner side, which faces a vehicle interior, and having a light-conducting layer; and a light source configured to couple its light into the light-conducting layer. An input coupling element coupling light emitted by the light source into the light-conducting layer is disposed on the inner side of the window pane body assembly.

A vehicle window pane having a window pane body assembly having an outer side, which faces a vehicle environment, and an inner side, which faces a vehicle interior, and having a light-conducting layer; and a light source configured to couple its light into the light-conducting layer. An input coupling element coupling light emitted by the light source into the light-conducting layer is disposed on the inner side of the window pane body assembly.

A curved panel part includes: a curved panel made of metal; and a reinforcement joined to the curved panel and made of a plurality of FRP layers including continuous fibers, in which each of the plurality of FRP layers has a single fiber direction, at least one layer out of the plurality of FRP layers has a fiber direction different from that of another layer, in the plurality of FRP layers, a proportion of layers having an angular difference in the fiber direction of 30° or more is 15% or more of all of the layers, and when calculating, by defining a maximum principal curvature direction of the curved panel as a 0° direction and a direction orthogonal to the 0° direction as a 90° direction, each of a 0° direction component and a 90° direction component regarding the fiber direction of each FRP layer of the reinforcement joined to the curved panel, by using a trigonometric function, an expression (1) is satisfied.

A vibration damping structure includes a panel which is a structure and a damping member joined to the panel. The damping member has a plurality of joined portions joined to a mating surface of the panel through respective joined surfaces in the X direction, and a plurality of spacing portions recessed toward the side opposite to the panel in the Z direction between adjacent joined portions. The damping member is formed such that the damping member is higher in damping than the panel and a resonance frequency of the damping member is formed such that it is substantially the same as a primary resonance frequency of the panel.

A vibration damping structure includes a panel which is a structure and a damping member joined to the panel. The damping member has a plurality of joined portions joined to a mating surface of the panel through respective joined surfaces in the X direction, and a plurality of spacing portions recessed toward the side opposite to the panel in the Z direction between adjacent joined portions. The damping member is formed such that the damping member is higher in damping than the panel and a resonance frequency of the damping member is formed such that it is substantially the same as a primary resonance frequency of the panel.

An edge profile of a glass pane of vehicle glazing, wherein the edge profile may have a plurality of distance pieces, which are arranged at a distance from one another along the edge profile, and that the edge profile attached to a pane edge defines with the distance pieces an installation position of the glass pane relative to a vehicle frame carrying the glass pane.