A side pillar air curtain guide includes a main body having a ramp receiver and an air curtain ramp insert connected to the ramp receiver. The main body is made from a first material having a strength S.sub.1 and a ductility D.sub.1 while the air curtain ramp insert is made from a second material having a strength S.sub.2 and a ductility D.sub.2 where S.sub.1>S.sub.2 and D.sub.1<D.sub.2.

A vehicle door includes a door inner and a trim panel fixed to the door inner. An energy absorber having a vehicle-rearward end and a vehicle-forward end is disposed between the door inner and the trim panel and elongated in a vehicle-forward direction from the vehicle-rearward end to the vehicle-forward end. The energy absorber includes a first energy-absorbing component defining a cavity facing the trim panel, and a second energy-absorbing component disposed in the cavity. The energy absorber has a stiffness that decreases in the vehicle-forward direction.

A personal automotive vehicle includes a seat and a moveable door panel in an interior of the passenger cabin, both of which are moveable between a forward and a rearward position. The moveable door panel is configured for movement such that a longitudinal position of the door panel with respect to the seat can be maintained with corresponding seat movement. The moveable door panel can help provide a perception to a seat occupant that they are properly positioned within the passenger cabin, even at an extreme rearward seat position.

A door assembly for a vehicle includes a door panel and a door trim panel comprising a shaped pelvic load path energy-absorbing feature disposed on a door panel-facing surface of the door trim panel. The shaped pelvic load path energy-absorbing feature is defined by a plurality of stepped surfaces, which in turn may define as various cross-sectional shapes for the shaped pelvic load path energy-absorbing feature.

An autonomous on-road vehicle having an outer nontransparent Shock-Absorbing Energy Dissipation Padding (SAEDP). In one embodiment, the SAEDP is mounted, during normal driving, to the front side of the vehicle at eye level of an occupant who sits in a front seat of the vehicle. A camera is mounted to the vehicle and takes video of the outside environment in front of the occupant. And a computer generates a representation of the outside environment at eye level for the occupant.

A vehicular door structure includes a door outer panel that constitutes a door exterior panel; a door inner panel that constitutes a door interior panel and is made of a resin, the door inner panel having a first side that is provided to the door outer panel; and a door interior member located on a second side of the door inner panel, the door interior member facing to the vehicle interior, wherein the door inner panel includes a panel part that has a plurality fragile portions, the fragile portions having a linear shape or a dotted line shape and being provided in parallel with each other while being spaced from each other in at least one direction of a door width direction and a door vertical direction.

A component for a vehicle interior configured to deform under a load is disclosed. An armrest for a vehicle interior configured to deform under a load is disclosed. A method for forming the armrest is disclosed. The armrest may comprise a substrate and base formed on the substrate. The base may comprise a core and a surface (or skin). The core may comprise a material configured to deform under a load (e.g. impact). The method for forming the armrest may comprise the steps of: (a) placing the substrate in a mold and (b) forming the base on the substrate. A coating may be provided in the mold. The substrate may be formed from a plastic material such as a thermoplastic material to provide a structure. The base of the armrest may be formed from a plastic material such as a polyurethane foam material to form the core with integral surface/skin.

A vehicular interior part includes an armrest extending in a vehicular front-rear direction, the armrest including a vehicular interior edge portion and a vehicular exterior edge portion, and an interior part component where the armrest is mounted from an upper side at at least the vehicular interior edge portion and the vehicular exterior edge portion. One of the vehicular interior edge portion and the vehicular exterior edge portion is mounted on the interior part component so as to be removed from the interior part component relatively more easily than another one of the vehicular interior edge portion and the vehicular exterior edge portion.

A door assembly for a vehicle includes a door panel and a door trim panel comprising a shaped pelvic load path energy-absorbing feature disposed on a door panel-facing surface of the door trim panel. The shaped pelvic load path energy-absorbing feature is defined by a plurality of stepped surfaces, which in turn may define as various cross-sectional shapes for the shaped pelvic load path energy-absorbing feature.

An active bolster for a vehicle is provided, wherein the bolster comprises an expansible hollow interior that is inflatable and is self-supporting in both an inflated and in an uninflated position. The bolster has an inflator module for inflating the expansible hollow interior. The bolster has an inner wall for projecting inwardly into the vehicle and away from the side of the vehicle on inflation of the expansible hollow interior. The bolster may have a relatively non-expansible component located between a first expansible chamber and a second expansible chamber. The bolster may comprise an outer wall having an attachment portion for attaching the outer wall to a portion of the side of the vehicle.