A vehicle includes a passenger compartment having a roof structure having a front header, a pair of side headers and a rear header. A headliner is disposed beneath the roof structure. At least one inflatable bladder is disposed along at least one of the front header, the pair of side headers and the rear header. The at least one inflatable bladder is connected to an inflator. A rib structure is disposed adjacent to the at least one inflatable bladder. The inflatable bladder inflates to a maximum height of 12 cm below the at least one of the front header, the pair of side headers and the rear header.

Provided are a polymeric article and a composite article capable of obtaining favorable texture with a high resilience by using thermoplastic elastomer. A composite article includes: a first member; and a second member having a plate-shaped portion and a plurality of protrusions protruding from the back surface of the plate-shaped portion and having protruding ends contacting the first member, and cushioning properties are imparted to the composite article by elastic deformation of the second member. The plate-shaped portion and the plurality of protrusions are integrally made of solid thermoplastic elastomer or slightly-foamed thermoplastic elastomer with an expansion ratio of 1.1 or less, the thermoplastic elastomer having an impact resilience modulus of 30 to 90% at 23 C. measured in accordance with JIS K6255, and a hysteresis loss rate measured at 23 C. by compressing and depressurizing the composite article at a speed of 60 mm/min is 28% or less.

A side pillar air curtain guide includes a main body having a ramp receiver and an air curtain ramp insert connected to the main body. The air curtain ramp insert is of honeycomb construction.

Provided is a damping member for a vehicle having excellent efficiency of input energy absorption. A damping pad serving as a damping member for a vehicle includes a base plate portion having a flat plate shape, a vertical wall arranged at a rim of the base plate portion in a flange-like manner, a plurality of ribs arranged in parallel as rising from the base plate portion, each of the ribs connected to a vertical wall as extending in a direction intersecting with the vertical wall, and a fragile section arranged between adjacent two of the ribs. The fragile section includes a groove formed at the vertical wall and a slit formed at the base plate portion.

An impact absorber to be mounted between a vehicular panel and a vehicular interior part covering the vehicular panel from a vehicular interior side includes an opposite wall to be opposite the vehicular panel, outer walls extending from edges of the opposite wall toward a vehicular interior side, and an extended wall extending from the opposite wall toward the vehicular interior side and having a side edge connected to the one outer wall, and the extended wall having a thickness that is increased from a vehicular interior end thereof toward a vehicular exterior end thereof, and the extended wall having a cutout hole that is open toward a vehicular exterior side.

An instrument panel assembly includes a support beam and an exterior panel. The instrument panel assembly includes an energy absorbing device between the support beam and the exterior panel and having a variable crush resistance based on a temperature of the energy absorbing device. The instrument panel assembly includes a heater operatively coupled to the energy absorbing device.

A roof system for a vehicle includes a fixed roof element, forming a fixed roof segment of a vehicle roof bounding a passenger compartment and situated in a rear area of the vehicle roof, a roof opening and closing mechanism, which is designed to allow a relative movement of a movable roof element in relation to the fixed roof element for the opening and closing of a roof opening in the vehicle roof and/or a relative movement of a movable roller blind in relation to the vehicle roof. The fixed roof element is designed as a single-piece roof element having at least one impact energy absorption section and at least one receiving section locally distinct from the impact energy absorption section for receiving of electrical and/or mechanical function elements, by which or in the interplay of which with other function elements a movement of the movable roof element for the opening and closing of the roof opening and/or a driving of the roller blind can be effectuated.

An impact absorber to be mounted on a vehicular exterior side surface of a vehicular interior part covering a vehicular panel from a vehicular interior side includes an opposite wall to be opposite the vehicular panel, outer walls extending from edges of the opposite wall toward a vehicular interior side, and mounting portions that are to be fit to mount members included on the vehicular exterior side surface of the vehicular interior part, each of the mounting portions including a basal portion being included at a vehicular interior side end of one of the outer walls and in contact with the vehicular exterior side surface of the vehicular interior part, a distal end portion being on a vehicular exterior side than the basal portion and to be secured to one of the mount members, and an intermediate portion connecting the basal portion and the distal end portion.

An upper reinforcement for a door trim panel includes a reinforcement channel, softening features within reinforcement channel, a tab depending from the reinforcement channel, and a trigger feature between the reinforcement channel and the tab whereby the reinforcement channel is released from the tab during a side impact. A method of tuning performance characteristics of the upper reinforcement is also described.

A strengthening structure of a vehicle is provided herein and includes a base having cutouts. Relief members are disposed across the base and each include a cross section having twelve or fourteen corners, a distal end, and an open proximal end in communication with a corresponding cutout.