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.

A concealment system for a first vehicle component having a cutout and receiving aperture exposed by removal of a second component, includes a pre-insert configured to be inserted into the receiving aperture, and a filler insert having an outer surface and configured to be inserted into the cutout such that the outer surface of the filler insert is substantially flush with a visible outer surface of the vehicle component. The filler insert being inserted into and retained within the pre-insert.

Systems, methods and apparatuses are provided of a trim component assembly affixed to a pillar assembly, and a trim bumper element inserted between the trim component assembly and the pillar assembly to support the trim component assembly during an impact, the trim bumper element configured to deflect from a base shape when a load is applied to the trim bumper element to prevent for a period a detaching of the trim component assembly from the pillar assembly by enabling a load of a constant force to be received by the trim component assembly by a transfer of force related to the load in part to the pillar assembly while the base shape of the trim bumper element deforms in response to the load applied.

A strengthening member for an automobile includes a cellular structure having a plurality of cells. A cross section of each cell has eight sidewalls interconnected at eight corners to define a closed polygon. The sidewalls define eight internal angles located at the corners. Two of the internal angles are acute and two of the internal angles are reflex.

An exemplary vehicle assembly, includes, among other things, an inflatable device that transitions between a less expanded position and a more expanded position. The inflatable device in the more inflated position is disposed within a door opening of a vehicle. A side door of the vehicle is detached from the vehicle to provide the door opening. An exemplary occupant protection method includes, among other things, after a side door of a vehicle is detached from the vehicle to provide a door opening, transitioning an inflatable device from a less expanded position to a more expanded position. The inflatable device in the more inflated position is disposed within the door opening.

An energy absorbing material includes a multi-cellular structure formed from a plurality of interconnected cells having a lattice structure. Each of the plurality of interconnected cells includes at least four nodes and at least one lattice element extending between each of the at least four nodes. The at least one lattice element has a diameter no greater than 2.5 mm.

There is provided a vehicle pillar structure including: a pillar-shaped component that forms a pillar; a pillar garnish that is disposed on a vehicle cabin side of the pillar-shaped component; and a supporting component that is provided between the pillar-shaped component and the pillar garnish and is capable of undergoing elastic deformation, and that supports one or a plurality of mounted components that have been mounted along the pillar-shaped component.

A concealment system for a first vehicle component having a cutout and receiving aperture exposed by removal of a second component, includes a pre-insert configured to be inserted into the receiving aperture, and a filler insert having an outer surface and configured to be inserted into the cutout such that the outer surface of the filler insert is substantially flush with a visible outer surface of the vehicle component. The filler insert being inserted into and retained within the pre-insert.

A force-attenuating system that is interposed between an exterior surface and an interior surface, either or both of which may be subjected to percussive forces. The system has a ceiling that is positioned proximate the exterior surface and one or more inverted hat-shaped force-attenuating units with sidewalls extending inwardly convergingly away from the ceiling. Some of the units have a floor that is positioned proximate the interior surface. Optionally the force-attenuating units may be configured as clover-leaf structures with a central region and hemi-pear-shaped lobes extending therefrom. Within the lobes is a floor that is positioned proximate the interior surface. The force-attenuating system may be deployed in an automotive or non-automotive environment.

A curtain airbag device mounting structure includes: a first pillar forming a part of a front pillar and extends substantially along a vehicle height direction; a second pillar forming another part of the front pillar, the second pillar being disposed on a rear side of a vehicle relative to the first pillar at a predetermined distance from the first pillar and extending substantially along the vehicle height direction; a transparent member bridged between the first pillar and the second pillar; and a curtain airbag device including a curtain airbag stored along a roof side rail and the second pillar, the curtain airbag being configured to inflate and deploy in a curtain-like fashion over a side portion of a cabin of the vehicle in case of a collision of the vehicle.