A vehicle door includes an outer panel, an inner panel including an inner wall portion, a side wall portion, and a flange portion, an impact beam provided so to extend between the outer panel and the inner wall portion on a surface parallel to inner wall portion, and a bracket including a fixed portion, a joint portion, and a recessed portion. The recessed portion recesses toward an inner-panel side such that a tip end of the impact beam is distanced from the bracket. In an extending direction of the impact beam, a yield strength of a region from the fixed portion to a tip end position of the impact beam for a load applied from the outer panel-side is lower than a yield strength of a region from the tip end position of the impact beam to the joint portion for the load applied from the outer-panel side.

A vehicular panel structure includes a panel, a reinforcement disposed inward of the panel in a vehicle, and mastic that bonds the panel and the reinforcement to each other. The reinforcement is provided with a body portion constituting a middle portion in a longitudinal direction and having a linear expansion coefficient smaller than the linear expansion coefficient of the panel, a connection portion constituting an end portion in the longitudinal direction, and a joining portion allowing the body portion and the connection portion to be joined to each other by a thermosetting adhesive and a fastener. A long hole portion is disposed in the reinforcement and is formed in either the connection portion or the body portion. The fastener is inserted into the long hole 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.

A vehicle door structure includes an outer door panel made of resin, etc. The outer door panel has an attenuated portion. The attenuated portion is provided along a boundary line that divides the outer door panel into at least a first region that includes the outer door handle and other regions.

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 vehicle includes a door and an impact absorbing structure. The door has an interior panel. The impact absorbing structure is secured to an inner surface of the interior panel. The impact absorbing structure has a centrally located hub and a plurality of spokes extending radially outward from the hub toward a peripheral boundary of the interior panel.

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.

A method for manufacturing an inner door panel for a vehicle side door that employs a die casting process. The method includes providing a die cast mold having opposing mold halves that combine to define a die cavity configured to provide the inner door panel. An impact beam is positioned in the mold cavity prior to combining the first mold half and the second mold half, and a molten metal is provided to the mold cavity so that molten metal flows into all areas of the mold cavity and around the impact beam after the first mold half and the second mold half are combined. A solidified molded inner door panel is then removed from the die cast mold that includes an encapsulated impact beam.

A stiffening panel for a motor vehicle door, for example a side door. The stiffening panel is arranged between a structure of the door, which structure can be made of plastic, located on a side of a passenger compartment of the vehicle and configured to absorb majority of external impacts on the door, in particular front and side impacts on the side door, and at least one decorative outer panel which can be made of plastic and mounted on the structure. The stiffening panel can be made from a plastic material and stiffen the decorative outer panel to enable the outer panel to withstand external impacts on the door from the opposite side of the passenger compartment. The stiffening panel includes mounting elements for a window lift system. The stiffening panel is arranged between the decorative outer panel and a window supported by the window lift system mounted on the stiffening panel.

A structure for fixing a delta glass for a vehicle is provided to fix and support a rear end portion of the glass on a door frame from which a C-pillar is omitted. The structure includes a delta outer reinforcing panel that is fixed on an upper portion of a door inner panel at a rear end portion of a door frame. A delta inner reinforcing panel is fixed to be positioned inside the delta outer reinforcing panel. A rear channel is installed between the delta outer reinforcing panel and the delta inner reinforcing panel to allow a rear end portion of the delta glass to be inserted into and supported by the rear channel. Additionally, a delta garnish is installed to cover the outside of the delta outer reinforcing panel and the delta glass is fixed between the rear channel and a division channel installed on the door frame.