Disclosed is a vertical profile for an automated sliding door. The profile is formed by front and rear walls connected by nose and tail walls. The nose and tail walls are thicker than the front and rear walls to provide enhanced resistance to deflection in the through-door direction. The walls are formed as an aluminum extrusion. The arrangement and thickness of the walls provides strength sufficient to withstand high wind loads without the installation of reinforcing members. Fillets may be provided where the walls are joined to lessen the tendency for the nose and tail walls deflect, further strengthen the profile.

A structural beam and deck assembly containing portions of beam members interconnected by a deck assembly. Beam members have horizontal top and bottom flange elements interconnected by one or more vertical web member. The top flange of the beam members is serrated such that a series of serrations protrude horizontally in at least one direction from a top of the one or more vertical web member or are cut-out from the flange of a rolled shape. Adjacent beam and deck assemblies are installed such that attachment of one portion of a beam member to another results in the completed cross section of the beam member. In one embodiment, the serrated top flange and at least a portion of the web member are intended to be encased by a horizontal concrete slab. The slab material is capable of encasing all exposed surfaces of and curing around each serration to transfer horizontal shear forces between the serrated top flange and the slab material such that the beam members and slab behave compositely.

A structural beam and deck assembly containing portions of beam members interconnected by a deck assembly. Beam members have horizontal top and bottom flange elements interconnected by one or more vertical web member. The top flange of the beam members is serrated such that a series of serrations protrude horizontally in at least one direction from a top of the one or more vertical web member or are cut-out from the flange of a rolled shape. Adjacent beam and deck assemblies are installed such that attachment of one portion of a beam member to another results in the completed cross section of the beam member. In one embodiment, the serrated top flange and at least a portion of the web member are intended to be encased by a horizontal concrete slab. The slab material is capable of encasing all exposed surfaces of and curing around each serration to transfer horizontal shear forces between the serrated top flange and the slab material such that the beam members and slab behave compositely.

A C-beam constructed to satisfy RMI and MHI standards for supporting two 2500 lb pallets over a 96 inch span and exhibit acceptable deflection, within industry safety specifications, that previously had only been satisfied by 4 inch C-beams of over 4 lb/ft, by optimizing the web thickness and the upper and lower flange dimensions. The beam is constructed, adapted, configured and dimensioned, such that it can weigh less than about 3.7 lb/ft, even less than about 3.55 lb/ft, and when supported at each end, will support an evenly distributed load of over 2400 lb, even 2500 lb, with a deflection of less than about 1/180 of its length.

A C-beam constructed to satisfy RMI and MHI standards for supporting two 2500 lb pallets over a 96 inch span and exhibit acceptable deflection, within industry safety specifications, that previously had only been satisfied by 4 inch C-beams of over 4 lb/ft, by optimizing the web thickness and the upper and lower flange dimensions. The beam is constructed, adapted, configured and dimensioned, such that it can weigh less than about 3.7 lb/ft, even less than about 3.55 lb/ft, and when supported at each end, will support an evenly distributed load of over 2400 lb, even 2500 lb, with a deflection of less than about 1/180 of its length.

An end bracket for a wall system includes a body member having attachment structure to join a horizontal strut to a vertical strut. The end bracket further includes attachment structure in which the horizontal strut is slidably attached for moving and positioning the horizontal strut relative to the vertical strut in forming the wall system.

An extruded profile defining a normal section surface, a horizontal loading direction along the normal section surface and a vertical loading direction along the normal section surface perpendicular to the horizontal loading direction The profile includes a core arranged in a central position at the intersection of the directions, a plurality of arms each including a radial segment radially connected to the core and a tangential segment perpendicularly connected to the radial segment The radial segments of the adjacent arms are perpendicular to each other and each oriented 45° to the horizontal load direction and/or the vertical load direction, and the tangential segments of the adjacent arms are configured to simultaneously support the same load along the horizontal load direction and/or the vertical load direction.

An extruded profile defining a normal section surface, a horizontal loading direction along the normal section surface and a vertical loading direction along the normal section surface perpendicular to the horizontal loading direction The profile includes a core arranged in a central position at the intersection of the directions, a plurality of arms each including a radial segment radially connected to the core and a tangential segment perpendicularly connected to the radial segment The radial segments of the adjacent arms are perpendicular to each other and each oriented 45° to the horizontal load direction and/or the vertical load direction, and the tangential segments of the adjacent arms are configured to simultaneously support the same load along the horizontal load direction and/or the vertical load direction.

A composite stud wall panel assembly, which can be used alone as a blast panel or as a module for wall or roof structures, comprises a frame including a plurality of spaced apart metal studs and metal crossbars interconnecting the studs; and a cementitious aggregate panel, one side of the metal studs being embedded in and permanently connected to the panel along the length of the studs.