Embodiments herein relate to fenestrations exhibiting coastal impact performance. In an embodiment, a fenestration unit includes a frame assembly forming a first lower corner and a second lower corner. A first sill corner bracket can fit on a top of a sill and extend from the first lower corner partway along the top of the sill and partway along one side jamb of the frame assembly. A second sill corner bracket can be configured to fit on the top of the sill and extend from the second lower corner partway along the top of the sill and partway along the other side jamb. A bottom sash can include a bottom rail defining a channel to receive at least a portion of the first corner bracket and the second corner bracket therein when the bottom sash is in the closed position. Other embodiments are also included herein.

A construction profile is made of polymeric material and defines an inner cavity. The construction profile has an outer surface comprising unexposed side portions and exposed side portions. A stiffening profile is provided external of the construction profile and at an unexposed side portion thereof. The stiffening profile has a polymer material and a reenforcement material. The stiffening profile has a tensile (flexural) modulus in its length (L) direction of at least 5 Gpa according to EN2561 and the polymer material has a lambda value of maximum 2 W/mK.

A structural panel includes a shell having spaced first and second exterior panels and frame members adjacent edges of the panels, and at least one polymeric sheet disposed between the exterior panels and bonded to an adjacent exterior panel. The polymeric sheet is made of a thermoplastic material and has a plurality of openings through its thickness spaced apart by flat wall portions of the polymeric sheet. Stiffeners are disposed between the polymeric sheets and are secured by polymeric end caps. The end caps are made of a thermoplastic material and have a plurality of openings through their thickness for receiving the stiffeners. A foam insulation material fills substantially all the space between the polymeric sheets, stiffeners, and frame members in the shell interior. At least one blast- or ballistic-resistant core layer may be disposed adjacent the at least one polymeric sheet.

An energy-saving security composite window comprising a peripheral side frame and glass installed on the side frame, in which the side frame is of composite structure. A rectangular high strength metal pipe is located centrally to serve as a main body of the side frame and a cavity of the rectangular high-strength metal pipe is filled with a filling material. A plurality of non-metal profiles are respectively fixed on an outer surface of the rectangular high-strength metal pipe, and an installation groove for installing glass is formed between the rectangular high strength metal pipe and the non-metal profile. An external profile is a metal alloy material, a wooden material, a plastic material, or a glass material fixed on an outer surface of the non-metal profile. The performances of external windows of buildings, such as heat insulation, heat preservation, energy saving, sound insulation, and wind pressure resistance, is improved.

The present disclosure relates to a building aperture window (1), wherein the building aperture window (1) comprises an insulated glass unit (2) arranged in a frame (3). The frame (3) comprises one or more hollow profiles (4) comprising walls (7) of a polymer material, and wherein the one or more hollow profiles (4) comprises one or more cavities (5) with a wood fibre insulation material (6). The wood fibre insulation material (6) may have a thermal conductivity coefficient (?.sub.im) below 0.06 W/(m.Math.K), such as below 0.05 W/(m.Math.K), such as below 0.04 W/(m.Math.K). The present disclosure moreover relates to a method of filling a cavity (5) of one or more building aperture window (1) frame profiles (4) with an insulation material.

A spacer for insulating glass panes has a profile body configured as a closed hollow profile substantially closed in cross section, the profile body having first and second side walls in parallel spaced apart from each other, an inner wall extending between the first and second side walls, and an outer wall extending from the first to the second side wall spaced apart from the inner wall. The outer wall comprises a first wall section aligned substantially parallel to the inner wall, second and third wall sections arranged on both sides of the first wall section, the latter, in cross section to the axial direction of the body, aligned at an obtuse angle to the first wall section and to the respective adjacent side wall, and connect thereon. The spacer includes an integral, reinforcing element, extending from the first side wall over the outer wall to the second side wall.

The present utility model relates to a middle strip of a door frame, which can effectively solve the problem of insufficient strength existed in the middle strip of the door frame of the prior art. A middle strip of a door frame comprises a middle strip body, wherein a positioning hole is disposed in the middle strip main body along the length direction of the middle strip body, and the positioning hole is provided with a support frame in order to enhance the strength of the middle strip body, and the support frame is arranged along the inner wall of the positioning hole. The present utility model has the following advantages: a positioning hole is disposed in the middle strip body along the length direction, and the positioning hole is provided with a support frame, therefore, he strength of the whole middle strip body is effectively improved via the support frame without changing the size and the shape of the original middle strip body, so that the middle strip body will not deform easily during the using process and has a sufficient strength.

Embodiments herein relate to fenestrations and components of the same exhibiting reduced thermal bowing and/or enhanced localized strength. In an embodiment, a fenestration assembly is included with a sash including a bottom rail, a top rail, a first side stile, and a second side stile, along with an insulating glazing unit, wherein the insulating glazing unit is disposed between the top rail and the bottom rail and between the first side stile and the second side stile. At least one of the rails or stiles includes a first lineal extrusion formed with a first composition including at least 5 wt. % fibers and a first polymer resin. At least one of the rails or stiles includes a second lineal extrusion formed with a second composition including a second polymer resin. Other embodiments are also included herein.

A structural panel includes a shell having spaced first and second exterior panels and frame members adjacent edges of the panels, and at least one polymeric sheet disposed between the exterior panels and bonded to an adjacent exterior panel. The polymeric sheet is made of a thermoplastic material and has a plurality of openings through its thickness spaced apart by flat wall portions of the polymeric sheet. Stiffeners are disposed between the polymeric sheets and are secured by polymeric end caps. The end caps are made of a thermoplastic material and have a plurality of openings through their thickness for receiving the stiffeners. A foam insulation material fills substantially all the space between the polymeric sheets, stiffeners, and frame members in the shell interior. At least one blast- or ballistic-resistant core layer may be disposed adjacent the at least one polymeric sheet.

The present invention relates to a frame profile of an outer frame and/or leaf frame of a window or of a door, with a core profile of plastic, wherein a casing shell is arranged on at least one of the oppositely situated outer walls of the core profile, wherein at least one of the outer walls has at least one fastening groove which extends in the longitudinal direction of the core profile, wherein the casing shell is fastened to and/or in the fastening groove and covers the fastening groove. The present invention also relates to a method for producing a frame profile.