Abstract: A structural connection arrangement and method for connecting at least two sash, stile, mullion, or frame members of window and/or door frame assemblies that are oriented in crossing orientations when connected to one another. The connection arrangement includes at least two elongate members that each extend along a respective longitudinal axis. A pair of openings are formed in one of the elongate members and oriented to face in a crossing direction relative to the longitudinal axis of the respective member. A pair of connection members is secured to the other of the elongate members of the frame assembly and extends beyond the elongate member so that each connection member cooperates with one of the pair of openings and overlaps an interface between the two elongate members.

Abstract: Described herein are systems and methods for providing product information. By way of example, embodiments include computer implemented technologies for delivering information related to building and construction products. Embodiments of the invention have been particularly developed for providing users with access to information including, but not limited to, the likes of fire/acoustic rating information, environmental rating information, and warranty information. Whilst some embodiments will be described herein with particular reference to that application, it will be appreciated that the invention is not limited to such a field of use, and is applicable in broader contexts.

Abstract: In one form of building structure, trim installations are applied around window or door frame openings and at internal or external corners of a building. The trim serves both an aesthetic purpose in adding a decorative feature to building envelopes and also adds an additional weatherproofing purpose in allowing for more complete weatherproofing of building envelope corners and openings. The present invention relates to a concealed fastening building finishing element system that enables concealed fastening of finishing elements such as trim components, fascia boards, frieze boards, belly band boards, and the like to an underlying structure and to the fixings used in these systems. The invention is particularly useful with trim elements around window and door frame openings and at building corners.

Abstract: A structural frame member, such as for constructing a window frame, includes a body portion having a first section defining a number of axially extending passages and a second section defining a key passage area. A cap portion is engaged with the key passage area to define an enclosed key passage. The key passage area may be defined by a pair of protrusions that extend from a wall on the body portion, and the cap portion is engaged with the pair of protrusions. The cap portion and the protrusions may include snap-type engagement structure that secures the cap portion to the pair of protrusions. The enclosed key passage may extend across a majority of the depth of the body portion. A frame assembly formed of at least a pair of structural frame members, and a method of assembling a frame member, are also disclosed.

Abstract: A paint composition and formulation for building materials, such as materials that are generally cementitious, gypsum, or of another inorganic building material, including those containing cellulose, glass, steel or polymeric fibers. The paint formulation provides improved weatherability, durability, light stability, freeze-thaw resistance and water resistivity.

Abstract: An engineered composite building material, such as fiber cement, having one or more engineered sub-surface regions designed to provide the building material with improved moisture ingress resistance, paint adhesion, and other mechanical properties is provided. The sub-surface region has a cement-polymer matrix formed by introducing an impregnating agent into the pores of the substrate. The composite building material may be formed by applying impregnating agents to the subsurface regions of the substrate to form chemical and/or mechanical bonds with the matrix of the building material, the reinforcement fibers, and/or the surface coatings applied to the material. The thickness of the sub-surface regions may be controlled by varying the viscosity and porosity of the building material substrate. The cement-polymer building material has enhanced durability, weather resistance, strength, and stiffness.

Abstract: A rain-screen apparatus including a substantially rigid air barrier (10) adapted for attachment to a building structure, a rain-screen panel (20) adapted for attachment over the air barrier, a spacing member adapted to provide a clearance space (14) between the air barrier and the rain-screen panel and sealing means adapted to provide substantial pressure equalization between within the clearance space.

Abstract: Described herein is a cementitious article and a method of making using a water-based manufacturing system that incorporates a closed-loop or partially closed loop water recycling system and an alkali removal process. The system, as such is environmentally friendly, saves resources, such as water and other raw materials, and reduces waste disposal. The system further provides for a cementitious article having a low alkali content. Articles prepared by one or more processes described herein have characteristics that include a low apparent density, high strength and high freeze-thaw performance as compared with an article of the same general formulation but made from a comparative manufacturing system that does not include an alkali removal process. Articles described herein are suitable for use as building products, such as siding, the underlayment panel, board, trim, fascia, roofing, decking, and fence.

Abstract: A wall cladding and wall cladding system each comprising a plurality of panels, wherein opposing ends of each panel are substantially aligned with corresponding opposing ends of adjacent panels to form respective edges of an array of panels. Each panel includes at least one first recess in its first major face adjacent a first major edge configured in use to resemble a recessed mortar joint.

Abstract: A system for attaching finishing elements to building structures without conventional structural sheathing is provided. The system includes attaching at least one thin, flat strip of nailable reinforcement member such as a metal strapping directly to the framing of a building structure. The finishing elements are then attached to the reinforcement members via a plurality of fastening tabs. The reinforcement members are in direct contact with the framing and configured to provide structural support and increase wind load resistance of the finishing element attached thereto.

Abstract: A frame assembly that includes at least two frame members that are connected to one another. A corner key cavity is formed at the outer sides of adjacent frame members and is shaped to cooperate with a corner key. The corner key cooperates with the corner key cavity to secure adjacent frame members to one another. The corner key cavity is formed at or near the outer perimeter of the joined frame members, and extends across a majority of the depth of the frame members. The frame assembly may include a number of frame members that, when secured to one another, define a window frame assembly.

Abstract: Low density additives and methods of making said additives for composite materials are provided. The low density additives have at least a partial or complete water repellant property that reduces moisture migration, absorption, and retention within a composite material in which it is incorporated into. Active sites are engineered onto the surface of the low density additives to enhance bonding of the additives within a composite matrix. Reduced water movement and enhanced bonding lead to an increased strength and durability performance for a composite material comprising such additives. Composite materials incorporating one or more engineered low density additives as also provided, such composite materials having enhanced strength and durability. Such composite materials may be made from a Hatschek process. The composite materials may be further used as interior and exterior building products.

Abstract: An engineered composite building material, such as fiber cement, having one or more engineered sub-surface regions designed to provide the building material with improved moisture ingress resistance, paint adhesion, and other mechanical properties is provided. The sub-surface region has a cement-polymer matrix formed by introducing an impregnating agent into the pores of the substrate. The composite building material may be formed by applying impregnating agents to the subsurface regions of the substrate to form chemical and/or mechanical bonds with the matrix of the building material, the reinforcement fibers, and/or the surface coatings applied to the material. The thickness of the sub-surface regions may be controlled by varying the viscosity and porosity of the building material substrate. The cement-polymer building material has enhanced durability, weather resistance, strength, and stiffness.