A wire netting, in particular a safety net, includes a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, and which includes at least one first leg, at least one second leg and at least one bending region connecting the first leg and the second leg to one another. In a longitudinal view in parallel to a longitudinal direction of the helix, the bending region includes at least one bending zone with a bending curvature and at least one first transition zone which is connected to the first leg and has a first transition curvature that differs from the bending curvature.

A siding panel assembly includes a thermoplastic siding panel and a foam backing panel that is adhered to the thermoplastic siding panel. The siding panel assembly has a coefficient or linear thermal expansion of no more than about 2.0410.sup.5 (in/in/deg F.) and a planar (e.g., flat) outward facing surface.

A kit that includes multiple rectilinear elongate polygonal elements having five unique shapes, four of which are concave polygonal elements. In some examples, when arranged with respect to one another, the elements of the kit form a girih strapwork pattern. In one aspect, respective elements in a kit may include bezels or boarders along longer sides to enhance an over/under weaving effect of the girih strapwork pattern. In other aspects, one or more elements may be formed as a tray, and some of the trays may include various components or materials disposed in the tray (e.g., architectural surface materials, biological systems, various electronic components) to provide for a variety of creative designs and structural/sculptural installations for built environments. In some implementations, one or more such trays may have beveled rims so as to appear light and thin when viewed.

A kit that includes multiple rectilinear elongate polygonal elements having five unique shapes, four of which are concave polygonal elements. In some examples, when arranged with respect to one another, the elements of the kit form a girih strapwork pattern. In one aspect, respective elements in a kit may include bezels or boarders along longer sides to enhance an over/under weaving effect of the girih strapwork pattern. In other aspects, one or more elements may be formed as a tray, and some of the trays may include various components or materials disposed in the tray (e.g., architectural surface materials, biological systems, various electronic components) to provide for a variety of creative designs and structural/sculptural installations for built environments. In some implementations, one or more such trays may have beveled rims so as to appear light and thin when viewed.

The subject matter of the present invention is a method for producing coated, and in particular painted, building boards (1), preferably for the interior finishing of buildings. First, the respective building board (1) is provided on its longitudinal edges (2) and/or transverse edges with a bevel (4). Then, the respective building board (1) is transferred to a rubber-like transporting belt (7) in such a way that the edges (2) respectively provided with the bevels (4) are arranged transversely in relation to the conveying direction (F) of the transporting belt (7) and the bevels (4) are arranged adjacent to a visible side (6) of the building board (1), facing away from the transporting belt (7). Finally, a coating material, and in particular paint (13), is applied to the visible side (6) of the building board (1) and respective bevel areas (5) of the bevels (4) in one operation with the aid of at least one roller (11) arranged above the transporting belt (7) and rotating substantially transversely in relation to the conveying direction (F).

The subject matter of the present invention is a method for producing coated, and in particular painted, building boards (1), preferably for the interior finishing of buildings. First, the respective building board (1) is provided on its longitudinal edges (2) and/or transverse edges with a bevel (4). Then, the respective building board (1) is transferred to a rubber-like transporting belt (7) in such a way that the edges (2) respectively provided with the bevels (4) are arranged transversely in relation to the conveying direction (F) of the transporting belt (7) and the bevels (4) are arranged adjacent to a visible side (6) of the building board (1), facing away from the transporting belt (7). Finally, a coating material, and in particular paint (13), is applied to the visible side (6) of the building board (1) and respective bevel areas (5) of the bevels (4) in one operation with the aid of at least one roller (11) arranged above the transporting belt (7) and rotating substantially transversely in relation to the conveying direction (F).

A wire netting, in particular a safety net, has a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, made of a high-tensile steel, and which includes a plurality of legs, which has a plurality of bending regions respectively connecting two legs, and which has a transverse extension along a frontal direction, perpendicularly to a main extension plane of the helix, wherein, in a press test between parallel plates, including a pressing by moving the plates along a press path in parallel to the frontal direction, a test piece of the helix, taken from the helix and including at least five legs and at least four bending regions, shows a spring characteristic curve which has in a press path force diagram, starting from a start of the press path, a first partial characteristic curve extending at least approximately linearly and having a first gradient.

A lattice structure, in particular a steel lattice structure, includes at least one longitudinal element and includes at least one edge element which runs perpendicularly or obliquely with respect to the longitudinal element, is embodied as a single wire, rod, wire strand, tube or profile and forms in particular at least a portion of a lattice edge, wherein the longitudinal element is wound multiple times around the edge element for its fastening to the edge element in a fastening region of the edge element.

A wire netting, in particular a safety net, has a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, made of a high-tensile steel, and which includes a plurality of legs, which has a plurality of bending regions respectively connecting two legs, and which has a transverse extension along a frontal direction, perpendicularly to a main extension plane of the helix, wherein, in a press test between parallel plates, including a pressing by moving the plates along a press path in parallel to the frontal direction, a test piece of the helix, taken from the helix and including at least five legs and at least four bending regions, shows a spring characteristic curve which has in a press path force diagram, starting from a start of the press path, a first partial characteristic curve extending at least approximately linearly and having a first gradient.

A decorative sheet (1) includes: a base material (2); and a surface layer (3) located on the base material (2). The surface layer (3) is composed of a continuous layer (4) and a dispersion (5), the continuous layer (4) being composed of an ultraviolet-cured layer (6) located on a surface (2a) of the base material (2) and an excimer light-cured layer (7) located on a surface (6a) of the ultraviolet-cured layer (6), and the dispersion (5) being dispersed in the continuous layer (4) and composed of either or both of organic particles and inorganic particles. The standard deviation ? [?m] of the surface roughness Sa of the opposite surface (3a) of the surface layer (3) from the base material (2) divided by the thickness T [?m] of the continuous layer (4) is 7% or less.