A foam backed panel comprised of a cladding with polyurethane foam is anchored to a frame by an anchor embedded in the foam and straps attaching the anchor to frame members. The anchored frame enables 100% continuous insulation since it eliminates nails and other fasteners that cause thermal bridges. Anchors also increase a panel's uplift resistance and may be used to attach roof panels to trusses. This all results in a stronger, better insulated structure.

A foam backed panel comprised of a cladding with polyurethane foam is anchored to a frame by an anchor embedded in the foam and straps attaching the anchor to frame members. The anchored frame enables 100% continuous insulation since it eliminates nails and other fasteners that cause thermal bridges. Anchors also increase a panel's uplift resistance and may be used to attach roof panels to trusses. This all results in a stronger, better insulated structure.

The insulation tile comprises a first planar surface, a second planar surface and side surfaces defining the surfaces, and a casting compound layer as well as an insulation material layer, which is manufactured from thermal insulation material, the compression strength of which is at least 10 kPa. The casting compound layer forms the first planar surface of the insulation tile and the insulation material layer forms the second planar surface of the insulation tile. Furthermore, the insulation material layer of the insulation tile comprises grooves in the area of the planar surface which will be against the casting compound layer. The insulation tile according to the invention can be used in floor, roof and wall structures.

Method for designing a corrugated roofing sheet made of natural fibers, impregnated with bitumen including a uniform pattern of mutually parallel alternating corrugations borne by a mid-plane, the corrugations defining rounded crests each separated from the next by a rounded trough, the crests and trough being connected by alternately inclined portions, the transverse offset between two successive crests being equal to the transverse offset between two successive troughs and defining the pitch P of the corrugations, the sheet having a thickness E of material substantially constant over its extent, and a height H being twice the distance between the mid-plane and the exterior surface of a crest or twice the distance between the mid-plane and the exterior surface of a trough, these two distances being identical. The height, thickness and pitch values are determined by Fi<H.sup.3/(8?E?(H+P))<Fs, where Fi=25 mm and Fs=35 mm.

Method for designing a corrugated roofing sheet made of natural fibers, impregnated with bitumen including a uniform pattern of mutually parallel alternating corrugations borne by a mid-plane, the corrugations defining rounded crests each separated from the next by a rounded trough, the crests and trough being connected by alternately inclined portions, the transverse offset between two successive crests being equal to the transverse offset between two successive troughs and defining the pitch P of the corrugations, the sheet having a thickness E of material substantially constant over its extent, and a height H being twice the distance between the mid-plane and the exterior surface of a crest or twice the distance between the mid-plane and the exterior surface of a trough, these two distances being identical. The height, thickness and pitch values are determined by Fi<H.sup.3/(8?E?(H+P))<Fs, where Fi=25 mm and Fs=35 mm.

A roof system includes a roof panel formed of concrete and an architectural surface such as a corrugated surface. A first layer of reinforcing material is disposed along and spaced inwardly from a first surface of the roof panel, and an optional second layer of reinforcing material is disposed along and spaced inwardly from a second surface of the roof panel. The first layer of reinforcing material is spaced from the second layer of reinforcing material. The reinforcing material may be formed of fiber-reinforced polymer mesh, made with carbon fibers or glass fibers. FRP rebar may be used in conjunction with FRP mesh to provide added structural strength. The roof panel may include one or more elongated ribs having a thickness greater than adjacent portions of the roof panel. In other aspects, concrete structures with reinforcing material may be used for either roof panels or wall applications.

A roof system includes a roof panel formed of concrete and an architectural surface such as a corrugated surface. A first layer of reinforcing material is disposed along and spaced inwardly from a first surface of the roof panel, and an optional second layer of reinforcing material is disposed along and spaced inwardly from a second surface of the roof panel. The first layer of reinforcing material is spaced from the second layer of reinforcing material. The reinforcing material may be formed of fiber-reinforced polymer mesh, made with carbon fibers or glass fibers. FRP rebar may be used in conjunction with FRP mesh to provide added structural strength. The roof panel may include one or more elongated ribs having a thickness greater than adjacent portions of the roof panel. In other aspects, concrete structures with reinforcing material may be used for either roof panels or wall applications.

The insulation tile comprises a first planar surface, a second planar surface and side surfaces defining the surfaces, and a casting compound layer as well as an insulation material layer, which is manufactured from thermal insulation material, the compression strength of which is at least 10 kPa. The casting compound layer forms the first planar surface of the insulation tile and the insulation material layer forms the second planar surface of the insulation tile. Furthermore, the insulation material layer of the insulation tile comprises grooves in the area of the planar surface which will be against the casting compound layer. The insulation tile according to the invention can be used in floor, roof and wall structures.

A machine for dusting a shape with particulate matter, the shape being a profiled roof tile including raised patterns extending in the lengthwise direction thereof, and including raised portions laterally separated from hollow portions by sloped portions, the tile having a predetermined width, and being preferably corrugated, the machine including a dusting element forming a homogeneous linear curtain of particulate matter falling across the width of the tile, the tile travelling longitudinally under the linear curtain. Deflectors of the curtain are arranged above the tile to intercept the particulate matter above the areas at the bottom of the sloped portions and redistribute the intercepted particulate matter towards an intermediate level of each corresponding sloped portion in order for the amount of particulate matter on the surface of the plate ultimately to be substantially homogeneous after a portion of intercepted particulate matter has slid towards the bottom of the sloped portion.

A machine for dusting a shape with particulate matter, the shape being a profiled roof tile including raised patterns extending in the lengthwise direction thereof, and including raised portions laterally separated from hollow portions by sloped portions, the tile having a predetermined width, and being preferably corrugated, the machine including a dusting element forming a homogeneous linear curtain of particulate matter falling across the width of the tile, the tile travelling longitudinally under the linear curtain. Deflectors of the curtain are arranged above the tile to intercept the particulate matter above the areas at the bottom of the sloped portions and redistribute the intercepted particulate matter towards an intermediate level of each corresponding sloped portion in order for the amount of particulate matter on the surface of the plate ultimately to be substantially homogeneous after a portion of intercepted particulate matter has slid towards the bottom of the sloped portion.