It is described herein a roofing insulation structure. The roofing insulation structure may comprise a first exterior surface and a second exterior surface opposite the first exterior surface. The first exterior surface may comprise a channeled profile having a plurality of channels. Each channel of the plurality of channels may have a depth of at least 1 mm, a width of at least 0.15 mm, and a ratio of depth to width in a range of between 1.01:1 and 7:1. It is also described herein a roofing insulation system comprising a plurality of the roofing insulation structures. It is also disclosed herein a method of manufacturing the roofing insulation structures. It is also disclosed herein a method of installing the roofing insulation system.

It is described herein a roofing insulation structure. The roofing insulation structure may comprise a first exterior surface and a second exterior surface opposite the first exterior surface. The first exterior surface may comprise a channeled profile having a plurality of channels. Each channel of the plurality of channels may have a depth of at least 1 mm, a width of at least 0.15 mm, and a ratio of depth to width in a range of between 1.01:1 and 7:1. It is also described herein a roofing insulation system comprising a plurality of the roofing insulation structures. It is also disclosed herein a method of manufacturing the roofing insulation structures. It is also disclosed herein a method of installing the roofing insulation system.

The present disclosure relates generally to roofing structures, for example, suitable for covering houses and other structures. The present disclosure relates more particularly to a roofing structure including a decking layer, a base layer, a cap layer, and a plurality of rails disposed over the cap layer. The base layer includes a plurality of strips that form seams including a first base layer seam. The cap layer also includes a plurality of strips that form seams including a first cap layer seam that is spaced from the first base layer seam. The rails include a first rail that is aligned with the first base layer seam and a second rail that is aligned with the first cap layer seam.

The present disclosure relates generally to roofing structures, for example, suitable for covering houses and other structures. The present disclosure relates more particularly to a roofing structure including a decking layer, a base layer, a cap layer, and a plurality of rails disposed over the cap layer. The base layer includes a plurality of strips that form seams including a first base layer seam. The cap layer also includes a plurality of strips that form seams including a first cap layer seam that is spaced from the first base layer seam. The rails include a first rail that is aligned with the first base layer seam and a second rail that is aligned with the first cap layer seam.

Insulation element for thermal and/or acoustic insulation of a flat roof, comprising a first layer made of mineral wool and a second layer made of at least one fabric, whereby the second layer is fixed to a major surface of the first layer by an adhesive, whereby the first layer is made of at least one lamella having a fiber orientation predominantly perpendicular to major surfaces of the second layer, whereby the first layer contains a cured binder whereby the adhesive is arranged partly in an area between fibers close to the major surface of the first layer directed to the second layer and in an area close to the major surface of the second layer directed to the first layer so that the adhesive connects the first layer and the second layer in such a way that forces directed perpendicular to the second layer can be compensated by the tensile strength of the second layer in combination with the adhesive and/or the deflection of the fibers of the first layer causing a maximum deformation of ≤5% of the thickness of the first and second layer.

Insulation element for thermal and/or acoustic insulation of a flat roof, comprising a first layer made of mineral wool and a second layer made of at least one fabric, whereby the second layer is fixed to a major surface of the first layer by an adhesive, whereby the first layer is made of at least one lamella having a fiber orientation predominantly perpendicular to major surfaces of the second layer, whereby the first layer contains a cured binder whereby the adhesive is arranged partly in an area between fibers close to the major surface of the first layer directed to the second layer and in an area close to the major surface of the second layer directed to the first layer so that the adhesive connects the first layer and the second layer in such a way that forces directed perpendicular to the second layer can be compensated by the tensile strength of the second layer in combination with the adhesive and/or the deflection of the fibers of the first layer causing a maximum deformation of ≤5% of the thickness of the first and second layer.

A liquid applied hail and rain protection roofing material for commercial applications and the process for applying the commercial roofing materials. This is an elastomeric material which is embedded with fiberglass and/or granules of stone-like rubber rock to provide for strength and to resist the hail. An Ultraviolet Ray protection can also be applied. The materials utilized increase the utility as a roofing membrane by making it more elastic and by resulting in greater flexibility at low temperatures and in greater heat resistance at high temperatures. This flexibility prevents softening/flow and deformation from mechanical forces, such as those associated with maintenance personnel walking on the roofing membrane. A roofing membrane may be formed of the material as a laminate of a plurality of types of modified layers at the worksite pre-made as panels then installed at the worksite.

Rigid foam-core construction underlayment is formed to have one broad side covered by a flexible substrate that carries a series of spaced-apart, discrete regions (such as islands or spaced lanes) of resin, each resin region carrying a respective field of male touch fastener elements extending away from the substrate and exposed for engagement, such as by fibers on an inner surface of exterior construction material, such as a roofing membrane.

Rigid foam-core construction underlayment is formed to have one broad side covered by a flexible substrate that carries a series of spaced-apart, discrete regions (such as islands or spaced lanes) of resin, each resin region carrying a respective field of male touch fastener elements extending away from the substrate and exposed for engagement, such as by fibers on an inner surface of exterior construction material, such as a roofing membrane.

A thermoplastic roofing membrane comprising a planar-shaped thermoplastic body, said planar body having opposed first and second external planar surfaces, where said first surface includes an ethylene-based olefinic block copolymer and a fatty acid amide, where the amount of fatty acid amide provides the surface with a coefficient of friction (ASTM D 1894) of less than 0.250.