A roofing material including: a polycarbonate layer which is a polycarbonate panel having a predetermined thickness and in which a convex portion and a concave portion are alternately repeated in order to diffuse light incident on the roofing material, wherein a two-dimensional array of a plurality of bumps for diffusing light incident on the roofing material, is formed on a surface of each convex portion and a surface of each concave portion of the polycarbonate layer.

A roofing material including: a polycarbonate layer which is a polycarbonate panel having a predetermined thickness and in which a convex portion and a concave portion are alternately repeated in order to diffuse light incident on the roofing material, wherein a two-dimensional array of a plurality of bumps for diffusing light incident on the roofing material, is formed on a surface of each convex portion and a surface of each concave portion of the polycarbonate layer.

A hail resistant roofing system and method includes a roofing substrate such as a shingle or tile or membrane having an array of exposed upwardly projecting features. The features may rise to sharp points and may have side surfaces that are angled relative to the plane of the roofing substrate. The features are spaced and arranged so that a large hail stone capable of damaging the roofing substrate will always impact one or more of the exposed features. This can break up the hail stone into smaller benign pieces or can redirect the energy and direction of the hail stone so that the impact is absorbed without damage to the roofing substrate.

A hail resistant roofing system and method includes a roofing substrate such as a shingle or tile or membrane having an array of exposed upwardly projecting features. The features may rise to sharp points and may have side surfaces that are angled relative to the plane of the roofing substrate. The features are spaced and arranged so that a large hail stone capable of damaging the roofing substrate will always impact one or more of the exposed features. This can break up the hail stone into smaller benign pieces or can redirect the energy and direction of the hail stone so that the impact is absorbed without damage to the roofing substrate.

An extruded convex plastic panel (100) for use in a metal roof system (118) including a light transmitting member (101) having top and bottom layers (101A, 101B) and a rib structure (102) disposed between the top and bottom layers (101A, 101B). The extruded convex plastic panel (100) further includes a pair of standing seams (103, 106) provided along two opposite side edges of the light transmitting member (101). A pair of connector assemblies (105, 115) provided as a separate unit, which connects the extruded convex plastic panel (100) to the metal roofing system (118) and allows the light transmitting member (101) to expand and contract freely without the use of any fasting devices for connecting the extruded convex plastic panel (100) to the metal roofing system (118).

A hail resistant roofing system and method includes a roofing substrate such as a shingle or tile or membrane having an array of exposed upwardly projecting features. The features may rise to sharp points and may have side surfaces that are angled relative to the plane of the roofing substrate. The features are spaced and arranged so that a large hail stone capable of damaging the roofing substrate will always impact one or more of the exposed features. This can break up the hail stone into smaller benign pieces or can redirect the energy and direction of the hail stone so that the impact is absorbed without damage to the roofing substrate.

A hail resistant roofing system and method includes a roofing substrate such as a shingle or tile or membrane having an array of exposed upwardly projecting features. The features may rise to sharp points and may have side surfaces that are angled relative to the plane of the roofing substrate. The features are spaced and arranged so that a large hail stone capable of damaging the roofing substrate will always impact one or more of the exposed features. This can break up the hail stone into smaller benign pieces or can redirect the energy and direction of the hail stone so that the impact is absorbed without damage to the roofing substrate.

Roof forming element, a plurality of which may form a roof of a building, comprising base part comprising an elongate roof plate of a polymer, a cover for covering the roof plate, and coupling means for coupling the roof forming element in use to further, neighbouring roof forming element, the base part comprising an elongate reinforcement part comprising a strip comprising polymer and unidirectional fibers, bonded to the base part at the interior side of the base part and extending in the length direction along the length of the base part, the elongate reinforcement part covering at least a part of the width of the base part,the strip of the elongate reinforcement part having a higher Young's modulus than the base part, or at least a part of the base part to which the elongate reinforcement part has been bonded.

Roof forming element, a plurality of which may form a roof of a building, comprising base part comprising an elongate roof plate of a polymer, a cover for covering the roof plate, and coupling means for coupling the roof forming element in use to further, neighbouring roof forming element, the base part comprising an elongate reinforcement part comprising a strip comprising polymer and unidirectional fibers, bonded to the base part at the interior side of the base part and extending in the length direction along the length of the base part, the elongate reinforcement part covering at least a part of the width of the base part,the strip of the elongate reinforcement part having a higher Young's modulus than the base part, or at least a part of the base part to which the elongate reinforcement part has been bonded.

The present disclosure provides an installation structure of a curved tile, including a first curved tile and a second curved tile which each comprises a tile body, wherein both ends of the tile body are respectively a first curved overlapping portion and a second curved overlapping portion, a curved surface of the first curved overlapping portion faces downward, a curved surface of the second curved overlapping portion faces upward, the first curved overlapping portion of the first curved tile overlaps on the second curved overlapping portion of the second curved tile, and a waterproof structure is disposed at a position where the first curved tile overlaps with the second curved tile.