The present invention generally relates to substrates having a decorated surface and a method of producing a substrate having a decorated surface. In particular embodiments, the present invention relates to a roofing, cladding, and/or siding product or a coating or layer of a coating for a roofing, cladding, and/or siding product having a decorated surface and a methods of producing the same. The present invention also relates to roofing, cladding, and/or siding products and assemblies of such products, for installation onto a building surface and systems and methods of manufacture of roofing, cladding, and/or siding products.

A method for generating a shingle roofing coating is described. The method includes mixing 1% by weight to 20% by weight of an elastomeric polymer with an asphalt flux to generate a concentrate. The concentrate is then heated and mixed with an oxidized asphalt feedstock. The mixture of the concentrate and oxidized asphalt is then heated to generate the shingle roofing coating. The shingle roofing coating includes between 10% by weight and 30% by weight of the concentrate and between 0.1% by weight and 6% by weight of the elastomeric polymer.

Some embodiments relate to asphalt shingle waste coatings in roofing shingles of roofing systems. A roofing system comprises a plurality of roofing shingles. The plurality of roofing shingles, when installed on a roof substrate, comprises exposed surfaces and unexposed surfaces. The plurality of roofing shingles comprises asphalt shingle waste coatings on or only on at least one of the unexposed surfaces. The plurality of roofing shingles comprises asphalt coatings on or only on at least one of the exposed surfaces.

Some embodiments of the present disclosure relate to an roofing shingle comprising a low penetration point asphalt reinforced glass mat. In some embodiments, the reinforced glass mat comprises a glass mat and a reinforcement material. In some embodiments, the glass mat comprises a web of glass fibers. In some embodiments, the reinforcement material is embedded into the web of glass fibers of the glass mat. In some embodiments, the reinforced glass mat comprises a sufficient amount of the reinforcement material, so as to result in a nail shank shear resistance of 13 lbs to 17 lbs, according to ASTM 1761 at 140? F. Methods of making the roofing shingle and methods of forming a roofing shingle from the roofing shingle are also disclosed herein.

A method for producing a covering element made from natural fibres, in particular cellulose, impregnated with bitumen, includes a step of coating at least one of two faces of a fibre mat (4) followed by a step of impregnating with bitumen, the coating being carried out with a liquid composition (5) including at least one resin and/or at least one pigment. The liquid composition is a dye composition including at least one pigment and at least one resin, and the method involves adding an additive to the liquid composition (5), the additive having fireproof properties and including at least graphite and a cooling agent. Preferably, the mat (4) is coated with the liquid composition including the fireproof additive using a roller.

The present invention relates to a method for preparing a flexible and tough polymer modified asphalt composition which comprises sparging an oxygen containing gas through a liquid high-vinyl polybutadiene modified asphalt, wherein the liquid high-vinyl polybutadiene modified asphalt contains from about 0.25 weight percent to about 20 weight percent of the liquid high-vinyl polybutadiene, wherein the oxygen containing gas is sparged through the liquid high-vinyl polybutadiene modified asphalt at a temperature within the range of about 400 F. to about 550 F. for a period of time which is sufficient to increase the softening point of the asphalt to a value which is within the range of 185 F. to 250 F. and to attain a penetration value of at least 15 dmm to produce the polymer modified asphalt composition.

The present invention generally relates to substrates having a decorated surface and a method of producing a substrate having a decorated surface. In particular embodiments, the present invention relates to a roofing, cladding, and/or siding product or a coating or layer of a coating for a roofing, cladding, and/or siding product having a decorated surface and a methods of producing the same. The present invention also relates to roofing, cladding, and/or siding products and assemblies of such products, for installation onto a building surface and systems and methods of manufacture of roofing, cladding, and/or siding products.

A solar heat-reflective roofing product includes a base sheet, and solar heat-reflective roofing granules on top of the base sheet. The granules have a base particle with a flake-like geometry covered by a uniform coating layer. The coating layer has a thickness of at least one mil and includes a coating binder and at least one solar heat-reflective pigment. The solar heat-reflective pigment provides a solar heat reflectance of greater than 70 percent to the granules and the roofing product. Roofing products including roofing shingles and roofing membranes are described.

A waterproofing membrane including a reinforcing material coated with a blend formulation, the blend formulation including glass spheres having a particle size between 0.25-0.50 mm and a particle density between 0.5-0.8 g/cm.sup.3.

A fiber mat includes an assembly of fibers including a minority portion including a set of polymer fibers and a majority portion including a set of fibers different than the minority portion, wherein the minority portion is a plane parallel to a plane of the majority portion of the assembly of fibers; and a binder including an organic resin, wherein an air permeability of said fiber mat is not substantially different from an equivalent weight fiber mat containing a homogenous mat structure and wherein the fiber mat provides at least a 5% increase in tear when placed in a bituminous roofing product compared to an equivalent bituminous roofing product made with the equivalent weight fiber mat containing the homogenous mat structure.