An assembly supports external masonry veneer. A bracket mounts to a load bearing wall support structure. A shelf angle has a horizontal leg that defines a shelf for the veneer, and an upstanding leg supported by mounting brackets that secure the assembly to the wall structure. The horizontal shelf is segmented. The back of the shelf angle flexes between the segments to allow the shelf angle to follow the shape of a curve wall. The shelf angle is secured to the mounting brackets with locking clips. The mounting brackets may be channels. They may have lower abutments. The abutments may extend rearwardly. An insulator may be placed between the back and structure. The mounting bracket may have lightening holes. The lightening holes may be in a framework array including alternating diagonal struts. A low thermal conductivity coating may be applied to the bracket.

A coupling system for mounting a tile to an outer surface of a building is disclosed. In one embodiment, the coupling system includes support tracks arranged and configured to couple the tile to the building. The support tracks may include integrally formed clips for coupling with the tiles. The clips may be arranged and configured to couple to a top portion of a lower tile and a bottom portion of an upper tile. Additionally, and/or alternatively, the coupling system may include a gasket coupled to the support tracks. The gasket may include first and second arms. The support tracks may include integrally formed, first and second inwardly extending legs for receiving the first and second arms, respectively, of the gasket. In use, the coupling system facilitates faster and easier manufacturability and assembly as compared to other known systems thus providing a more cost-effective solution, particularly when used with smaller tiles.

A sound insulation tile having a tile body and a sound insulation layer on a back surface of the tile body and used for buildings and a method of manufacturing the same are revealed. The sound insulation layer is made of unfoamed or foamed PU material containing special substances. A method of manufacturing sound insulation tiles includes the steps of preparing a plurality pieces of sound insulation layer whose size matches size of a tile body and then attaching the sound insulation layer to a back surface of the tile body by an adhesive layer. Another method of manufacturing sound insulation tiles includes the steps of coating thick PU material over a back side of a tile body to form an even sound insulation layer integrated with the tile body, and then curing the sound insulation layer for mass production of the sound insulation tile.

Composite panels and methods of use and manufacturing are described herein. The composite panels may comprise a foam composite and one or more layers of a facing material. The foam composite may have a density less than or equal to 20 pcf, and the layer(s) of facing material, e.g., inorganic facing material, may have a thickness of 1/16 inch to 1 inch covering at least the front surface of the foam composite.

A frame for retaining one or more masonry slips is provided. The one or more masonry slips each have at least two slots formed on at least two sides thereof. The frame includes a supporting structure including a back plate, and is configured to house two or more masonry slips, and two or more face rails positioned on the back plate of the supporting structure. Each face rail is configured to house at least one masonry sup, and includes a projection directed away from the back plate of the supporting structure, and a retaining element positioned at the end of the projection so that the retaining element is approximately parallel to the back plate of the supporting structure, and the retaining element is configured to be positioned within one of the two slots formed on the sides of the masonry slip.

The invention relates to a panel for constructing a floor or wall covering. The panel comprises a substantially planar top surface, at least one core layer composed of a composite material which core layer is provided with at least one cavity, and a bottom surface. The panel further comprises at least one pair of opposite edges, said pair of opposite edges preferably comprising complementary coupling parts configured for mutual coupling of adjacent panels.

Systems and apparatuses for cooling flue gases emitted from an industrial facility, such as a coke oven in a coke manufacturing plant. A representative system includes a heat recovery steam generator (HRSG) having a steam generation system that converts liquid feedwater into steam by absorbing heat from the flue gases. The steam generation system includes a plurality of tubes that carry the liquid water feedwater and the steam. Some or all of the tubes include steel and a non-corrosive material cladded to the steel that helps to reduce corrosion caused by the high temperature flue gases and extremely corrosive contaminants within the flue gas that can corrode steel.

The invention relates to a panel, in particular a floor panel or a wall panel configured for forming a floor or wall covering, the panel comprising at least one core layer, the core layer comprising at least one pair of opposite side edges which are provided with complementary coupling parts configured for interconnecting adjacent panels, the core layer comprising an upper core surface and a bottom core surface, and at least one ceramic tile, the ceramic tile comprising an upper surface and a bottom surface and the panel further comprising at least one further layer.

The present disclosure relates to a method and assembly for hanging decorative stone. A method and assembly to hang decorative stone or other similarly situated devices with an integrally formed frame portion is discussed herein. An integrally formed frame portion with at least one first flange, at least one second flange that interface with a prior installed assembly of the same type without interacting with the stone portion.

A facing building member, a method of forming a facing building member and a method of forming a cladding panel. The facing building member is usable with other building members in forming a cladding panel. The building member has a front face and a rear side, the rear side being profiled by cutting with a water jet so as to provide at least one mechanical key on the facing building member.