A method to produce a wear resistant foil, including providing a first foil including a first thermoplastic material, applying wear resistant particles and a second thermoplastic material form on the first foil, and adhering the first foil to the second thermoplastic binder and the wear resistant particles to form a wear resistant foil.

The present invention provides a composite board and the method for producing it, wherein the composite board includes a base material layer constituting the core part of the composite board; a wear layer covering and fixed on the base material layer; a substrate layer which is fixed on the other side of the base material layer opposite to the wear layer; and the first binding layer which is bound between the base material layer and the wear layer, wherein the base material layer further includes fixings on its both sides, and when at least two composite boards are connected together, the fixings can be coupled with each other to relatively fix the composite boards. The aforementioned method and techniques can enable composite boards to be as rigid and wear-resistant as a tile and moreover, can reduce the time and labor costs required for the installation of the tiles by applying the base material layer in the installation of composite boards.

A floor, wall, or ceiling panel has a base made of a wood material and an upper veneer. The base and the veneer are hot-pressed together while incorporating a resin layer. During the pressing process, pores, cracks, and/or gaps in the veneer are filled with resin. In particular, the pressing process is carried out such that the veneer is saturated with resin, and the resin can be seen on the surface of the veneer after the pressing process The adhesion of the veneer to the base and the smoothing of the veneer are thus carried out in one operation.

A floorboard, includes a carrier plate and a veneer arranged on a topside of the carrier plate, wherein the carrier plate and the veneer are connected with each other via a resin, wherein an edge strip made of the resin is provided on at least two side margins of the veneer, and wherein a surface of the edge strip extends in a same plane as a surface of the veneer.

Environmentally responsible insulating construction blocks and structures constructed primarily of recycled materials are disclosed. The environmentally friendly construction blocks and structures comprise shredded rubber tire pieces coated with silica fume, slag cement and cement, which are then mixed with water and formed in a mold. A layer of grout or a fireproof material may be disposed on one side of the environmentally responsible insulating construction block. The environmentally responsible insulating construction blocks provide high insulation as well as strength for applications such as green roofing, wall construction and green roofing decks. Environmentally friendly structures can be built by pouring the coated shredded rubber tire pieces into molds to form walls, and then to pour a layer of the coated shredded rubber tire pieces as a roof deck, thereby creating a self-supporting structure in a monolithic pour.

An artificial graphite flake manufacturing method mainly using PI (Polyimide) film as a material comprising steps of perforating holes and stacking and compacting various graphite auxiliary materials so as to stabilize the quality of heating and sintering, ensure product flatness, and further proceed step-by-step regulation during the heating process, making the carbonization and graphitization reaction more complete, and indeed improving the quality and yield of manufacturing.

An engineered flooring product suitable for indoor or outdoor flooring applications, and a method of manufacturing thereof are provided. The engineered flooring product comprises a core layer, the core layer comprising: (i) a hydrate compound comprising magnesium hydroxide and magnesium chloride; (ii) one or more hydrate compounds each comprising magnesium hydroxide and magnesium sulfate; and (iii) one or more stabilizing agents. The hydrate compounds are derived at least in part from magnesium oxide. The core layer has a composition that is free of PVC and other plastic-based materials and is selected to provide one or more desired physical properties such as, but not limited to, a desired degree of water resistance, durability, and thermal expansion and contraction. The core layer preferably has a composition that provides a thermal expansion coefficient equivalent to or comparable to concrete.

An energy regulating system and thermally regulated article for a habitable space or vehicle interior space are provided which include a thermally conductive member, such as one or more sheets of flexible graphite member, in thermal communication with a thermal energy source such as a heat source or cold source. The thermally conductive -member having an exterior surface adapted to be exposed to an occupant of the vehicle or building. A controller is in operable communication with a power source connected in the heat source or cold source for regulating the temperature perceived by the occupant by varying the power supplied to the heat source or cold source.

Described is a method of making a densified fiber batt that includes the steps of: a) providing a fiber batt comprising a first plurality of fibers having a first melting point and a second plurality of fibers having a second melting point different from the first melting point; b) subjecting the fiber batt to heat, thereby producing a heated fiber batt; and c) after step b) subjecting the heated fiber batt to pressure in a static press, thereby forming a densified fiber batt having a first surface and an opposed second surface, wherein the densified fiber batt comprises at least 30% by weight of the first plurality of fibers being a plurality of multi-component fibers. Also disclosed is a layered composite article comprising such a fiber batt.

A method to produce a wear resistant foil, including providing a first foil including a first thermoplastic material, applying wear resistant particles on the first foil, applying a second foil including a second thermoplastic material on the first foil, and adhering the first foil and the second foil to each other to form a wear resistant foil.