System and method of applying cladding to a wall surface comprising applying a cementitious layer to the wall surface, the cementitious layer bonding to the wall surface, and apply a layer of cladding to the cementitious layer, the cladding bonding to the cementitious layer. The wall surface may comprise a panel and, in particular, a prefabricated panel. The cementitious layer may be a structural layer of the prefabricated panel.

A building system including a building panel with insulation, an integrated weather resistant barrier, and sheathing. The insulated building panel increases the energy efficiency of the building system while providing protection against water, air and heat. The insulated building panel is pre-fabricated with the weather resistant barrier for easy installation.

A method of installing a binder-based overlay system may include contacting a layer of geotextile fabric to a surface of a substrate and applying a primer layer to a surface of the geotextile fabric. Two or more binder layers including infill particles may be applied over the primer layer. A resurfacer layer followed by one or more color layers may be applied over the two or more binder layers. The primer layer, one or more binder layers, resurfacer layer, and two or more color layers may cure upon application to form a monolithic layer upon the substrate.

A base paper (6), a picture pattern layer (7) provided on a surface (6a) side of the base paper (6), and foaming agents (8) arranged on a surface (7a) of the picture pattern layer (7) or in the picture pattern layer (7) are provided. In the foaming agents (8), the average particle diameter after foaming is set to 15 μm or more and 250 μm or less and the foaming start temperature is set to 100° C. or more and 220° C. or less.

A three-dimensional (3D) article including both a solid portion and a folding paper portion and method of making same is disclosed. For example, a 3D article includes one or more solid portions and one or more folding paper portions. The solid portions of the 3D article may be, for example, any solid material used in sculpture applications, such as, but not limited to, clay, plaster, stone, wood, plastic, glass, and the like. The folding paper portions of the 3D article may be, for example, glued layers of paper, sliced wood, books, recycled materials, and the like. Further, a method is provided of making stretchable and flexible 3D articles that include one or more solid portions and at least one folding paper portion.

A floor, wall, or ceiling panel and to a method for producing same. The 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.

The invention relates to a floorboard (1, 2) which has a carrier plate (3) having a top-side veneer (4), in particular a wood veneer. The carrier plate (3) and the veneer (4) are connected to each other via a resin (6). There is an edge strip (14, 15) at least on two side edges (12, 13) of the veneer (4). Said edge strip (14, 15) consists of resin (6). Carrier plate (3) and veneer (4) having the resin (6) are hot-compressed to each other. During compressing, pores, cracks, and/or gaps in the veneer (4) are filled with resin (6).

A product (20) for use on a surface or as part of a surface, the product comprising: a first layer (22) which carries an indication; and a second layer (26) which overlies at least a portion of the first layer (22), the second layer (26) comprising a porous polymer; wherein the second layer (26) is opaque when dry such that the indication is masked and transparent when wet such that the indication is revealed.

A method of and system for producing Class-A fire-protected oriented strand board (OSB) sheets. Each Class-A fire-protected OSB sheet has: a core medium layer made of wood pump, binder and/or adhesive materials; a pair of OSB layers bonded to the core medium layer; a clean fire inhibiting chemical (CFIC) coating on the surface of each OSB layer, made from CFIC liquid applied to the surface by dipping the OSB sheet into the CFIC liquid in a dipping tank, allowing shallow surface absorption into the OSB layers and ends of the core medium layer at atmospheric pressure; and a moisture, fire and UV protection coating spray coated over the CFIC coating to provide protection against moisture, fire and UV radiation from Sunlight, which is quickly dried by passing through a drying tunnel on the production line.

Provided is an adhesive comprising a reaction product of (A) an aliphatic polyisocyanate having a molecular weight of from 132 to 700; and (B) a polyaspartate comprising a reaction product of (B1) a polyamine having a molecular weight of at least 240, and (B2) a Michael addition receptor, wherein viscosity @23 C. according to ASTM D1084-16, remains below 150 cps after four hours, and wherein the adhesive develops an acceptable bond strength to a substrate, defined as having a minimum of 150 g/in. measured @23 C. according to ASTM D 1876-01 or substrate tear, in less than five days after the substrate is laminated with the adhesive. The inventive flexible packaging adhesives are free of aromatic amines and may find use in multilayer laminates for a variety of industries, including the food processing, cosmetics, and detergents industries.