The invention relates to a method of manufacturing high durability timber product, the method comprising: a) selecting a durable substrate timber; b) selecting a veneer of high-performance timber; and c) gluing the veneer of high-performance timber to the face of the durable substrate 5 timber, wherein the resulting manufactured high durability timber product is suitable for long-term use in exterior applications at a lower cost than that of the same thickness timber product if made of high-performance timber alone.

A coating of structures or elements or parts made of plastic material obtained by molding includes a finish layer; a reinforcement layer coupled to the finish layer, from the opposite side to the exposed face, to form a sandwich; and a heat-sealable film coupled in its solid form to the reinforcing layer, wherein this sandwich is suited to be coupled to a support part in a plastic material obtained by molding, and wherein this coupling occurs during the molding of the support part by way of the heat-sealable film suited to be activated at the molding temperature.

The invention relates to a construction element (10) having a total length (L), a total width (B) and a total height (H) and comprising the following components: a first cover plate (11) and a second cover plate (12), each having a length corresponding to the total length (L), and each having a width corresponding to the total width (B), a layer (13) arranged between the first and the second cover plate (11,12), comprising a plurality of tube segments (14) having a tube length (LR) extending in longitudinal extension direction, wherein the tube segments (14) are arranged in the direction of the total length (L) and/or in the direction of the total width (B) in relation to the tube length (LR), and wherein the tube segments (14) comprise a wood-based material, and wherein the tube segments (14) comprise a wall (140), which is delimited by at least two cut ends (141,142) in the circumferential direction of the respective tube segment (14), wherein the tube length (LR) corresponds to the total length (L) and/or the total width (B).

The invention relates to a construction element (10) having a total length (L), a total width (B) and a total height (H) and comprising the following components: a first cover plate (11) and a second cover plate (12), each having a length corresponding to the total length (L), and each having a width corresponding to the total width (B), a layer (13) arranged between the first and the second cover plate (11,12), comprising a plurality of tube segments (14) having a tube length (LR) extending in longitudinal extension direction, wherein the tube segments (14) are arranged in the direction of the total length (L) and/or in the direction of the total width (B) in relation to the tube length (LR), and wherein the tube segments (14) comprise a wood-based material, and wherein the tube segments (14) comprise a wall (140), which is delimited by at least two cut ends (141,142) in the circumferential direction of the respective tube segment (14), wherein the tube length (LR) corresponds to the total length (L) and/or the total width (B).

A method for manufacturing a folded panel including the following steps: providing a longitudinal recess at the rear side, such that at the front side between remaining panel sections on both sides of the recess a flexible transition section remains, bending the panel sections relative to each other and applying an adhesive in the recess. Before the panel sections are bent relative to each other, a template is inserted into the recess.

The present disclosure generally relates to systems and methods for composites, including short-fiber films and other composites. In certain aspects, composites comprising a plurality of aligned fibers are provided. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. For example, the composite may include substantially aligned carbon fibers embedded within a thermoplastic substrate. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. The liquids may be applied to a substrate, and the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.

A crane mat is disclosed having a plurality of panels of lumber positioned in alternating transverse directions with respect to one another, where the top and bottom panels are oriented parallel to the direction of vehicular traffic. The top and bottom panels may include a plurality of spaced apart grooves extending longitudinally from a first longitudinal end of the crane mat to a second longitudinal end of the crane mat for enhancing traction of a vehicle when traversing across the crane mat by transporting rain or moisture off the mat, or for receiving mud or other debris. The crane mat may include a plurality of edge protectors positioned on respective sides of the crane mat to protect the crane mat from handling damage. In various embodiments, the crane mat may be manufactured using either softwood, hardwood, or any combination of softwood and hardwood.

The invention relates to a decorative panel, in particular a floor panel, ceiling panel or wall panel, and to a method for manufacturing such decorative panel. The panel according to the present invention comprises includes at least one foamed layer comprising including an upper side and a lower side, and at least one decorative solid layer either directly or indirectly, affixed on said upper side of the foamed layer, wherein both the foamed layer and the decorative solid layer are wood based materials. The invention also relates to a floor covering consisting of a plurality of such panels.

A decorative panel including a substrate material and a decorative top layer, wherein the decorative top layer includes at least one timber layer with a wood structure, wherein the timber layer is a compressed timber layer with naturally occurring vessels throughout a thickness of the wood structure, the vessels being collapsed.

A method to produce a panel unit, including providing a core having a first surface and a second surface opposite the first surface, applying a surface layer to the first surface of the core, the surface layer including a wood veneer layer and a first binder layer for adhering the wood veneer layer to the first surface of the core, applying a balancing layer to a second surface of the core, the balancing layer including an unimpregnated paper and a second binder layer for adhering the unimpregnated paper to the second surface of the core, applying pressure to the surface layer, the balancing layer, and the core to form a panel unit. The disclosure also relates to a panel.