This invention is an additively manufactured wall panel using computer aided design (CAD) and computer aided manufacturing (CAM) to design and manufacture multi-colored and multi-layered wall panels. This results in a variety of highly attractive, multi-colored wall panel faces ranging from brick, colored grout lines and multi-colored stones to multi-colored geometric designs. The design and manufacturing process greatly reduces the amount of precast cementitious materials by efficiently using higher quality materials. This reduces cost and weight while simultaneously producing a much more comprehensive, multi-functional wall panel complete with an interior frame, exterior insulation and an air, vapor and moisture barriers.

Disclosed herein are composite building materials having at least one textured surface. The textured surface includes at least a plurality of particles. The textured surface closely mimics conventional building materials. The building materials can contain an image printed using ink jet printing methods with inks optimized for enhanced color stability.

Disclosed herein are composite building materials having at least one textured surface. The textured surface includes at least a plurality of particles. The textured surface closely mimics conventional building materials. The building materials can contain an image printed using ink jet printing methods with inks optimized for enhanced color stability.

A coated building article comprising a fiber cement cladding element may be coated with a system designed to achieve a desired appearance. The coating system may comprise a first coating layer and a second coating layer wherein the second coating layer comprises at least one layer of a low gloss coating composition which has a light reflectance of 5% or less when light is shone onto the surface of the coated article at an angle of 60? or 85? to the surface is positioned on at least a portion of the front face of the fiber cement cladding element. Also provided is a method of coating the building article with a low gloss coating composition.

A manufactured stone panel formed of a cementitious manufactured stone panel having a rear, mounting face, a front, decorative face, an upper surface having a raised section and a recess, and a lower surface a raised section and a recess, such that the upper surface and lower surface of adjacent stone panels overlap to form a joint therebetween, at least one bracket extending from the cementitious stone body; a leftward extension on the stone body; and a rightward extension on the stone body, such that the leftward extension and rightward extension of adjacent stone panels form a joint therebetween.

A decorative panel comprising a plate-shaped carrier made of a wood plastic composite (WPC) material, wherein the plate-shaped carrier comprises a profile and/or a cut edge in at least one edge region, and wherein the profile and/or the cut edge has a substantially sealed surface. A method for producing such panel including a step of subjecting a surface of a profile and/or cut edge to a thermal treatment to at least partially melt the WPC material in the region of the profile and seal the surface.

The present invention relates to methods of manufacturing moulded products, for example building panels, and in particular, but not exclusively, to manufacturing a panel comprising natural stone or rock set into a polymeric layer. The method of manufacturing a moulded product as described herein comprises at least one article being set into a polymeric layer, followed by placing the at least one article and particulate ferrous material in a container so that at least a portion of the or each article is embedded in the particulate ferrous material, introducing a polymeric material into the container to form the moulded product, and removing the moulded product from the container.

A decorative panel comprising a plate-shaped carrier made of a wood plastic composite (WPC) material, wherein the plate-shaped carrier comprises a profile and/or a cut edge in at least one edge region, and wherein the profile and/or the cut edge has a substantially sealed surface. A method for producing such panel including a step of subjecting a surface of a profile and/or cut edge to a thermal treatment to at least partially melt the WPC material in the region of the profile and seal the surface.

An architectural finish element operable to be placed adjacent similar architectural finish elements to form a finished surface on an architectural structure includes a body formed of a rock-based composite material comprising a low density solid particle additive, a plurality of unitary real stone veneer elements bonded to the body in courses extending in a first direction and in a random non-repetitive pattern, the real stone veneer elements having respective face surfaces generally lying in a plane to form an overall face surface of the architectural finish element. The low density solid particle additive is provided in an amount suitable to cause the architectural finish element to have a density of between about 10 to 15 pounds per square foot. The architectural finishing element may be mounted by mounting a portion of a body of at least one dual architectural finish element support to a surface of an architectural structure.

According to the present disclosure, methods and techniques for generating preferred concrete block products are provided. The methods and techniques involve providing addition of color to selected section within the blocks, as described herein, to generate enhancement effects. Typical applications involve spray applications for color pigment to visually distinct sections of the block on one or more decorative surfaces.