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.

A system and method for providing a non-corrosive surface. In some embodiments, the system includes a concrete surface, a metal substrate coupled to the concrete surface, and a non-corrosive coating applied to the metal substrate. The non-corrosive coating includes a chemically inert polymer comprising EPDM rubber and an additive.

An apparatus for viewing in a structure having a first participant and at least a second participant having a first VR headset to be worn by the first participant, and a second VR headset to be worn by the second participant. Each participant sees every other participant in the structure as every other participant physically appears in the structure in real time in a simulated world displayed about them by the respective VR headset each participant is wearing. Each participant sees the simulated world from their own correct perspective in the structure. The simulated world includes a near field and a far field. A method for a first participant and at least a second participant viewing in a structure.

The present invention includes an insulating panel for building structures, a printing device for making an insulating panel for building structures, and a method for the manufacturing of an insulating panel for building structures. The insulating panel resulting from the printing device comprises a multi-layered basalt sandwich wall that is made of external layers on either side of a middle layer. The external layers comprise a load-bearing coating made from basalt, and the middle layer comprises a heat insulating material made from basalt (basalt wool or foamed basalt). As a result, a specific sandwich-panel is manufactured from one local raw material (basalt), which possesses high mechanical and heat insulating properties. Such technology can be used for erecting comfortable buildings for colonists for long term use even under severe climatic conditions of solar system planets and satellites where appropriate raw materials exist.

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.

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.

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.

A multi-layered structure with improved stability and insulation is disclosed. Methods for making the multi-layered structure are also disclosed. The structure comprises layers of foam and layers of solid material which are sprayed onto each other via an industrial robot having spray nozzles. The layers of foam are sprayed onto a supporting structure of a building, and the process of spraying is such that each consecutively sprayed layer is initiated after only a short lag in time from the initiation of the previous layer. The structure comprises at least two layers (preferably at least three layers), each layer having different mechanical properties. The layers may further be reinforced with reinforcing fibers and/or fiber fragments. An additional layer of fibrous material may comprise outer and/or inner layers of the structure. The disclosed structure is built faster and has significantly higher load-bearing and insulative capacities than the state of the art.

The present invention includes an insulating panel for building structures, a printing device for making an insulating panel for building structures, and a method for the manufacturing of an insulating panel for building structures. The insulating panel resulting from the printing device comprises a multi-layered basalt sandwich wall that is made of external layers on either side of a middle layer. The external layers comprise a load-bearing coating made from basalt, and the middle layer comprises a heat insulating material made from basalt (basalt wool or foamed basalt). As a result, a specific sandwich-panel is manufactured from one local raw material (basalt), which possesses high mechanical and heat insulating properties. Such technology can be used for erecting comfortable buildings for colonists for long term use even under severe climatic conditions of solar system planets and satellites where appropriate raw materials exist.

An apparatus for viewing in a structure having a first participant and at least a second participant having a first VR headset to be worn by the first participant, and a second VR headset to be worn by the second participant. Each participant sees every other participant in the structure as every other participant physically appears in the structure in real time in a simulated world displayed about them by the respective VR headset each participant is wearing. Each participant sees the simulated world from their own correct perspective in the structure. The simulated world includes a near field and a far field. A method for a first participant and at least a second participant viewing in a structure.