Abstract: Armor components having a ceramic substrate, a thermal sprayed barrier coating covering the substrate material to form a barrier coated substrate, and an outermost encapsulation of metal generally surrounding at least the periphery of the barrier coated substrate are disclosed herein. The encapsulation of metal was cast to the ceramic substrate as molten metal, and the thermal sprayed barrier coating comprises a cermet material, a ceramic material, or a combination thereof. The ceramic substrate is preferably a ceramic tile for ballistic armor. Also disclosed are armor components having a plurality of the ceramic tiles interconnected by the encapsulation of metal, with the metal, which was casted thereto, surrounding at least the periphery of each of the plurality of the armor components.

Abstract: A durable ceramic and metallic coating has been applied to ceramic tiles to protect the tiles while undergoing a molten metal casting operation. The plasma sprayed coating consists of a ceramic top coat layer of aluminum oxide, zirconium oxide, or other oxides with or without a metallic bond coat layer and with or without a functionally gradient coating. This coating protects the underlying ceramic tile, which is composed of boron carbide, silicon carbide, alumina (Al2O3) or other type of hard ceramic, from reacting chemically with the molten metal. The molten metal is cast around the ceramic tiles to create a lattice of ceramic tiles that are used for protection from projectiles and shrapnel.

Abstract: A durable ceramic and metallic coating has been applied to ceramic tiles to protect the tiles while undergoing a molten metal casting operation. The plasma sprayed coating consists of a ceramic top coat layer of aluminum oxide, zirconium oxide, or other oxides with or without a metallic bond coat layer and with or without a functionally gradient coating. This coating protects the underlying ceramic tile, which is composed of boron carbide, silicon carbide, alumina (Al2O3) or other type of hard ceramic, from reacting chemically with the molten metal. The molten metal is cast around the ceramic tiles to create a lattice of ceramic tiles that are used for protection from projectiles and shrapnel.

Abstract: A method is disclosed for applying a vibration-damping surface to an article. The method includes providing a coating material comprising a ceramic, metallic or cermet material and a viscoelastic glass frit and plasma spraying the coating material onto an article. The coating material forms a plurality of ceramic, metallic or cermet microstructures having voids with the viscoelastic glass frit distributed to interact with the voids to provide vibration damping. Also disclosed are plasma spray coatings for damping vibrations that includes a ceramic-glass frit composite coating capable of reducing resonant vibrations in a substrate at temperatures between 700° F. to 1500° F. and said plasma spray coating as a coating on a substrate.

Abstract: A method is disclosed for applying a vibration-damping surface to an article. The method includes providing a coating material comprising a ceramic, metallic or cermet material and a viscoelastic glass frit and plasma spraying the coating material onto an article. The coating material forms a plurality of ceramic, metallic or cermet microstructures having voids with the viscoelastic glass frit distributed to interact with the voids to provide vibration damping. Also disclosed are plasma spray coatings for damping vibrations that includes a ceramic-glass frit composite coating capable of reducing resonant vibrations in a substrate at temperatures between 700° F. to 1500° F. and said plasma spray coating as a coating on a substrate.

Abstract: A corrosion-resistant protective coating for an apparatus and method of processing a substrate in a chamber containing a plasma of a processing gas. The protective coating or sealant is used to line or coat inside surfaces of a reactor chamber that are exposed to corrosive processing gas that forms the plasma. The protective coating comprises at least one polymer resulting from a monomeric anaerobic chemical mixture having been cured in a vacuum in the absence of oxygen. The protective coating includes a major proportion of at least one methacrylate compound and a minor proportion of an activator compound which initiates the curing process of the monomeric anaerobic mixture in the absence of oxygen or air.

Abstract: A corrosion-resistant protective coating for an apparatus and method of processing a substrate in a chamber containing a plasma of a processing gas. The protective coating or sealant is used to line or coat inside surfaces of a reactor chamber that are exposed to corrosive processing gas that forms the plasma. The protective coating comprises at least one polymer resulting from a monomeric anaerobic chemical mixture having been cured in a vacuum in the absence of oxygen. The protective coating includes a major proportion of at least one methacrylate compound and a minor proportion of an activator compound which initiates the curing process of the monomeric anaerobic mixture in the absence of oxygen or air.

Abstract: A coated waveguide holder-humidifier to supply moisture in the case of moisture-sensitive reactions in order that quantitative results might be obtained with a gradient light analytical detector which will quantitatively measure atmospheric contaminants by comparing changes in light transmission through the coated waveguides before and after exposure. The coated waveguide holder-humidifier comprises a container, a porous material capable of absorbing water and desorbing water vapor mounted within the container, means to hold one or more waveguides within the container, and one or more openings in the container to allow fluid (liquid or gas) sample to contact a waveguide.

Abstract: This invention is a coated waveguide holder-humdifier which is used to supply moisture in the case of moisture sensitive reactions in order that quantitative results might be obtained with a gradient light analytical detector which will quantitatively measure atmospheric contaminants by comparing changes in light transmission through the coated waveguides before and after exposure. The coated waveguide holder-humidifier comprises a container, a porous material capable of absorbing water and desorbing water vapor mounted within the container, means to hold one or more waveguides within the container, and one or more openings in the container to allow fluid (liquid or gas) sample to contact a waveguide.

Abstract: Polycrystalline silicon films useful in preparing solar cells primarily for terrestrial application are prepared by a plasma spraying process. A doped silicon powder is injected into a high temperature ionized gas (plasma) to become molten and to be sprayed onto a low-cost substrate. Upon cooling, a dense polycrystalline silicon film is obtained. A p-n junction is formed on the sprayed film by spray deposition, diffusion or ion implantation. A sprayed junction is produced by plasma spraying a thin layer of silicon of opposite polarity or type over the initially deposited doped film. In forming a diffused junction, dopant is applied over the surface of the initial plasma-sprayed film usually from the vapor phase and heat is used to cause the dopant to diffuse into the film to form a shallow layer of opposite polarity to that in the original film. A junction is also formed by implanting dopant ions in the surface of the originally deposited film by the use of electrical fields.