Provided are a glass substrate with a metal or ceramic coating formed, where a base film for enhancing the adhesion between the base surface of the glass substrate and the coating is provided in the region with the coating formed, and a glass part obtained by further forming a coating of a metal or a ceramic on the glass substrate.

A method for forming thin film layer having micro-voids therein. The method proceeds by dispersing micro-particles over the surface of a substrate. The micro particles are made of sublimable material. Then the thin film layer is formed over the surface, so as to cover the particles. The thin film is then etched back so as to expose the particles at least partially. The material of the particles is then sublimed, e.g., by heating the substrate, thereby leaving micro-voids inside the thin film layer. The micro voids can be filled or remain exposed to generate textured surface.

A coating for effecting artificial frost on glass, the coating comprising a silicate, a material selected from the group consisting of ceramic and glass spheres, sodium aluminosilicate, a lithium compound, and, a thickener.

The present disclosure relates to a transparent substrate including a multilayer thin film coating, the multilayer thin film coating includes a first dielectric layer, a second dielectric layer, and a metal layer, the metal layer is interposed between the first dielectric layer and the second dielectric layer in direct contact with each of the first dielectric layer and the second dielectric layer, the first dielectric layer includes silicon nitride represented by a chemical formula of Si.sub.3N.sub.4, the second dielectric layer includes silicon nitride represented by a chemical formula of SiN.sub.x (x<1.33), and the metal layer includes one or more selected from the group consisting of Ag, Au, Cu, Al, Pt, Pd, Ni, Co, Fe, Mn, Cr, Mo, W, V, Ta, Nb, Sn, Pb, Sb, and Bi.

An article includes a substrate and a porous layer disposed over the substrate, the porous layer containing inorganic particles bound by an inorganic binder, in which the inorganic particles contain chain-like particles and particles other than the chain-like particles, and the volume fraction of the chain-like particles is 55% or more and 95% or less based on the inorganic particles.

Provided is a film-covered transparent base plate having an excellent aesthetic appearance even during turn-off of a light source. A film-covered transparent base plate 1 includes a transparent base plate 2 and a light-absorbing film 3 provided on one principal surface 2a of the transparent base plate 2 and the light-absorbing film 3 includes a dielectric phase made of a material having a band gap of not less than 2.0 eV and not more than 2.7 eV and a metallic phase.

A coated substrate comprising a coating layer comprising inorganic oxide and pores, the coating layer demonstrates improved durability properties. The coated substrate may for example be used in solar modules. Further a coating formulation and use of the coating formulation are disclosed

A method including digital printing a heat curable aqueous composition onto a substrate, wherein the composition includes: (a) at least one water soluble synthetic alkali metal silicate; and (b)(i) at least one pigment or (b)(ii) at least one additive selected from aluminum oxide, ceramic microspheres, recycled ground glass, or calcium carbonate; wherein the composition is substantially free of any organic solvent; and heating the composition bearing substrate thereby curing the composition, and wherein the substrate includes a material selected from glass, ceramic, textile, polymeric, metal, wood, or a combination thereof.

A process for manufacturing a laminated glazing that includes at least a first glass sheet and a second glass sheet, includes printing a face of the first glass sheet intended to be oriented toward the second glass sheet with a liquid enamel which is dried at a temperature not exceeding 400° C., then bending the first and second glass sheets together in contact with one another in their relative position of destination in the laminated glazing, by heating at a softening temperature of the glass, wherein the liquid enamel is an aqueous silicate paint including a refractory powder of pigments and a silicate binder powder, in the absence of glass frit, and wherein a weight ratio of pigments to silicates is greater than 1.

A curved glass manufacturing method includes: successively stacking a lower mold, flat glass, and an upper mold, thereby forming a mold assembly; moving the mold assembly to a first chamber and then heating the same; moving the mold assembly from the first chamber to a second chamber and then pressurizing the upper mold so as to move the upper mold downward, thereby molding the flat glass in a curved shape; moving the mold assembly from the second chamber to a third chamber and then slowly cooling the molded glass; and moving the mold assembly from the third chamber to a fourth chamber and then cooling the molded glass. An elastic member is arranged between the lower mold and the upper mold and configured to define a space between the upper mold and the flat glass, and the elastic member is compressed when the upper mold is pressurized.