A vehicle frame assembly is provided. The vehicle frame assembly includes an outer cover panel formed from a thin, thermally strengthened glass material. The thermally strengthened glass material has high levels of surface compressive stress providing sufficient strength and durability for a vehicle frame cover application. The thermally strengthened glass is also thin (e.g., less than 2 mm) providing a lightweight frame material that is suitable for cold-bending to a curvature needed for the vehicle body shape and/or to match the curvature of the vehicle frame.

The present invention relates to a glass-ceramic article comprising at least one substrate, such as a plate, made of glass-ceramic, said substrate being coated in at least one area with at least one enamel coating such that:

1) said enamel has a gloss at 60 of less than 40,

2) the coverage rate of said enamel in said area coated with said coating is 40 to 80%,

3) said enamel preferably: 3a) is free of pigments in the form of mica or aluminum oxide or silica particles coated with metal oxides or combinations of metal oxides, and 3b) has a roughness Ra greater than or equal to 0.4 m and/or a luminosity L* greater than 50.

The present invention relates to a glass-ceramic article comprising at least one substrate, such as a plate, made of glass-ceramic, said substrate being coated in at least one area with at least one enamel coating such that:

1) said enamel has a gloss at 60 of less than 40,

2) the coverage rate of said enamel in said area coated with said coating is 40 to 80%,

3) said enamel preferably: 3a) is free of pigments in the form of mica or aluminum oxide or silica particles coated with metal oxides or combinations of metal oxides, and 3b) has a roughness Ra greater than or equal to 0.4 m and/or a luminosity L* greater than 50.

The present invention relates to a glass ceramic for veneering a dental frame structure, wherein said glass ceramic is characterized by a high content of B.sub.2O.sub.3, to a process for the preparation thereof, and to the use thereof in the production of dental restorations.

The present disclosure describes spill retention mechanisms for cooktops and other substrates. The spill retention mechanisms can hinder the movement of liquids primarily due to the physical attributes of the mechanisms, unlike hydrophobic mechanisms which hinder movement primarily due to the chemical attributes of the hydrophobic material.

To provide a colored optical layer capable of forming a solar cell module excellent in the design, and the power generation efficiency and the weather resistance, a method for producing an optical layer, an optical layer-provided solar cell module, an outer wall material for building, and a building.

An optical layer having a functional layer containing an inorganic pigment and a matrix in which the inorganic pigment is dispersed, to be disposed on the side of plane of incidence of sunlight from solar cells,

wherein at least a part of the inorganic pigment is an inorganic pigment having a maximum near infrared reflectance in a near infrared region at a wavelength of from 780 to 1,500 nm of at least 50%, an average particle size of from 5.0 to 280.0 nm and a specific surface area of from 5.0 to 1,000 m.sup.2/g.

To provide a colored optical layer capable of forming a solar cell module excellent in the design, and the power generation efficiency and the weather resistance, a method for producing an optical layer, an optical layer-provided solar cell module, an outer wall material for building, and a building.

An optical layer having a functional layer containing an inorganic pigment and a matrix in which the inorganic pigment is dispersed, to be disposed on the side of plane of incidence of sunlight from solar cells,

wherein at least a part of the inorganic pigment is an inorganic pigment having a maximum near infrared reflectance in a near infrared region at a wavelength of from 780 to 1,500 nm of at least 50%, an average particle size of from 5.0 to 280.0 nm and a specific surface area of from 5.0 to 1,000 m.sup.2/g.

Strengthened glass substrates with glass fits and methods for forming the same are disclosed. According to one embodiment, the present invention provides a glass frit with a coefficient of thermal expansion less than or equal to the coefficient of thermal expansion of the glass substrate where it is going to be painted. The glass frit of the present invention has similar ion exchange properties to the glass substrate that is going to be used to paint with the glass frit allowing the glass substrate to be ion-exchanged. The glass frit of the present invention is mixed with an organic carrier.

To provide a coating material capable of forming a solar cell module excellent in the weather resistance, the power generation efficiency and the design, a cover glass, a solar cell module comprising the cover glass, and an outer wall material for building.

The cover glass of the present invention is a cover glass comprising a glass plate and a layer containing a fluorinated polymer having units based on a fluoroolefin, on at least one surface of the glass plate, which has an average visible reflectance of from 10 to 100%, and an average near infrared transmittance of from 20 to 100%.

The present disclosure relates to a method for manufacturing decorative panels made of flat glass for electronic household appliances, in particular household appliances that are fixed in position. The method comprises, in the specified order, at least the steps of providing a flat glass, producing a blank decorative panel by forming the provided flat glass with at least one of the steps of forming the outer contour of the decorative panel, edge treatment, or making at least one indentation on the operational front, the thermal tempering of the produced blank decorative panel, and applying at least one decorative print on the operational back of the thermally tempered blank decorative panel by means of a digital printing method.