A method of manufacturing a laminated glass article having a first clad layer, a second clad layer, and a core layer between the first clad layer and the second clad layer, by exposing an edge of the core layer. An etchant can be applied to the edge of the laminated glass article to form the recess. The recess can then be filled.

A device for the gravity-bending of a glass sheet, includes a longitudinal roughing mold including two longitudinal roughing supports, and a finishing frame including two lateral finishing supports and two longitudinal finishing supports, the supports forming shaping rails. The distance between middles of the longitudinal finishing supports is shorter than that between middles of the lateral finishing supports. The roughing mold and finishing frame are movable vertically relative to each other during bending to switch from a rough-bending to a final-bending configuration. In the rough-bending configuration, the shaping rails of the longitudinal roughing supports are higher up than those of the longitudinal finishing support. In the final-bending configuration, the shaping rails of the longitudinal finishing supports are higher up than those of the longitudinal roughing supports. The shaping rails of the lateral finishing supports are the only ones under lateral edges of the glass in the roughing and final-bending configurations.

A manufacturing method for a mold die comprising: making design data for a molding surface based on predetermined prescription information; creating the molding surface in accordance with the design data; specifying error amounts at first and second corresponding points defined on the created molding surface respectively corresponding first and second reference points; defining a first correction surface based on an error amount specified at the first corresponding point; of defining a second correction surface based on the first correction surface and an error amount specified at the second corresponding point, wherein the second correction surface has no power at the first corresponding point; combining a design surface by the design data, the first correction surface and the second correction surface, and corrects the design data based on combined data after the combining; and creating the molding surface in accordance with the corrected design data.

Provided is a method of thermoforming a molding material to have a bent portion and a flat portion extending from the bent portion. The method includes: placing the molding material on a bending mold, the bending mold having a curved surface; and forming the bent portion of the molding material by heating a portion of the molding material at least to a fluidization temperature such that the portion of the molding material bends due to the weight of the flat portion of the molding material to form the bent portion according to a shape of the bending mold.

The pressure sensor of the invention includes at least one platform, at least one measuring membrane 30, and a transducer, wherein the measuring membrane comprises a semiconductor material, wherein the measuring membrane, enclosing a pressure chamber, is secured on the platform, wherein the measuring membrane is contactable with at least one pressure and is elastically deformable in a pressure-dependent manner, wherein the transducer provides an electrical signal dependent on deformation of the measuring membrane, wherein the platform has a membrane bed, on which the measuring membrane lies in the case of overload, in order to support the measuring membrane, wherein the membrane bed 21 has a glass layer 20, whose surface faces the measuring membrane and forms a wall of the pressure chamber, wherein the surface of the glass layer has a contour, which is suitable for supporting the measuring membrane 30 in the case of overload, characterized in that the contour of the membrane bed 21 is obtainable by a sagging of an unsupported region of a glass plate at increased temperature, due to the force of gravity on the unsupported region of the glass plate, and subsequent cooling of the glass plate.

A device for the gravity-bending of a glass sheet, includes a longitudinal roughing mold including two longitudinal roughing supports, and a finishing frame including two lateral finishing supports and two longitudinal finishing supports, the supports forming shaping rails. The distance between middles of the longitudinal finishing supports is shorter than that between middles of the lateral finishing supports. The roughing mold and finishing frame are movable vertically relative to each other during bending to switch from a rough-bending to a final-bending configuration. In the rough-bending configuration, the shaping rails of the longitudinal roughing supports are higher up than those of the longitudinal finishing support. In the final-bending configuration, the shaping rails of the longitudinal finishing supports are higher up than those of the longitudinal roughing supports. The shaping rails of the lateral finishing supports are the only ones under lateral edges of the glass in the roughing and final-bending configurations.

The present invention relates to a flexible glass element and to a stack assembly comprising the glass element. The invention also relates to a method of producing the glass element or stack assembly comprising the same.