A production device and production method for single curved tempered glass. Glass to be processed is heated in a heating section to a temperature required for a glass bending and tempering process; under the combined transfer of a ceramic roller group of the heating section and a forming roller group of a forming section, the heated glass enters the forming section, each roller of the forming roller group of the forming section being in the respective initial state, and under the action of gravity or other external forces, the glass is closely attached to the forming roller group and is then pre-formed accordingly; each roller of the forming roller group is bent from its initial state to a final state, and the softened glass after heating is, under the action of gravity or other external forces, closely attached to the forming roller group and is then formed accordingly; and air blowing and cold quenching are carried out until the formation and tempering of the glass are finished, thus obtaining a single curved tempered glass product.

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.

A process for manufacturing a bent laminated glazing, includes manufacturing a first bent laminated glazing including at least two glass substrates locally comprising, in each of the at least two glass substrates and facing each other in all the at least two glass substrates, a zone including compressive stresses, and cutting the first bent laminated glazing through its entire thickness along a line included in the zone in order to form local cut edges and, after cutting, a second bent laminated glazing with the local cut edges having compressive edge stresses.

A furnace (2) has at least one furnace chamber (20) delimited by a wall (25); at least one opening (5) is provided in the wall (25). The opening is provided with at least one nozzle (50), configured to generate a sealing air flow. A glass semi-finished product (4) can be introduced into the furnace chamber.

A non-contact shaping device includes a first fixture including a fixing section structured to alternately blow out and suck in gas. The fixing section may fix, through suction of gas, a glass plate thereon. An optic heat source processing device is selectively set above predetermined portions of the glass plate to heat, in a non-contact manner, and thus soften, in a temperature-controlled manner, the portions for curving and suspending downward along an edge of the fixing section. The curved glass plate is then lifted up through blowing gas from the first fixture. The second fixture selectively covers the curved glass plate and blow gas therefrom to flow, in collaborative combination with the gas blown from the first fixture, around surfaces of the curved glass plate for cooling and fixing a shape of the curved glass plate in a non-contact manner to form a three-dimensional curve-surfaced glass product.

The present invention discloses a vehicle glazing having a sharply curved portion and the method for bending such glazing The sharply curved portion of the glass may extend along the surface of the glass. The sharply curved portion is obtained by locally heating by means of a laser source, heating the portion of the glass to a temperature sufficiently high enough to allow said portion of glass to bend. In preferred embodiments, the sharply curved portion comprises a first bent portion described by a first radius and a second bent portion described by a second radius, wherein the point where the radiuses of the first and second bent portions change their orientation generate an inflection point. The radius of curvature of the first and second bent portions is of less than 150 mm.

An edge-press molding element is part of a glass-bending tooling that includes a contoured-ring, gasket form factor. The edge-press molding element operates by self-weight bending a glass pane under a thermal load. The glass pane bends under molding conditions where a temperature differential of as low as 30 C. up to 100 C. is achieved between an edge of the glass pane and the center.

A system and process for forming a curved glass laminate article is provided. The process and system utilizes co-sagging of a stack of glass sheets of different thicknesses and different glass materials. During co-sagging the thicker glass layer is placed on top of the thinner glass layer. In this process, shape mismatch is avoided by selecting/controlling the glass materials of the sheets of glass such that the viscosity of the lower, thinner sheet during co-sagging is greater than the viscosity of the thicker glass sheet.

Disclosed herein are glass forming furnaces and methods of using the same. The glass forming furnaces may include a housing and a bending ring. The housing may define a chamber. The bending ring may include a first inlet port, a first outlet port, and a channel. The bending ring may be located within the chamber. The channel may have a shape that is similar to a shape of a glass article. The channel may define a cavity fluidly connecting the first inlet port and the first outlet port.

Various embodiments disclosed relate to an assembly for bending glass. The assembly includes a support extending along an x-direction and a y-direction. The support includes a support first major surface and opposed second major surface. The assembly further includes a bending ring attached to and extending vertically along a z-direction from the support first major surface substantially along an outer perimeter of the support first major surface. The assembly further includes a passive heat element disposed between the support first major surface and a top end of the bending ring.