A system for laminating and/or de-bubbling mobile electronic device screens, comprises a machine unit comprising a metal vacuum pressure chamber with lid, safety sensors and o-ring; an internal or external vacuum pump; a piston chamber, piston and piston plate; a central air distribution block with solenoid valves and pressure sensor; a control PCB (printed circuit board) with processor and operating software system for controlling the machine unit; actuators; an on/off power switch; a power inlet; an operations button; an air inlet port and an external air compressor.

A method for manufacturing a laminated glass whereby, in a laminated glass comprising a liquid crystal film sandwiched therein and having a three-dimensionally curved surface shape, the formation of wrinkles in the liquid crystal film can be suppressed; and a laminated glass which has a three-dimensionally curved surface shape and in which wrinkles in a liquid crystal film sandwiched therein are suppressed. The method for manufacturing the laminated glass comprises: a heat molding step for heating the liquid crystal film to a temperature higher than the glass transition point of the first base material layer and the second base material layer; and a bonding step for, after completing the heat molding step, heating the laminate, wherein the liquid crystal film is sandwiched between the first glass sheet and the second glass sheet, at a temperature lower than the glass transition point and bonding the same by applying a preset pressure.

A heat ray shielding structure including a heat ray shielding layer (2) between a first resin layer and a second resin layer, wherein the heat ray shielding layer (2) is a heat ray reflecting layer which is a first heat ray reflecting layer having a repeated multilayer structure of a high-refractive-index layer and a low-refractive-index layer or which is a second heat ray reflecting layer containing at least any one of Au, Ag, Cu and Al, a heat ray absorbing layer containing at least one of an inorganic oxide and a coloring matter and containing a binder resin, or a layer including the heat ray reflecting layer and the heat ray absorbing layer.

The present disclosure provides an electrochromic sunroof encapsulating a pre-assembled all solid-state flexible thin film ECDs and methods to fabricate the disclosed electrochromic sunroof. The electrochromic sunroof of the present disclosure provides great flexibility and can be adapted to virtually any curvature or shape without leaking concerns.

The principles and embodiments of the present disclosure relate generally to complexly curved laminates made from a complexly curved substrate and a flat substrate, such as automotive window glazings, and methods of cold forming complexly-curved glass products from a curved substrate and a flat substrate. In one or more embodiments, the laminate includes first complexly-curved glass substrate with a first surface and a second surface opposite the first surface, a second complexly-curved glass substrate with a third surface and a fourth surface opposite the third surface with a thickness therebetween; and a polymer interlayer affixed to the second convex surface and third surface, wherein the third surface and fourth surface have compressive stress values respectively that differ such that the fourth surface has as compressive stress value that is greater than the compressive stress value of the third surface.

The present disclosure relates to a vehicle glazing, comprising: a first glass substrate having surfaces S1 and S2 wherein S1 faces a vehicle exterior; a second glass substrate having surfaces S3 and S4 wherein S4 faces a vehicle interior; at least one polymer interlayer between the first glass substrate and the second glass substrate; and a coating on at least one surface of at least one of the first and second glass substrates, wherein at least one opening is formed in the coating, and the opening is filled with an electrically conductive material, wherein the electrically conductive material is attached to at least one electrical connector.

Laminated glass for automobile windshield includes: a first and a second glass plate facing each other, and an intermediate film disposed between the glass plates and including a plurality of core layers and a plurality of skin layers alternately laminated. The plurality of core layers have a glass transition point of lower than 15 C. The plurality of skin layers have a glass transition point of 15 C. or higher. The plurality of core layers include two or more core layers. The laminated glass has a maximum degree of unevenness of 3 m or less in a test area A.

A reinforcement structure includes an adherend, such as a metal plate, and a reinforcement sheet adhering thereto. The reinforcement sheet includes a front layer containing a plurality of fibers, a core material layer, and an adhesive layer. The reinforcement structure is capable of intensively reinforcing a first corner portion of the adherend and obtaining an improvement in strength.

Principles and embodiments of the present disclosure relate to unique asymmetric laminates and methods that produce the laminates where the laminate includes an external glass substrate having a thickness (t.sub.o) and an internal glass substrate comprising a strengthened glass substrate having a thickness (t.sub.i) in a range from about 0.05 mm to about 1 mm such that t.sub.o/t.sub.i is in a range from about 3 to about 20.

A method for producing laminated glass or a precursor thereof using a first glass pane with a thickness of at least 1.4 mm and a second glass pane with a thickness of not more than 1.0 mm, the first and second glass panes differing in curvature and/or locally in shape, includes aligning an arrangement including the first and second glass panes and a laminating film by positioning a side edge of the arrangement against a stop element; pre-fixing the aligned arrangement at at least two locations on the positioned side edge of the arrangement by one or more fixing elements and heating, after which the fixing element or elements are removed again; and forming a fixed arrangement by passing the pre-fixed arrangement through a roller arrangement with the pre-fixed side edge of the arrangement ahead. The arrangement is heated in sections during passage.