A dimming laminate (10) includes: a dimming substrate (18) in which a dimming function material (16) is provided between two first transparent substrates (12) and (14); and a second transparent substrate (22) that is bonded to one first transparent substrate (12) through an adhesive layer (20). Each of the first transparent substrates (12) and (14) has a different average thermal expansion coefficient at 50-350° C. from that of the second transparent substrate (22). In the dimming laminate (10), a third transparent substrate (26) is bonded to the other first transparent substrate (14) through an adhesive layer (24), and an average thermal expansion coefficient at 50-350° C. is equal between the third transparent substrate (26) and the second transparent substrate (22).

A glass sheet composite includes at least two sheets and a liquid layer held between the two sheets, and at least one of the two sheets being a glass sheet. In the glass sheet composite, the two sheets have been disposed so that an edge surface of one of the two sheets and an edge surface of the other sheet are not flush with each other to constitute a step portion having a stair-like shape in a cross-sectional view, and the glass sheet composite further comprising a seal material provided to the step portion to seal up at least the liquid layer.

An interlayer film for a laminated glass, containing in sequence an A layer, a C layer, and an A layer, and also containing a B layer at any place between or outside these layers, wherein each A layer contains a first thermoplastic resin, a resin material constituting each A layer has a tan δ peak of −30° C. to 10° C., the resin material of at least one layer of the A layers has a peak height of a tan δ of 1.5 or more, the B layer contains a second thermoplastic resin, and is constituted of a resin material different from the resin material constituting the A layer, and the C layer is a layer composed of an inorganic glass having a thickness of 0.1 mm to 1.5 mm, or a layer having a thickness of 0.25 mm to 2.5 mm and containing a third thermoplastic resin.

A transparent, burglary-resistant fire protection glazing includes at least one centrally arranged, burglary-resistant composite that includes at least one transparent plastic pane, at least two fire protection units arranged on both sides of the centrally arranged, burglary-resistant composite, and two outer surfaces opposite one another.

Novel multilayer laminates and lamination methods useful for the production of safety glass are disclosed in which an interlayer is provided between substrates and a porous sealant material is provided in a strip around the perimeter of the interlayer and at least partially in-between the substrates adjacent the interlayer. The space between the substrates is evacuated or de-aired through the porous sealant. The porous sealant is then made into a non-porous, continuous perimeter seal by pressing at or near room temperature or at a moderately elevated temperature to remove pores or gaps. The laminate is further processed at higher elevated temperatures either at or near atmospheric pressure or at elevated pressure to increase the bonding between the interlayer and the substrates and to eliminate most or all of the initial texture on the surfaces of the interlayer.

The present invention relates to a laminated body with electric conductor including a substrate; a functional layer having at least an adhesive layer; an electric conductor; and a protective material, wherein the substrate, the functional layer having at least the adhesive layer, the electric conductor, and the protective material are sequentially laminated in a thickness direction, and wherein a thickness of the functional layer is less than or equal to 0.300 mm.

The present disclosure provides a light adjusting glass, including: a basic light adjusting structure and a functional light adjusting structure which are disposed in a laminated manner; the basic light adjusting structure is configured to adjust a transmittance of light rays irradiated on the basic light adjusting structure; the functional light adjusting structure is configured to reflect light rays in a specific wave band irradiated on the functional light adjusting structure.

A window pane includes at least one structural substrate referred to as interior substrate, intended to face toward a host structure within which the window pane is intended to be fixed, and having a face, referred to as interior face, wherein the interior face of the substrate includes, projecting therefrom and at the edge or near the edge and along at least one of the sides of the window pane, at least one male or female retaining element intended to collaborate with at least one respectively female or male retaining shape arranged in the host structure of the window pane.

Unidirectional ballistic glasses and methods for manufacturing the same are described herein. The unidirectional ballistic glasses, among other things, may be less susceptible to delamination resulting in greater overall life cycle and may be lighter than conventional unidirectional ballistic glasses. A unidirectional ballistic glass may include, among other things, a plurality of glass sheets that are attached to each other by one or more adhesive intermediate layers where the unidirectional ballistic glass has an exterior side and an interior side opposite from the exterior side, and the plurality of glass sheets includes an exterior glass sheet that is, among the plurality of glass sheets, nearest to or at the exterior side of the unidirectional ballistic glass, and an interior glass sheet that is, among the plurality of glass sheets, nearest to the interior side of the unidirectional ballistic glass. The unidirectional ballistic glass may further include a hydrophobic polymer layer disposed between a polycarbonate layer and the interior glass sheet, and a polyurethane layer and a polyvinyl chloride (PVC) layer that are disposed on peripheral edges of at least the interior glass sheet and the polycarbonate layer.

A laminated vehicle windshield containing internal luminous information, includes a first glazing, a lamination interlayer, a second glazing and peripheral exterior and interior masking layers. A first curved organic-light-emitting-diode (OLED) device is between the second and third main faces windshield, the first OLED device forming a first sign.