A vehicle window pane having a plate-like window pane body which has an outer side facing the surroundings of the vehicle and an inner side facing away from the outer side and on whose inner side a shading arrangement is disposed, the shading arrangement being formed by a liquid crystal arrangement which has a liquid crystal cell. The liquid crystal arrangement has two films between which the liquid crystal cell is disposed, and the liquid crystal arrangement is connected to the window pane body via at least one longitudinal-expansion compensation layer.

There is provided a multi-layered glass in which two glass plates are placed such that they form a space via a spacer placed in a peripheral part of glass plates, wherein at least one low-emissivity film, which includes a plastic film and a Fabry-Perot interference filter formed on one side or both sides of the plastic film, is placed in the space, whereby space is divided; each of gaps between the glass plates and the spacer, and between the low-emissivity film and the spacer is sealed with a primary sealing material; a gap between the glass plates outside of the primary sealing material and the spacer is sealed with a secondary sealing material; and a reinforcement material is placed inside of the secondary sealing material. The multi-layered glass has a good appearance and excellent heat-insulating properties.

Disclosed are device display screen protectors comprising a first strengthened substrate sized to cover a display screen of an electronic device, the first strengthened substrate having a central tension value in the range greater than 0 MPa and less than 20 MPa, a surface having a Knoop lateral cracking scratch threshold of at least 3 N.

A vehicle glazing (10) wherein a light guide stack (22) is located between a portion of the inner transparency (26) and the outer transparency (28). The light guide stack includes a polycarbonate film (32) that is bonded to the transparencies by layers of PET (38, 40) that are secured to the polycarbonate film on one side by silicone (34, 36) and that are secured to the transparencies on the other side by PVB (42, 44). The terminal end of an extending tab of the polycarbonate film forms an edge that is connected to a light bar (14) that such visible light propagates through the light bar and into the polycarbonate film through the edge. Visible light propagates through etchings in the smooth surface of the polycarbonate film to form an image. An extension of one of the transparencies protects the polycarbonate tab and supports the light bar during installation of the glazing into the vehicle portal.

Silicone-containing light fixture optics. A method for manufacturing an optical component may include mixing two precursors of silicone, opening a first gate of an optic forming device, moving the silicone mixture from the extrusion machine into the optic forming device, cooling the silicone mixture as it enters the optic forming device, filling a mold within the optic forming device with the silicone mixture, closing the first gate, and heating the silicone mixture in the mold to at least partially cure the silicone. Alternatively, a method for manufacturing an optical component may include depositing a layer of heat cured silicone optical material to an optical structure, arranging one or more at least partially cured silicone optics on the layer of heat cured silicone optical material, and heating the heat cured silicone optical material to permanently adhere the one or more at least partially cured silicone optics to the optical structure.

Silicone-containing light fixture optics. A method for manufacturing an optical component may include mixing two precursors of silicone, opening a first gate of an optic forming device, moving the silicone mixture from the extrusion machine into the optic forming device, cooling the silicone mixture as it enters the optic forming device, filling a mold within the optic forming device with the silicone mixture, closing the first gate, and heating the silicone mixture in the mold to at least partially cure the silicone. Alternatively, a method for manufacturing an optical component may include depositing a layer of heat cured silicone optical material to an optical structure, arranging one or more at least partially cured silicone optics on the layer of heat cured silicone optical material, and heating the heat cured silicone optical material to permanently adhere the one or more at least partially cured silicone optics to the optical structure.

A vehicular rearview mirror assembly includes an electrochromic reflective element having front and rear glass substrates with an electrochromic medium disposed therebetween. The front glass substrate includes a specularly reflective perimeter layer at least partially around a perimeter border region of the rear side of the front glass substrate. At least one light source is disposed behind the perimeter layer. With the vehicular rearview mirror assembly mounted at the vehicle and when the at least one light source is electrically powered, the at least one light source emits light that passes through the perimeter border region of the second side of the front glass substrate and that is visible to a viewer viewing the first side of the front glass substrate of the electrochromic reflective element at the perimeter layer.

A lamination process is disclosed. The process is useful for silicone based lamination adhesive compositions, in particular those which cure at or around room temperature.

The fire resistant interlayer for use in a fire resistant element is suitable for use in a fire resistant element. The fire resistant interlayer is arrangeable between two support elements. The fire resistant interlayer is a silicon based polymer, wherein the polymer is polymerised from starting component comprising silicon. In particular the polymer is polymerised from a dispersion of SiO2 nanoparticles, and/or silicic acid, a silane compound; in particular halogenated silane, in particular chlorinated silane and/or fluorinated silane; a silanol compound, a siloxane compound a derivate thereof and/or a mixture thereof dissolved, dispersed and/or emulsified a solvent.

Method and composition for switchable panels are disclosed. Switchable films are placed between glass and liquid resin is injected between the glass and cured. The panels may be used for a wide variety of applications.