A composite pane for a head-up display, includes a first pane and a second pane that are joined to one another via a composite layer as well as a transparent, electrically conductive coating, wherein the composite layer has a first thermoplastic film, a polyester film, and a second thermoplastic film having a ratio of the thicknesses of the second thermoplastic film to the first thermoplastic film of 1.5:1 to 20:1.

Optical products are disclosed that include a polymeric substrate, provided with an infrared-reflective metal layer on an outer surface thereof that is subject to oxidation. The optical products are further provided with a protective coating, comprising one or more of a metal oxide or a metal nitride, deposited directly on the infrared-reflective metal layer using chemical vapor deposition. The optical products are further provided with a composite pigment coating, deposited on the protective coating, that include at least a first layer and a second layer, at least one of which layers comprises a first pigment, wherein each of the first layer and the second layer includes a binding group component, each of which binding group components together form a complementary binding group pair.

Provided is a laminated glass including, in order: a first glass sheet; a first interlayer film; a transparent film laminated with a heat reflection film; a second interlayer film; and a second glass sheet, wherein the first interlayer film and the second interlayer film are formed of a modified hydrogenated block copolymer [E], the modified hydrogenated block copolymer [E] is a hydrogenated block copolymer [D] in which an alkoxysilyl group is incorporated, the hydrogenated block copolymer [D] being a block copolymer [C] in which 90% or more of all unsaturated bonds is hydrogenated, the block copolymer [C] is composed of at least two polymer blocks [A] including a repeat unit derived from an aromatic vinyl compound, and at least one polymer block [B] including a repeat unit derived from a linear conjugated diene compound, and the ratio of weight fraction [A]:[B] is 30:70 to 60:40.

A liquid resin laminated glass panel includes: a first layer of glass, a second layer of glass, and a layer of polymer that is polymerized or cured from a liquid resin while in contact with the first layer of glass and the second layer of glass. The liquid resin is added into a substantially sealed glass cavity formed between the first layer of glass and the second layer of glass by a vacuum.

A glass plate according to the present disclosure includes: a coated area and an uncoated area; a heating layer that is coated on the coated area and includes a conductive material generating heat by receiving power; and two bus bars that extend along an extension direction, that are electrically connected to the heating layer to supply the power to the heating layer, and that are spaced apart from each other along a reference direction orthogonal to the extension direction. The uncoated area includes a plurality of uncoated lines having a length along the reference direction and formed as a single line bent at least once. The plurality of uncoated lines is disposed to be spaced apart along the extension direction.

The present invention relates to an automotive curved laminated glazing (1) comprising (i) a first glass sheet (11) having an outer (P1) and an inner (P2) faces, (ii) an electrically powered functional film (13), (iii) a second glass sheet (12) having an outer (P3) and an inner (P4) faces. (iv) at least one optical coupling material (14) being a layer of polymer that is polymerized or cured from a liquid resin and provided between the said functional film and the at least first (11) and/or the second (12) glass sheets. According to the present invention, the curved laminated glazing has at least 50% of the total surface area of the outer face (P1) of the first glass sheet (11) and the inner face (P4) of the second glass sheet (12), having a minimum radius of curvature (R min) comprised between 75-8500 mm.

A window manufacturing apparatus includes a transporting table on which a target substrate is to be mounted, the transporting table including a first portion and a second portion having a greater thickness than the first portion, a plurality of suctioning ports on a suctioning table, the plurality of suctioning ports being configured to suction the target substrate, and an attachment device configured to attach a protective film to the target substrate suctioned to the suctioning table. In a state in which the target substrate mounted on the transporting table is suctioned to the suctioning table, the plurality of suctioning ports overlap the second portion of the transporting table and do not overlap the first portion of the transporting table in a plan view.

A composite pane with functional film includes a peripheral edge of the composite pane, a peripheral edge of the functional film, a busbar, an outer pane with exterior-side and interior-side surfaces, an inner pane with exterior-side and interior-side surfaces, and a thermoplastic intermediate layer that joins the interior-side surface of the outer pane to the exterior-side surface of the inner pane. The functional film is encased in the thermoplastic intermediate layer, the peripheral edge of the functional film is set back in the direction of the surface center of the composite pane relative to the peripheral edge of the composite pane, and the busbar is arranged between the interior-side surface of the outer pane and the exterior-side surface of the inner pane and runs between the peripheral edge of the composite pane and the peripheral edge of the functional film in the edge region of the composite pane.

An interlayer structure having a cellulose ester layer for use in structural laminates is described herein. The cellulose ester layer provides rigidity and support to multilayer interlayers comprising an array of different layers. Due to the diverse properties of the cellulose ester layers, the present interlayers can be useful in producing structural laminates having high stiffness and which possess good optical clarity for a variety of applications, including outdoor structural applications.

A laminate structure having a first chemically strengthened glass layer, a second chemically strengthened glass layer, and a polymer interlayer structure intermediate the first and second glass layers. The polymer interlayer structure can include a first polymeric layer adjacent to the first glass layer, a second polymeric layer adjacent to the second glass layer, and a polymeric rigid core intermediate the first and second polymeric layers.