A method for producing a composite window pane, particularly a motor vehicle windscreen, includes mounting guide pins and electronic components on traces of a printed circuit board and inserting the printed circuit board between a first and a second glass plate. The guide pins are inserted in passthroughs in the first glass plate.

The present invention aims to provide an interlayer film for a laminated glass which is easily peelable without autohesion even after storage in a stacked state, and a laminated glass prepared using the interlayer film for a laminated glass. The present invention relates to an interlayer film for a laminated glass, having a large number of protrusions on at least one surface, the surface having an arrangement density of the protrusions of 3 protrusions/mm.sup.2 or more, and the protrusions having an area ratio of 15 to 75% to the surface.

The present invention aims to provide an interlayer film for a laminated glass capable of exhibiting high deaeration properties even in a nip roll method and hardly forming air bubbles to enable the production of a highly visible laminated glass, and a laminated glass including the interlayer film for a laminated glass. The present invention relates to an interlayer film for a laminated glass, having a large number of recesses and a large number of projections on at least one surface, the recesses each having a groove shape with a continuous bottom and being regularly adjacent to each other in parallel with one another, the recesses each having a groove shape with a continuous bottom having a ratio (R/Sm100) of a radius of rotation R of the bottom to an interval Sm between the recesses of 15% or higher.

A method includes providing a first ply having a No. 1 surface and No. 2 surface. The method further includes heating the first ply, bending the first ply into a predetermined shape, providing a second ply having a No. 3 surface and No. 4 surface, and painting at least a portion of the No. 2 surface, No. 3 surface, or No. 4 surface to yield a painted portion. The method further includes applying a burn-off temporary layer over at least a portion of the painted portion, heating the second ply, bending the second ply into the predetermined shape, burning-off the burn-off temporary layer, providing an interlayer in between the first ply and second ply, heating and squeezing the first ply, second ply and interlayer together under a vacuum to remove any air trapped between the first ply and the second ply thereby forming the article, and cooling the article.

A method for finishing an edge of a glass laminate structure comprising the steps of assembling a glass laminate structure having a first glass sheet, a second glass sheet and an interlayer material intermediate the first and second glass sheets and placing a compressive material on a first edge of the assembled structure. A vacuum can be applied to a second edge of the assembled structure and the assembled structure heated to a predetermined temperature at or above a softening temperature of the interlayer material. The vacuum and temperature can be maintained for a predetermined period of time whereby the compressive material provides an in situ finish for the first edge of the glass laminate structure.

An antireflective switchable laminated glass construction having a switchable functional film formed of a switchable material layer, a first polymer substrate with a first transparent conductive coating, and a second polymer substrate with a second transparent conductive coating. The switchable functional film is sandwiched between first adhesive polymer interlayer and glass substrate and second adhesive polymer interlayer and glass substrate. The switchable laminated glass construction in an ON (transparent) state has a total light transmittance higher than 50% and a reflectance equal to or less than 13%, as measured from at least one side of the switchable laminated glass construction.

Provided is an interlayer film for laminated glass capable of suppressing color migration and enhancing the handling property of the interlayer film. An interlayer film for laminated glass according to the present invention contains a thermoplastic resin, a first plasticizer having a solubility parameter of less than 18.0 (J/cm.sup.3).sup.0.5, and a second plasticizer having a solubility parameter of 18.0 (J/cm.sup.3).sup.0.5 or more.

An article includes: a first substrate including a No. 1 surface and a No. 2 surface opposite the No. 1 surface; and a microLED display system positioned to project light towards the No. 2 surface. The article may be a laminated glass article. Automobiles including the articles are also disclosed. Methods for manufacturing a laminated glass article are also disclosed.

The present disclosure relates to a method of applying a seal material on a glass sheet surface of one or more tempered glass sheets for a vacuum insulated glass unit. The method comprises the steps of: obtaining by means of a sensor system (4) surface variation data of at least one tempered glass sheet (3, 30) for said a vacuum insulated glass (VIG) unit, and applying seal material (2) for an edge seal at a surface (3a, 30a) of said one or more tempered glass sheet (3, 30) by means of one or more nozzles (5) having a nozzle opening (6) for dispensing said seal material. The method further comprises by means of a control system (7) controlling one or more adjustment systems (9, 10, 11) influencing on the applying of said seal material by said one or more nozzles (5) based on said obtained surface variation data. The disclosure additionally relates to a method of manufacturing a vacuum insulated glass (VIG) unit, and a system for applying edge sealing material (2) for an edge sealing of a vacuum insulated glass unit (1, 100) and use of a system for applying edge sealing material (2) for an edge sealing of a vacuum insulated glass unit (1, 100).

A method of preparing a glazing, comprising: stacking a first glass sheet, a first interlayer, a photopolymer film, a second interlayer, and a second glass sheet to provide a lamination stack; deairing the lamination stack; autoclaving the lamination stack to provide a laminated glazing; applying a reactive light to the photopolymer film in the laminated glazing, wherein reactive light is applied to the laminated glazing through a master holographic film; and bleaching the laminated glazing such that the photopolymer film is no longer reactive to light exposure.