Process for encapsulation of a microelectronic device comprising the following steps in sequence: supply a support substrate comprising a first principal face on which a microelectronic device is placed, a second principal face, and a lateral face, deposit a bonding layer on the first principal face of the substrate, position an encapsulation cover comprising a first principal face, a second principal face, and a lateral face, on the bonding layer, deposit a lateral protection layer on: the lateral face and the periphery of the second principal face of the support substrate, the lateral face and the periphery of the second principal face of the encapsulation cover, the lateral protection layer delimiting a protected zone, thinning of the second principal face of the support substrate and/or the second principal face of the encapsulation cover outside the protected zone.

This glass plate has: a first main surface and a second main surface; and a first end surface and a second end surface that abut on the first main surface and the second main surface, respectively, wherein the glass plate has a wedge-shaped cross-sectional shape in which the thickness on the first end surface side is less than that on the second end surface side. The glass plate has: a first chamfered section which includes a first apical end having a curved surface shape at the first end surface; and a second chamfered section which includes a second apical end having a curved surface shape at the second end surface, and the first apical end and the second apical end are formed in the same shape.

A laminated glazing with a network of heating wires includes at least two rigid transparent sheets that are connected to one another pairwise by an intercalary adhesive layer, wherein at least one network of heating wires is arranged on a face of one of the at least two rigid transparent sheets other than the exterior main faces of the laminated glazing, the network of heating wires being supplied with power by contact with at least two feeds that are connected to an electric current source, the feeds being arranged on the edges of the laminated glazing and/or on its exterior main face that is intended to be oriented, in the mounting position, opposite the exterior atmosphere.

A method for producing a vehicular structure in which a transparent substrate and an adherend are bonded together by an adhesive includes pasting a protective film on, so as to cover, an adhesive arrangement area in a peripheral part of a vehicle-inner-side surface of the transparent substrate, and arranging an adhesive in the adhesive arrangement area after removing the protective film, and bonding together the transparent substrate and the adherend with the adhesive.

A window assembly includes a first pane of glass. The first pane of glass is chemically strengthened and exhibits a surface compressive stress of 400 MPa or more. A second pane of glass has a first major surface and a second major surface. The second major surface of the second pane of glass and a first major surface of the first pane of glass face each other. The second pane of glass includes 68-74 weight % SiO.sub.2, 2-6 weight % MgO, 1-10 weight % CaO, 12-16 weight % Na.sub.2O, 0-1 weight % K.sub.2O, 0.8-2.0 weight % Fe.sub.2O.sub.3 (total iron), 0-1.25 weight % TiO.sub.2, and 0-1.25 weight % CeO.sub.2. A polymeric interlayer is provided between the first pane of glass and the second pane of glass. The window assembly exhibits a direct solar transmittance of 55% or less and a total solar transmittance of 65% or less.

To provide a laminated glass excellent in edge foaming resistance and rigidity. Laminated glass 1 in which a pair of glass plates and an intermediate film 4 provided between the pair of glass plates, are laminated, wherein the shear storage modulus of said intermediate film 4 is from 2 to 100 MPa, and the outer peripheral edge of the intermediate film 4 is present inside than the outer peripheral edges of the two glass plates constituting said pair of glass panels, at least at a part of the entire outer periphery of the laminated glass 1.

The present invention relates to a laminate in which a plurality of members including at least a glass are bonded via a bonding agent. The glass bonded has a chamfered portion in an end portion of a lamination surface of the glass, and the bonding agent adheres to the chamfered portion.

Disclosed is a laminated glass structure with one or more inner glass layers with at least one in tension and two outer glass layers in compression wherein one or both of the outer layers at least partially wrap around the one or more inner layers at one or more of the edges of the laminated glass structure. Also disclosed is a process for forming a laminated glass structure, comprising providing a laminated glass structure, removing at least some glass from at least one the edges of the structure to produce a concavity in at the at least one edge and applying heat to the at least one edge.

A method for producing laminated glass for automobile windows includes heating and bend forming two glass plates; and bonding together the two bend-formed glass plates via an interlayer film, wherein, the method further includes scratching that is performed on a concave surface of at least one of the two glass plates, after the bend-forming.

Various embodiments relating to an electronic device comprising a display having a curved area are described. According to an embodiment, an electronic device may comprise: a window including a flat area and a curved area curved from the flat area at a first curvature; a display including a first area disposed below at least a part of the flat area, and a second area extending from the first area and disposed below at least a part of the curved area while being curved at a second curvature larger than the first curvature; and a filling member for filling the gap formed between the curved area and the second area. Various other embodiments are also possible.