Provided is a hydrogenated block copolymer, which is a hydrogenation product of a block copolymer including a polymer block (A) containing more than 70 mol % of a structural unit derived from an aromatic vinyl compound and a polymer block (B) containing 30 mol % or more of a structural unit derived from at least one selected from the group consisting of a conjugated diene compound and isobutylene, the hydrogenated block copolymer being satisfied with the following requirements (1) and (2): Requirement (1): the content of the polymer block (A) in the block copolymer is 1 to 30% by mass; and Requirement (2): when the polymer block (B) is regarded as having a structure with a hydrogenation rate of 100 mol %, an average value of a methylene chain length of a main chain of the structural unit derived from at least one selected from the group consisting of a conjugated diene compound and isobutylene is 1.0 to 6.0.

Disclosed generally herein is a laminated vehicle glazing including first and second glass sheets and a polymer interlayer interposed therebetween. The interlayer includes a major part and a stiff part adjacent to the major part. The stiff part does not surround the major part, such that the major part is along at least one edge of the laminated vehicle glazing. The stiff part includes at least one layer made of a material that has a higher Young's modulus than that of the material used in the major part. Young's modulus in the thickness direction of the stiff part is higher than that of the major part.

A glass lamination article includes a resin layer in contact with a base substrate such that a first interface is formed therebetween, and a glass substrate layer in contact with the resin layer such that a second interface is formed therebetween, wherein the resin layer may be an ultraviolet (UV)-curable resin layer. The glass lamination article has excellent impact resistance and strength, as well as excellent waviness.

Provided is an interlayer film for laminated glass capable of enhancing the adhesive force between a layer containing a (meth)acryloyl polymer, and an adherend arranged on the layer, and enhancing the sound insulating property of the laminated glass. An interlayer film for laminated glass according to the present invention has a one-layer or two or more-layer structure, the interlayer film includes a first layer containing a (meth)acryloyl polymer prepared by polymerizing polymerization components including at least one kind of cyclic skeleton-containing (meth)acryloyl monomer selected from the group consisting of a (meth)acryloyl monomer having an aromatic skeleton, a (meth)acryloyl monomer having an alicyclic skeleton and a (meth)acryloyl monomer having a cyclic ether skeleton, and a content of the cyclic skeleton-containing (meth)acryloyl monomer is 50% by weight or more in 100% by weight of the polymerization components.

The present disclosure relates to a method of providing a laminated vacuum insulated glass (VIG) unit, wherein the method comprises: —providing a lamination assembly (10) comprising a vacuum insulated glass (VIG) unit (11) comprising at least two glass sheets (11a, 11b) separated by a plurality of support structures (12) distributed in a gap (13) between the glass sheets (11a, 11b), and a lamination layer (2) arranged between one of the glass sheets (11a, 11b) of the vacuum insulated glass (VIG) unit (11) and a further sheet (3). The lamination assembly (10) is subjected to a heating step at a heating location so as to soften the lamination layer to provide a bonding between the vacuum insulated glass unit and the lamination layer (3), and a bonding between the further sheet (3) and the lamination layer (2). The heated lamination assembly (10) is then subjected to a cooling step provided by a cooling system (350), wherein said cooling step comprises providing a controlled cooling of one or both major outer surfaces (10a, 10b) of the heated lamination assembly (10) so as to cool said heated lamination assembly (10) to harden said lamination layer (2). The present disclosure additionally relates to use of a cooling system.

An apparatus for finishing a cut edge of a glass laminate includes a support including a surface and an edge, a rail disposed adjacent the support and extending substantially parallel to the edge, a carrier coupled to the rail, and a finishing tool coupled to the carrier and including an abrasive surface positioned adjacent the edge. The carrier is translatable along the rail to translate the abrasive surface relative to the edge. A method includes securing a glass laminate to a support and contacting a cut edge of the glass laminate with an abrasive surface of a finishing tool coupled to a carrier. The carrier is translated along a rail to move the abrasive surface along the cut edge of the glass laminate and transform the cut edge into a finished edge. The glass laminate can have an edge strength of at least about 100 MPa.

A glass-polymer laminate structure includes a flexible glass substrate having a thickness of no more than about 0.3 mm. A polymer layer is laminated to a surface of the flexible glass substrate having a coefficient of thermal expansion (CTE) that is at least about 2 times a CTE of the flexible glass substrate. The polymer layer is laminated to the surface of the flexible glass substrate after thermally expanding the polymer layer to provide the flexible glass substrate with an in-plane compressive stress of at least about 30 MPa along a thickness of the flexible glass substrate.

An optical film includes: a fine recess-protrusion layer having a recess-protrusion pattern, formed on a substrate film; and a fine structure body formed on the fine recess-protrusion layer. The optical film is pressed by a light guide transparent to light against one surface of an adherend applied with a photocurable resin, and light is transmitted through the light guide to cure the photocurable resin with the optical film being pressed by the light guide, thereby forming the fine structure body on the adherend.

A method of forming an antireflection optical body (16a) includes: an application step of applying an adhesive (12) other than an epoxy adhesive onto an adherend (11); a fixing step of pressing a substrate film (15) having a fine structure body (16) at one surface side thereof against the adherend (11) from an opposite surface side to the one surface side to fix the adherend (11) and the fine structure body (16) through the adhesive (12); and a peeling separation step of releasing the pressing of the substrate film (15) and peeling fixed fine structure body (16) that is fixed to the adherend (11) through the adhesive (12) from the substrate film (15) while separating the fixed fine structure body (16) from fine structure body (16) on the substrate film (15) at a location where the fine structure body (16) is fixed to the adherend (11) such that the fixed fine structure body (16) is formed on the adherend (11) as an antireflection optical body (16a).

Provided is an interlayer film for laminated glass having high Young's modulus, high flexural rigidity, and high sound insulating property. An interlayer film for laminated glass according to the present invention has a one-layer or two or more-layer structure, and includes a first layer including an ionomer resin containing polyvinyl acetal into which an acid group is introduced, or containing a (meth)acrylic resin into which an acid group is introduced, and the ionomer resin has a content of the acid group of 1.5% by mole or more and 10% by mole or less, the ionomer resin has a degree of neutralization of 10% or more and 90% or less, and the first layer has a glass transition point within a temperature range between −20° C. and 0° C. inclusive.