Disclosed are curable adhesive compositions comprising hydroxyl functional polymers and silane functionalized resins. Such adhesive compositions are capable of providing unexpected properties for various uses and end products. The adhesive may be used for woodworking, automotive, textile, appliances, electronics, bookbinding, and packaging. Suitable substrates can be metal, polymer film, plastics, wood, glass, ceramic, paper, and concrete.

Disclosed are curable adhesive compositions comprising hydroxyl functional polymers and silane functionalized resins. Such adhesive compositions are capable of providing unexpected properties for various uses and end products. The adhesive may be used for woodworking, automotive, textile, appliances, electronics, bookbinding, and packaging. Suitable substrates can be metal, polymer film, plastics, wood, glass, ceramic, paper, and concrete.

A carrier tape holding electrical components to a reel around which the carrier tape is wound is provided. Furthermore, the present disclosure is related to a pick-and-place apparatus for receiving this carrier tape and for picking and placing the electrical components arranged in the carrier tape. The carrier tape according to an aspect of the present disclosure includes an adhesive film that forms a bottom wall of the cavities in which a plurality of electrical components is arranged. The adhesive of the adhesive film is configured to substantially release the attachment of the electrical component as a result of heating the adhesive and/or as a result of irradiating the adhesive using light, such as visible light, infrared light, or ultraviolet light, for the purpose of allowing the electrical component to be removed from the cavity using a pick-and-place apparatus.

A carrier tape holding electrical components to a reel around which the carrier tape is wound is provided. Furthermore, the present disclosure is related to a pick-and-place apparatus for receiving this carrier tape and for picking and placing the electrical components arranged in the carrier tape. The carrier tape according to an aspect of the present disclosure includes an adhesive film that forms a bottom wall of the cavities in which a plurality of electrical components is arranged. The adhesive of the adhesive film is configured to substantially release the attachment of the electrical component as a result of heating the adhesive and/or as a result of irradiating the adhesive using light, such as visible light, infrared light, or ultraviolet light, for the purpose of allowing the electrical component to be removed from the cavity using a pick-and-place apparatus.

A laminate having an adhesive layer, which exhibits excellent adhesion to base films made from polyimide resins and the like or copper foils, as well as superior electrical properties, and also providing a laminate having an adhesive layer, which is low in warpage when the adhesive layer is in B stage, and which is excellent in storage stability of the laminate. The laminate having an adhesive layer includes a base film and an adhesive layer formed on at least one of the surfaces of the base film, in which the adhesive layer is formed of an adhesive composition comprising a carboxyl group-containing styrene based elastomer and an epoxy resin, wherein the content of the carboxyl group-containing styrene based elastomer is 50 parts by mass or more relative to 100 parts by mass of the solid content of the adhesive composition; the content of the epoxy resin is from 1 to 20 parts by mass relative to 100 parts by mass of the carboxyl group-containing styrene based elastomer; and the adhesive layer is in B-stage.

A laminate having an adhesive layer, which exhibits excellent adhesion to base films made from polyimide resins and the like or copper foils, as well as superior electrical properties, and also providing a laminate having an adhesive layer, which is low in warpage when the adhesive layer is in B stage, and which is excellent in storage stability of the laminate. The laminate having an adhesive layer includes a base film and an adhesive layer formed on at least one of the surfaces of the base film, in which the adhesive layer is formed of an adhesive composition comprising a carboxyl group-containing styrene based elastomer and an epoxy resin, wherein the content of the carboxyl group-containing styrene based elastomer is 50 parts by mass or more relative to 100 parts by mass of the solid content of the adhesive composition; the content of the epoxy resin is from 1 to 20 parts by mass relative to 100 parts by mass of the carboxyl group-containing styrene based elastomer; and the adhesive layer is in B-stage.

The present invention relates to biocide-composites providing high retention of biocides in glueline-treated glued-wood products that are hot-pressed or hot-pressed and block-stacked during manufacture.

The present invention relates to biocide-composites providing high retention of biocides in glueline-treated glued-wood products that are hot-pressed or hot-pressed and block-stacked during manufacture.

A laminate debonding method includes producing a laminate by joining a first substrate formed of a semiconductor-forming substrate to a second substrate formed of a support substrate which allows passage of infrared laser light, by the mediation of a first adhesive layer provided on the first substrate and a second adhesive layer provided on the second substrate, wherein the first adhesive layer is obtained by curing an adhesive (A) containing a component which is cured through hydrosilylation, and the second adhesive layer is obtained by use of an adhesive (B) formed of a polymer adhesive having an aromatic ring in at least one of a main chain and a side chain and which allows passage of infrared laser light; and irradiating the laminate with infrared laser light from a second substrate side for debonding the second substrate at the interface between the first and second adhesive layers.

A laminate debonding method includes producing a laminate by joining a first substrate formed of a semiconductor-forming substrate to a second substrate formed of a support substrate which allows passage of infrared laser light, by the mediation of a first adhesive layer provided on the first substrate and a second adhesive layer provided on the second substrate, wherein the first adhesive layer is obtained by curing an adhesive (A) containing a component which is cured through hydrosilylation, and the second adhesive layer is obtained by use of an adhesive (B) formed of a polymer adhesive having an aromatic ring in at least one of a main chain and a side chain and which allows passage of infrared laser light; and irradiating the laminate with infrared laser light from a second substrate side for debonding the second substrate at the interface between the first and second adhesive layers.