An adhesive sheet of an embodiment of the present disclosure is an adhesive sheet including: a rigid resin film having a thickness of 80 micrometers to 500 micrometers, and a first pressure sensitive adhesive layer being disposed on or above a surface of the rigid resin film, wherein the first pressure sensitive adhesive layer includes elastic resin microspheres having a volume average particle diameter of 110 micrometers or greater and a tacky binder, and the first pressure sensitive adhesive layer has an uneven surface due to the presence of the microspheres.

A multi-layer composition to be located onto a substrate. The composition comprises a bi-layer construction, including a first layer and a second layer, the first layer having a high elastic modulus and tensile strength in comparison to the second layer. The second layer includes a blowing agent such that, when cured, the first layer is spaced away from the substrate. The compositions of the first layer and second layer are similar, thus enabling the reconstitution of scrap into usable material for forming another multi-layer reinforcement.

An adhesive film includes a base material layer, an adhesive resin layer (A) provided on a first surface side of the base material layer, and an adhesive resin layer (B) provided on a second surface side of the base material layer and of which an adhesive force is reduced by an external stimulus. When a mass of the adhesive film after heating and drying at 130° C. for 30 minutes is defined as W1 and the mass of the adhesive film after the heated and dried adhesive film is left for 24 hours at 25° C. under an atmosphere of 50% RH to absorb water is defined as W2, an average water absorption rate indicated by 100×(W2−W1)/W1 is 0.90% by mass or less.

A joint sealing system for prefabricated building components is provided. The joint sealing system includes a first component including a first surface, and a second component including a second surface that is mateable with the first surface. The first and second surfaces define a joint. A sealant composition is disposed on one of the first surface or the second surface. Pressure exerted when the second surface is mated with the first surface triggers curing of the sealant composition to join the first and second components and to seal the joint between the first and second components. A method of joining and sealing two prefabricated building components is also provided.

A device comprising an adhesive material and a fiberglass mesh located in direct planar contact with the adhesive material. The adhesive material is tacky in its green state and includes an epoxy, an epoxidized cashew nut shell oil, and at least about 20% by weight of a component containing a core shell polymer material to improve the adhesion capability to surfaces that are contaminated and/or exposed to high pressure spraying or chemical treatments, heat and humidity.

A pressure-sensitive adhesive tape (10) has a base material (11), and a pressure-sensitive adhesive layer (20) provided on the surface (11A) of the base material (11) and containing cells (21) in the inside thereof, wherein the cells (21) include first cells (21A) contacting with the surface (11A) of the base material (11) and second cells (21B) disposed at positions away from the surface (11A) of the base material (11). Thereby, even when the cells (21) are made to be much contained in the pressure-sensitive adhesive layer (20) and the amount of a pressure-sensitive adhesive is made small, a high pressure-sensitive adhesive performance of the pressure-sensitive adhesive tape (10) is retained.

Provided is a thermosetting adhesive including: a polyurethane; an isocyanate; an epoxy; and a phenoxy resin, in which dynamic viscoelasticity spectrum of a cured product has a peak indicating a softening temperature in an area of 200° C. or higher and has no peak in an area of 160° C. or lower.

The present disclosure is directed to a multilayer pressure sensitive adhesive (PSA) assembly, comprising at least one pressure sensitive adhesive layer and a polymeric foam layer, wherein the pressure sensitive adhesive layer comprises a pressure-sensitive adhesive composition comprising a reaction product of a polymerizable material comprising: a) 2-propylheptyl acrylate as a first monomer; and optionally b) a second monomer having an ethylenically unsaturated group. The present disclosure is also directed to a method of manufacturing such a multilayer PSA assembly.

The present invention relates to an adhesive tape of thickness 40 to 300 μm that can be redetached without residue or destruction by stretching essentially in the plane of the bond, comprising at least one carrier of thickness 10 to 150 μm comprising at least one layer based on preferably uncrosslinked thermoplastic polyurethane that has typically been produced by means of extrusion and has a Shore A hardness of not more than 87, where the carrier has a ratio of force at 400% elongation F.sub.400% to breaking force F.sub.break of not more than 45%, and on which a pressure-sensitive adhesive layer is disposed on at least one side, and wherein the adhesive tape has a ratio of stripping force F.sub.strip to breaking force F.sub.break of less than 60%. The invention also relates to an adhesive tape of thickness 40 to 300 μm that can be redetached without residue or destruction by stretching essentially in the plane of the bond, comprising at least one carrier of thickness 10 to 150 μm comprising at least one layer based on preferably uncrosslinked polyurethane that has been produced from a dispersion and has a modulus at 100% elongation of not more than 1.8 MPa, where the carrier has a ratio of force at 400% elongation F.sub.400% to breaking force F.sub.break of not more than 30%, and on which a pressure-sensitive adhesive layer is disposed on at least one side, and wherein the adhesive tape has a ratio of stripping force F.sub.strip to breaking force F.sub.break of less than 60%. The invention also relates to a process for producing the adhesive tapes and to the use thereof for bonding of components in electronic devices.

The present disclosure relates to a co-extruded multilayer adhesive assembly comprising: a) a heat-activatable adhesive resin layer comprising a (co)polymer of one or more monomers selected from the group consisting of olefins; and b) a pressure sensitive adhesive polymeric foam layer comprising a rubber-based elastomeric material; wherein the heat-activatable adhesive resin layer is in direct contact with the pressure sensitive adhesive foam layer, and wherein the surface of the heat-activatable adhesive resin layer which is in direct contact with the pressure sensitive adhesive foam layer and the surface of the pressure sensitive adhesive foam layer which is indirect contact with the heat-activatable adhesive resin layer are free of any chemical or physical adhesion-promoting surface treatment. The present disclosure also relates to a method of manufacturing such a co-extruded multilayer adhesive assembly and uses thereof.