A laminate comprising a substrate layer; a contact adhesive layer comprising a contact adhesive agent having at least one of chloroprene rubber or acrylic copolymers, as well as microspheres having an average particle size of 0.5 μm or greater in the contact adhesive layer, wherein the contact adhesive layer contains from 5 parts by mass to 500 parts by mass of the microspheres per 100 parts by mass of the contact adhesive agent, and the contact adhesive layer has a plurality of protruding portions because of the the microspheres.

An adhesive kit 1 separately includes a main agent layer 2 containing a polyamine component, and a curing agent layer 3 containing a polyisocyanate component. When the main agent layer 2 is reacted with the curing agent layer 3, the reactive parameter Pr exceeds 40% and the diffusion parameter Pd exceeds 15%.

An adhesive kit 1 separately includes a main agent layer 2 containing a polyamine component, and a curing agent layer 3 containing a polyisocyanate component. When the main agent layer 2 is reacted with the curing agent layer 3, the reactive parameter Pr exceeds 40% and the diffusion parameter Pd exceeds 15%.

A surface activated bonding method by ion or atom bombardment of a first surface of a first substrate to a second surface of a second substrate, the material of the first substrate at the first surface including at least two chemical species, one of which, called the species of interest, becomes depleted upon activation by ion or atom bombardment, the method including depositing a layer of the species of interest onto the first surface of the first substrate; activating the first surface by bombarding the first surface with an ion or atom beam so as to consume the entire previously deposited layer of species; and activating the second surface by bombarding the second surface with an ion or atom beam; and contacting the first surface of the first substrate with the second surface of the second substrate.

A surface activated bonding method by ion or atom bombardment of a first surface of a first substrate to a second surface of a second substrate, the material of the first substrate at the first surface including at least two chemical species, one of which, called the species of interest, becomes depleted upon activation by ion or atom bombardment, the method including depositing a layer of the species of interest onto the first surface of the first substrate; activating the first surface by bombarding the first surface with an ion or atom beam so as to consume the entire previously deposited layer of species; and activating the second surface by bombarding the second surface with an ion or atom beam; and contacting the first surface of the first substrate with the second surface of the second substrate.

A water-based adhesive which comprises a dispersed polymer and an emulsified silicone resin polymer. The adhesive is postcrosslinkable via reactive groups.

A water-based adhesive which comprises a dispersed polymer and an emulsified silicone resin polymer. The adhesive is postcrosslinkable via reactive groups.

Described herein are glass articles and methods of making glass articles, comprising a thin sheet and a carrier, wherein the thin sheet and carrier or bonded together using a coating layer, which is preferably an organosiloxane polymer coating layer, and associated deposition methods and inert gas treatments that may be applied on the thin sheet, the carrier, or both, to control van der Waals, hydrogen and covalent bonding between the thin sheet and the carrier. The coating layer bonds the thin sheet and carrier together to prevent a permanent bond at high temperature processing while at the same time maintaining a sufficient bond to prevent delamination during high temperature processing.

Described herein are glass articles and methods of making glass articles, comprising a thin sheet and a carrier, wherein the thin sheet and carrier or bonded together using a coating layer, which is preferably an organosiloxane polymer coating layer, and associated deposition methods and inert gas treatments that may be applied on the thin sheet, the carrier, or both, to control van der Waals, hydrogen and covalent bonding between the thin sheet and the carrier. The coating layer bonds the thin sheet and carrier together to prevent a permanent bond at high temperature processing while at the same time maintaining a sufficient bond to prevent delamination during high temperature processing.

An adhesion method including: a step (1), disposing a stickable-curable adhesive layer on a first adherend; a step (2), disposing a curing agent layer on a second adherend, the curing agent layer being able to cure the stickable-curable adhesive layer by contacting and reacting with the stickable-curable adhesive layer; and a step (3), bringing the stickable-curable adhesive layer into contact with the curing agent layer so that they are sandwiched by the first adherend and the second adherend.