There are provided a silyl-terminated resin composition and a method for producing the same, the silyl-terminated resin composition being superior in storage stability before curing and providing a cured product which has a low initial modulus and can maintain the low modulus even after a heat-accelerated test. The silyl-terminated resin composition comprises a surface-treated calcium carbonate and a silyl-terminated resin, wherein the surface-treated calcium carbonate is obtained by surface-treating calcium carbonate having a BET specific surface area in the range of 1 m.sup.2/g to 60 m.sup.2/g with a fatty acid, and has an alkali metal content in the range of 500 μg/g to 2000 μg/g and the free fatty acid as determined by ethanol extraction in the range of 1.8 to 2.5% by mass.

Methods for producing proppants with a fluorinated polyurethane proppant coating are provided. The methods include coating the proppant particles with a strengthening agent, a strengthening agent, and a resin to produce proppants with fluorinated polyurethane proppant coating. Additionally, a proppant comprising a proppant particle and a fluorinated polyurethane proppant coating is provided. The fluorinated polyurethane proppant coating includes a strengthening agent, a strengthening agent, and a resin. The fluorinated polyurethane proppant coating coats the proppant particle. Additionally, a method for increasing a rate of hydrocarbon production from a subsurface formation through the use of the proppants is provided.

A two-component adhesive composition is provided. The two-component adhesive composition comprises an isocyanate component, an isocyanate-reactive component and an amine-epoxy adduct, and can achieve superior adhesion strength between the adhesive and a substrate like metal alloy substrate. A laminated article prepared with said composition, a method for preparing the article and the use of the amine-epoxy adduct as adhesion promoter in a two-component polyurethane adhesive composition are also provided.

Provided is a display device including an adhesion reduction layer having a micro protrusion pattern capable of identification of the authenticity of at least one product from among a window, a touch screen and a display, which are freely detachable and are obtained via different channels, and a pattern engraved thereon. The display device includes a window, a display, and optionally a touch screen, and comprises an adhesion reduction layer having a micro protrusion pattern. The device comprises: a detachable layer which is positioned on at least one from among the window, the touch screen and the display and has an adhesive force of 0.1 gf/25 mm to 500 gf/25 mm; and a pattern made by a micro protrusion formed on part of the adhesion reduction layer which is positioned on any one from among the window, the touch screen and the display so as to face the detachable layer.

The invention relates to a curable two- or multi-part composition with (a) optionally an at least bifunctional epoxy-containing compound; (b) an at least bifunctional nitrogen-based curing agent suitable for epoxy curing; (c) a radiation-curable hybrid compound having both one or more radiation-curable methacrylate groups and one or more epoxy groups; (d) a radical photoinitiator; (e) optionally an accelerator for epoxy curing, and (f) optionally further additives. In addition, the invention relates to a method for the bonding, casting, molding or coating of substrates using the composition.

Methods for producing proppants with a fluorinated polyurethane proppant coating are provided. The methods include coating the proppant particles with a strengthening agent, a strengthening agent, and a resin to produce proppants with fluorinated polyurethane proppant coating. Additionally, a proppant comprising a proppant particle and a fluorinated polyurethane proppant coating is provided. The fluorinated polyurethane proppant coating includes a strengthening agent, a strengthening agent, and a resin. The fluorinated polyurethane proppant coating coats the proppant particle. Additionally, a method for increasing a rate of hydrocarbon production from a subsurface formation through the use of the proppants is provided.

Provided is a display device including an adhesion reduction layer having a micro protrusion pattern capable of identification of the authenticity of at least one product from among a window, a touch screen and a display, which are freely detachable and are obtained via different channels, and a pattern engraved thereon. The display device includes a window, a display, and optionally a touch screen, and comprises an adhesion reduction layer having a micro protrusion pattern. The device comprises: a detachable layer which is positioned on at least one from among the window, the touch screen and the display and has an adhesive force of 0.1 gf/25 mm to 500 gf/25 mm; and a pattern made by a micro protrusion formed on part of the adhesion reduction layer which is positioned on any one from among the window, the touch screen and the display so as to face the detachable layer.

There are provided a silyl-terminated resin composition and a method for producing the same, the silyl-terminated resin composition being superior in storage stability before curing and providing a cured product which has a low initial modulus and can maintain the low modulus even after a heat-accelerated test. The silyl-terminated resin composition comprises a surface-treated calcium carbonate and a silyl-terminated resin, wherein the surface-treated calcium carbonate is obtained by surface-treating calcium carbonate having a BET specific surface area in the range of 1 m.sup.2/g to 60 m.sup.2/g with a fatty acid, and has an alkali metal content in the range of 500 g/g to 2000 g/g and the free fatty acid as determined by ethanol extraction in the range of 1.8 to 2.5% by mass.

The present application relates to an acrylic resin suitable for two-component polyurethane coating applications. Provided herein is an acrylic resin comprising at least one epoxy silane oligomer, wherein the epoxy silane oligomer is grafted onto at least one hydroxy group of the acrylic resin; wherein the at least one hydroxy group of the acrylic resin has at least one ureido functionality; and wherein the at least one hydroxy group of the acrylic resin has at least one acid group. A two-component coating system is also disclosed comprising the acrylic resin comprising at least one hydroxy group with at least one epoxy silane oligomer, wherein the at least one hydroxy group of the acrylic resin has at least one ureido functionality.

Compositions comprising Silane functionalized compounds are provided. In one embodiment, the silane functionalized compounds include an epoxy resin derived backbone having silane functional groups pendant to the backbone or serving as end caps. The compositions comprising silane functionalized compounds may be utilized in a variety of applications including in coating formulations, adhesive formulations, composite materials, and combinations thereof.