The present disclosure relates to a curable pressure sensitive adhesive composition comprising: a) a butyl rubber component in an amount greater than 40 wt %; b) a tackifier in an amount greater than 1 wt %; c) a multifunctional crosslinking agent comprising at least two nitroso functional groups; and d) optionally, a hydrocarbon plasticizer; wherein the weight percentages are based on the total weight of the curable pressure sensitive adhesive composition. In another aspect, the present disclosure is directed to a method for protecting an electronic device or an electronic component from moisture and air permeation, wherein the method comprises the step of using a pressure sensitive adhesive composition as described above. According to still another aspect, the present disclosure is directed to the use of a pressure sensitive adhesive composition as described above for manufacturing an electronic device.

Provided are a cap tread rubber composition for cold weather tires providing a balanced improvement in fuel economy, abrasion resistance, chipping resistance, performance on ice and snow during high-speed running, and high-speed performance (handling stability, grip performance) on snow/ice-free cold roads, and a cold weather tire formed therefrom. The rubber composition contains: a rubber component including an isoprene-based rubber, BR, and SBR; silica; and a plasticizer, the isoprene-based rubber and the BR being present in a combined amount of 80% by mass or more, the BR being present in an amount of 30% by mass or more, the SBR being present in an amount of 0.3-10% by mass, each based on 100% by mass of the rubber component, the rubber composition containing, per 100 parts by mass of the rubber component, 120 parts by mass or more of the silica and 50 parts by mass or more of the plasticizer.

Provided are a cap tread rubber composition for cold weather tires providing a balanced improvement in fuel economy, abrasion resistance, chipping resistance, performance on ice and snow during high-speed running, and high-speed performance (handling stability, grip performance) on snow/ice-free cold roads, and a cold weather tire formed therefrom. The rubber composition contains: a rubber component including an isoprene-based rubber, BR, and SBR; silica; and a plasticizer, the isoprene-based rubber and the BR being present in a combined amount of 80% by mass or more, the BR being present in an amount of 30% by mass or more, the SBR being present in an amount of 0.3-10% by mass, each based on 100% by mass of the rubber component, the rubber composition containing, per 100 parts by mass of the rubber component, 120 parts by mass or more of the silica and 50 parts by mass or more of the plasticizer.

Provided are a resin composition, a pellet, a veil, a vibration damping material, a sound insulator, and an intermediate film for laminated glass, each of which is much more excellent in damping properties. Specifically, the resin composition is a resin composition containing the following block copolymer or hydrogenation product thereof (X); and a tackifier resin (Y) having a glass transition temperature of 50 to 45 C., wherein when a glass transition temperature of a polymer block (B) of the block copolymer or hydrogenation product thereof (X) is designated as Tg(X), and a glass transition temperature of the tackifier resin (Y) is designated as Tg(Y), an absolute value of a difference between Tg(X) and Tg(Y) is 50 C. or lower, the block copolymer or hydrogenation product thereof (X) being a block copolymer or a hydrogenation product thereof having 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, and the content of the polymer block (A) in the block copolymer being 25% by mass or less.

The present disclosure relates to a rubber composition that includes an aromatic-compound based resin and a styrene-butadiene copolymer and a tire using the same as the tread rubber or a component thereof. The rubber composition provides improved wet traction.

The present disclosure relates to a rubber composition that includes an aromatic-compound based resin and a styrene-butadiene copolymer and a tire using the same as the tread rubber or a component thereof. The rubber composition provides improved wet traction.

The present invention provides a tread rubber composition that is excellent in wet grip performance during the initial phase of running and tensile properties, and a pneumatic tire including the tread rubber composition. The present invention relates to a tread rubber composition containing: a diene rubber; silica; and sulfur and/or a sulfur-containing compound, the tread rubber composition satisfying the following relationships (1) to (3):

EB/M30050 (1);

M1001.7 MPa (2); and

EB500% (3).

The present invention provides a tread rubber composition that is excellent in wet grip performance during the initial phase of running and tensile properties, and a pneumatic tire including the tread rubber composition. The present invention relates to a tread rubber composition containing: a diene rubber; silica; and sulfur and/or a sulfur-containing compound, the tread rubber composition satisfying the following relationships (1) to (3):

EB/M30050 (1);

M1001.7 MPa (2); and

EB500% (3).

Rubber compositions having a modified rubber component selected from a modified polybutadiene rubber, a modified styrene-butadiene rubber, or combinations thereof, the modification being with a functional group having a hydrogen bond acceptor atom. Such functional group may be selected from a pyridine, a pyrrolidone, an ether, a ketone or an epoxide, the rubber composition having a Tg of between 80 C. and 110 C. The rubber composition may include an efficient plasticizing resin, which when included in a mixture consisting of the modified rubber component and 67 phr of the efficient plasticizing resin, causes a Tg of the mixture to be at least 14 C. higher than the Tg of the modified rubber component. The rubber composition may described as having the hydrogen bond acceptor atom located at least two covalent bond lengths or alternatively three covalent bond lengths from a backbone of the modified rubber component.

Rubber compositions having a modified rubber component selected from a modified polybutadiene rubber, a modified styrene-butadiene rubber, or combinations thereof, the modification being with a functional group having a hydrogen bond acceptor atom. Such functional group may be selected from a pyridine, a pyrrolidone, an ether, a ketone or an epoxide, the rubber composition having a Tg of between 80 C. and 110 C. The rubber composition may include an efficient plasticizing resin, which when included in a mixture consisting of the modified rubber component and 67 phr of the efficient plasticizing resin, causes a Tg of the mixture to be at least 14 C. higher than the Tg of the modified rubber component. The rubber composition may described as having the hydrogen bond acceptor atom located at least two covalent bond lengths or alternatively three covalent bond lengths from a backbone of the modified rubber component.