Disclosed is a rubber composition for footwear. The rubber composition may comprise from 3 phr to 90 phr of a first rubber component, from 5 phr to 100 phr of a second rubber component, from 1 phr to 10 phr of a tackifying resin, from 10 phr to 60 phr of a reinforcing filler component, from 1 phr to about 10 phr of a plasticizer component, from 0.1 phr to 5 phr of a curing component. The rubber composition may exhibit a wet coefficient of friction of from 0.4 to 0.65 when tested in accordance with SATRA TM144, a dry coefficient of friction of from 0.76 to 0.90 when tested in accordance with SATRA TM144, and a DIN abrasion of 140 to 300 when tested in accordance with DIN 53616.

Disclosed is a rubber composition for footwear. The rubber composition may comprise from 3 phr to 90 phr of a first rubber component, from 5 phr to 100 phr of a second rubber component, from 1 phr to 10 phr of a tackifying resin, from 10 phr to 60 phr of a reinforcing filler component, from 1 phr to about 10 phr of a plasticizer component, from 0.1 phr to 5 phr of a curing component. The rubber composition may exhibit a wet coefficient of friction of from 0.4 to 0.65 when tested in accordance with SATRA TM144, a dry coefficient of friction of from 0.76 to 0.90 when tested in accordance with SATRA TM144, and a DIN abrasion of 140 to 300 when tested in accordance with DIN 53616.

A slidable rubber material that has an amino-modified interfacial layer that does not affect the compression set. Although the slidable rubber material includes a rubber component such as a butyl rubber or halogenated butyl rubber etc. having the low-compression set, which contains a vulcanization agent such as a nitrogen/sulfur compound or a vulcanizing auxiliary agent, the rubber part is coated with a silicone rubber layer. The slidable rubber material exhibits a slidability and resists the detachment or elution of fine particles from the coating layer. A rubber component and a vulcanization agent; an interfacial modification layer that coats the rubber part and an amino-modified silicone compound is incorporated with surface molecules of the rubber part; and a layer that coats the interfacial modification and contains solid fine particles, an addition-type or condensation-type silicone rubber in which the particles are dispersed, and a curing catalyst for silicone rubber.

A slidable rubber material that has an amino-modified interfacial layer that does not affect the compression set. Although the slidable rubber material includes a rubber component such as a butyl rubber or halogenated butyl rubber etc. having the low-compression set, which contains a vulcanization agent such as a nitrogen/sulfur compound or a vulcanizing auxiliary agent, the rubber part is coated with a silicone rubber layer. The slidable rubber material exhibits a slidability and resists the detachment or elution of fine particles from the coating layer. A rubber component and a vulcanization agent; an interfacial modification layer that coats the rubber part and an amino-modified silicone compound is incorporated with surface molecules of the rubber part; and a layer that coats the interfacial modification and contains solid fine particles, an addition-type or condensation-type silicone rubber in which the particles are dispersed, and a curing catalyst for silicone rubber.

The disclosure relates to a rubber mixture which contains at least one fluorine rubber and at least one active filler and carbon nanotubes. The rubber mixture has an additionally improved tear propagation resistance and, at the same time, improved processability. The disclosure further relates to a hose having at least the following layer structure: an inner layer as a barrier layer against aggressive media, which contains at least one fluorine rubber and at least one active filler and carbon nanotubes; and, an outer layer made of a cross-linked rubber mixture.

The disclosure relates to a rubber mixture which contains at least one fluorine rubber and at least one active filler and carbon nanotubes. The rubber mixture has an additionally improved tear propagation resistance and, at the same time, improved processability. The disclosure further relates to a hose having at least the following layer structure: an inner layer as a barrier layer against aggressive media, which contains at least one fluorine rubber and at least one active filler and carbon nanotubes; and, an outer layer made of a cross-linked rubber mixture.

A method for improving the heat stability or heat resistance of a cured fluorosilicone elastomer is disclosed. The method comprises I) mixing a stabilizer with a fluorosilicone elastomer base and a cure agent, to form a curable fluorosilicone elastomer composition. The stabilizer comprises B1) yellow iron oxide, and B2) optionally, an acid acceptor. The method further comprises II) vulcanizing the fluorosilicone elastomer composition containing the stabilizer.

A method for improving the heat stability or heat resistance of a cured fluorosilicone elastomer is disclosed. The method comprises I) mixing a stabilizer with a fluorosilicone elastomer base and a cure agent, to form a curable fluorosilicone elastomer composition. The stabilizer comprises B1) yellow iron oxide, and B2) optionally, an acid acceptor. The method further comprises II) vulcanizing the fluorosilicone elastomer composition containing the stabilizer.

Used is an electro-conductive member for electrophotography including: a support having an electro-conductive outer surface; and an electro-conductive layer on the outer surface of the support, wherein the electro-conductive layer includes: a matrix containing a first crosslinked rubber product and having a volume resistivity greater than 1.0×10.sup.12 Ωcm; and domains dispersed in the matrix, wherein the domain includes a second crosslinked rubber product and an electron conductive agent; and the electro-conductive layer includes a region T in which the volume resistivity of the matrix decreases in a depth direction from the outer surface of the electro-conductive member.

Provided is a tire that prevents a polyurethane foam layer from discoloring to brown. A tire comprises: a polyurethane foam layer laminated on an outer layer of the tire with a barrier layer therebetween, wherein the polyurethane foam layer contains a polyurethane foam, and the barrier layer is formed from a rubber composition containing butyl rubber as a rubber component.