The present invention relates to an aqueous, solids-containing dipping bath composition for treating reinforcing inserts for rubber products comprising the following components or consisting of these components, (A) at least one blocked MDI mixture, the MDI mixture comprising MDI oligomers of formula (I), n being a whole number from 1 to 8, and MDI monomers; (B) at least one latex; (C) at least one compound selected from the group consisting of polyacrylates, lignin derivatives and mixtures hereof; and (D) possibly at least one additive; the dipping bath composition being essentially free of epoxides, and the dipping bath composition being essentially free of resorcinol, formaldehyde and the reaction products thereof.

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A method for making a fiber electrically conductive comprises the steps of: (a) providing a fiber having a negative electric charge at the surface of the fiber, (b) applying to the fiber a substance (such as a polyelectrolyte) which provides a layer of said substance on the fiber and changes the electric charge at the surface of the fiber from negative to positive, wherein said substance is not chitosan, and (c) making the surface of the fiber electrically conductive with a metal, wherein the metal of step (c) is provided in the form of metal ions and wherein a reducing agent (for example) is employed to reduce the metal ions to elemental metal. Fabrics formed from conductive fibers are also provided.

A method for making a fiber electrically conductive comprises the steps of: (a) providing a fiber having a negative electric charge at the surface of the fiber, (b) applying to the fiber a substance (such as a polyelectrolyte) which provides a layer of said substance on the fiber and changes the electric charge at the surface of the fiber from negative to positive, wherein said substance is not chitosan, and (c) making the surface of the fiber electrically conductive with a metal, wherein the metal of step (c) is provided in the form of metal ions and wherein a reducing agent (for example) is employed to reduce the metal ions to elemental metal. Fabrics formed from conductive fibers are also provided.

A silicone-(meth) acrylate copolymer (copolymer) and methods for its preparation are provided. The copolymer may be prepared by emulsion polymerization or via other means. An emulsion formulation containing the copolymer is suitable for treating a textile.

The present disclosure provides for improved material surface modification. In one aspect, the present disclosure provides a method of surface modifying a material, the method comprising the steps of (1) oxidizing the material such that the oxidation level of the surface of the material is in a specific numerical range when measured by X-ray photoelectron spectroscopy (XPS), (2) (A) grafting the oxidized material and/or (B) coating the oxidized material with a hydrophilic polymer. In one aspect, the present disclosure provides a method of producing a fiber composite material in which the fiber material is contained within the second material, the method comprising the steps of (1) oxidizing at least one of the fiber material and the second material, (2) interface adhering or bonding the fiber material and the second material after the oxidizing step (3) melting the second material to obtain the fiber composite material.

A system and method for applying a polymer surface treatment to carpets and other textiles is provided. The system and method include the use of a surfactant-free emulsion of a surface treatment polymer. The use of the surfactant-free emulsion of a surface treatment polymer reduces or eliminates the need to use pH adjusting agents and/or ionic salt solutions when applying surface treatment polymers to carpets or other textiles. By reducing the need to remove surfactants, emulsifiers, pH adjusting agents, and/or salts, the total volume of water used in treating carpets or other textiles is reduced.

The present invention relates to a biomaterial fabrication process for the manufacture of a collagen based fabric for an aligned collagen fiber network.

In a first aspect, the present disclosure relates to a facial mask comprising a carrier material and a thermoresponsive material configured to release water above a threshold temperature and absorb water below a threshold temperature, wherein the facial mask exhibits a thermal conductivity of at least 0.1 W/mK at 20? C., when the facial mask is saturated with water.

A surface treatment agent which is a water-repellent agent, includes (1) a fluorine-free block copolymer, and (2) a liquid medium which is an organic solvent, water, or a mixture of water and an organic solvent. The non-fluorinated block copolymer includes at least one block segment (A) which includes a repeating unit formed from one or more types of acrylic monomer having a long-chain hydrocarbon group containing 12-40 carbon atoms. The non-fluorinated block copolymer preferably contains a segment (B) constituted by at least one of: (B1) a block segment including a repeating unit, different from that of segment (A), that is formed from an acrylic monomer having a long-chain hydrocarbon group including 12-40 carbon atoms; (B2) a block segment including a repeating unit formed from an acrylic monomer not having a long-chain hydrocarbon group; and (B3) a random segment formed from at least two types of acrylic monomers.

A carbon fiber bundle for resin reinforcement, wherein there are adhered by 0.1-5.0 mass % to a carbon fiber bundle in which multiple lengths of filament are bundled, a mixture created by mixing an organic polymer (A) having a mass-average molecular weight of 10000 or more and an organic compound (B) the thermal reduction rate specified in claim 1 of which is 5 mass % or more or an organic compound (B) the thermal reduction rate specified in claim 2 of which is 0.8 mass % or more, the amount of the organic polymer (A) adhered being 0.1 mass % or more.