An object of the present invention is to provide a sizing agent composition that gives a carbon fiber from which a carbon fiber-reinforced composite material having excellent adhesion between a resin and the carbon fiber and having excellent mechanical properties can be formed. The sizing agent composition of the invention is a sizing agent composition comprising (A) a blocked isocyanate, and (B) a compound containing at least one polar group and at least one unsaturated group per molecule. In the invention, the mixing ratio (mass ratio) of the blocked isocyanate (A) and the compound (B) containing at least one polar group and at least one unsaturated group per molecule (A/B) is preferably 95/5 to 5/95. In the invention, the blocked isocyanate (A) is preferably a compound having an aliphatic skeleton.

The present invention is a liquid detergent composition for textile products containing (a) a surfactant, (b) an alcohol with 10 or more and 16 or less carbons and (c) an antibacterial compound having an aromatic ring (excluding quaternary ammonium salts).

A conductive agent can be filled in a sprayer and sprayed onto the surface of a fabric to form a conductive portion thereon. The conductive agent includes sodium hydroxide, carbomer, glycerin, disinfectant and water. The percentage by weight of sodium hydroxide is 0.15% to 0.25% of the conductive agent; the percentage by weight of carbomer is 0.45% to 0.55% of the conductive agent; the percentage by weight of the glycerin is 0.90% to 1.10% of the conductive agent; the percentage by weight of disinfectant is 0.03% to 0.07% of the conductive agent.

A conductive agent can be filled in a sprayer and sprayed onto the surface of a fabric to form a conductive portion thereon. The conductive agent includes sodium hydroxide, carbomer, glycerin, disinfectant and water. The percentage by weight of sodium hydroxide is 0.15% to 0.25% of the conductive agent; the percentage by weight of carbomer is 0.45% to 0.55% of the conductive agent; the percentage by weight of the glycerin is 0.90% to 1.10% of the conductive agent; the percentage by weight of disinfectant is 0.03% to 0.07% of the conductive agent.

A conductive agent can be filled in a sprayer and sprayed onto the surface of a fabric to form a conductive portion thereon. The conductive agent includes sodium hydroxide, carbomer, glycerin, disinfectant and water. The percentage by weight of sodium hydroxide is 0.15% to 0.25% of the conductive agent; the percentage by weight of carbomer is 0.45% to 0.55% of the conductive agent; the percentage by weight of the glycerin is 0.90% to 1.10% of the conductive agent; the percentage by weight of disinfectant is 0.03% to 0.07% of the conductive agent.

A conductive agent can be filled in a sprayer and sprayed onto the surface of a fabric to form a conductive portion thereon. The conductive agent includes sodium hydroxide, carbomer, glycerin, disinfectant and water. The percentage by weight of sodium hydroxide is 0.15% to 0.25% of the conductive agent; the percentage by weight of carbomer is 0.45% to 0.55% of the conductive agent; the percentage by weight of the glycerin is 0.90% to 1.10% of the conductive agent; the percentage by weight of disinfectant is 0.03% to 0.07% of the conductive agent.

An object of the present invention is to provide a sizing agent composition that gives a carbon fiber from which a carbon fiber-reinforced composite material having excellent adhesion between a resin and the carbon fiber and having excellent mechanical properties can be formed. The sizing agent composition of the invention is a sizing agent composition comprising (A) a blocked isocyanate, and (B) a compound containing at least one polar group and at least one unsaturated group per molecule. In the invention, the mixing ratio (mass ratio) of the blocked isocyanate (A) and the compound (B) containing at least one polar group and at least one unsaturated group per molecule (A/B) is preferably 95/5 to 5/95. In the invention, the blocked isocyanate (A) is preferably a compound having an aliphatic skeleton.

The invention provides a silver-plated conductive nylon fiber and a preparation method thereof. The method includes: immersing a nylon fiber in an aqueous solution containing a polyphenolic compound at 60 C. to 70 C., adding a water-soluble oxidant into the solution, continuously reacting at 70 C. to 80 C., and obtaining a polyphenol grafted nylon fiber, where the polyphenolic compound contains a catechol group; immersing the polyphenol grafted nylon fiber into a solution containing silver ions at 15 C. to 25 C. for reaction, and raising the temperature to 70 C. to 80 C. for continuous reaction to obtain a surface-activated nylon fiber; and carrying out chemical silver plating treatment on the surface-activated nylon fiber to obtain the silver-plated conductive nylon fiber. The method does not require a heavy metal sensitizer and therefore is non-toxic and environment-friendly, and the fiber strength is maintained.

The invention provides a silver-plated conductive nylon fiber and a preparation method thereof. The method includes: immersing a nylon fiber in an aqueous solution containing a polyphenolic compound at 60 C. to 70 C., adding a water-soluble oxidant into the solution, continuously reacting at 70 C. to 80 C., and obtaining a polyphenol grafted nylon fiber, where the polyphenolic compound contains a catechol group; immersing the polyphenol grafted nylon fiber into a solution containing silver ions at 15 C. to 25 C. for reaction, and raising the temperature to 70 C. to 80 C. for continuous reaction to obtain a surface-activated nylon fiber; and carrying out chemical silver plating treatment on the surface-activated nylon fiber to obtain the silver-plated conductive nylon fiber. The method does not require a heavy metal sensitizer and therefore is non-toxic and environment-friendly, and the fiber strength is maintained.

Insect repellent compositions are provided for resilient use in fabrics. Compositions include an alcohol solvent and an ethoxylated oil mixed with an insecticidal pyrethroid of at least 25% of the composition. Permethrin, benzyl alcohol, and ethoxylated castor oil may be used in ratios ranging from about 2.5:1.5:1 to about 1:1.2:1.8. An insect repellent fabric is prepared by neutralizing the fabric and treating the fabric with the insect repellent formulation. The formulation may include a padding composition mixed with an insect repellent composition. The padding composition includes a polyglycol ether, an acrylic acid ester, an acrylic ester copolymer in aqueous solution, and a cross linking agent. The fabric may be evenly treated with the mixed padding and repellent composition and then dried. The treating may include impregnating the fabric with microcapsules that elute or diffuse the insect repellent and/or padding composition.