A composition in accordance with an aspect of the present invention includes: composite fibers composed of inorganic particles and fibers; and at least one of (i) different-type inorganic particles which are different in type from the inorganic particles, (ii) different-type fibers which are different in type from the fibers, and (iii) organic particles.

The invention relates to fabric compositions with improved hemostatic properties comprising attached a zeolite, a zeolite/pectin complex, or a mixture thereof, and methods of preparing such fabric compositions.

The invention relates to fabric compositions with improved hemostatic properties comprising attached a zeolite, a zeolite/pectin complex, or a mixture thereof, and methods of preparing such fabric compositions.

The present invention relates to a thermoplastic elastomer yarn with improved unwinding, weaving and yarn shrinking property, and a manufacturing method thereof. According to the present invention, the thermoplastic elastomer yarn according to the present invention is excellent in improved unwinding, weaving and yarn shrinking property. Furthermore, the thermoplastic elastomer yarn according to the present invention is excellent in yarn shrinkage rate, unwinding, weaving, tensile strength and elongation rate to be adequate for manufacturing textile fabric and footwear in terms of physical properties.

A method for preparing a bactericidal film on fiber cloth, comprising cleansing a reel of fiber cloth; placing the reel of fiber cloth into a vacuum chamber; supplying a DC power and a mid-frequency power; introducing argon gas to increase the chamber pressure to 0.3 Pa; position sputtering targets in the following order: silicon target, silicon carbide target, silver target, silicon carbide target, silver target, silicon carbide target and silver target, and then sputtering the targets simultaneously; wherein the silicon targets act as a bonding layer between the bactericidal film and the substrate; stopping the silicon targets, the silicon carbide targets and the silver targets first, and then turning off the argon gas; injecting air into the chamber until the pressure in the chamber and the atmospheric pressure are balanced.

A method for preparing a bactericidal film on fiber cloth, comprising cleansing a reel of fiber cloth; placing the reel of fiber cloth into a vacuum chamber; supplying a DC power and a mid-frequency power; introducing argon gas to increase the chamber pressure to 0.3 Pa; position sputtering targets in the following order: silicon target, silicon carbide target, silver target, silicon carbide target, silver target, silicon carbide target and silver target, and then sputtering the targets simultaneously; wherein the silicon targets act as a bonding layer between the bactericidal film and the substrate; stopping the silicon targets, the silicon carbide targets and the silver targets first, and then turning off the argon gas; injecting air into the chamber until the pressure in the chamber and the atmospheric pressure are balanced.

A sheet comprises a nonwoven filamentary substrate and an inorganic refractory layer in contact with at least one surface of the substrate wherein (i) the substrate comprises from 40 to 80 weight percent of uniformly distributed mica and from 20 to 60 weight percent aramid material, the aramid material being in the form of aramid floc or pulp, a combination thereof and polymeric binder and (ii) the refractory layer comprises from 85 to 99 weight percent of platelets and from 1 to 15 weight percent of an adhesion promoter. The sheet is an electrically insulating flame and thermal barrier.

A sheet comprises a nonwoven filamentary substrate and an inorganic refractory layer in contact with at least one surface of the substrate wherein (i) the substrate comprises from 40 to 80 weight percent of uniformly distributed mica and from 20 to 60 weight percent aramid material, the aramid material being in the form of aramid floc or pulp, a combination thereof and polymeric binder and (ii) the refractory layer comprises from 85 to 99 weight percent of platelets and from 1 to 15 weight percent of an adhesion promoter. The sheet is an electrically insulating flame and thermal barrier.

A method is provided for producing a fiber fabric by preparing a finishing agent treatment liquid having a mixture of first and second particles of titanium oxide having a particle diameter of 150 to 200 nm and 1 to 5 μm respectively, a silver zeolite and a binder resin, immersing a fiber fabric in the finishing agent, thermal drying the fiber fabric and subjecting the fiber fabric to heat treatment to allow the finishing agent to adhere to the fiber fabric.

A method is provided for producing a fiber fabric by preparing a finishing agent treatment liquid having a mixture of first and second particles of titanium oxide having a particle diameter of 150 to 200 nm and 1 to 5 μm respectively, a silver zeolite and a binder resin, immersing a fiber fabric in the finishing agent, thermal drying the fiber fabric and subjecting the fiber fabric to heat treatment to allow the finishing agent to adhere to the fiber fabric.