The present invention is an endoscope hemostatic material comprising a sheet-like nonwoven fabric that is formed from a hydrophobic material that has a bulk density of 40 to 110 mg/cm.sup.3 and a film thickness of 400 to 1400 μm, and also an endoscope hemostatic material comprising a sheet-like nonwoven fabric that is formed from a hydrophobic material and that has an area density of 5.0 to 11.0 mg/cm.sup.3 and an average fiber diameter of 0.5 to 0.8 μm, either of which is suitable for treatment of bleeding through an endoscope.

An object of the present invention is to provide an antiviral wiper having excellent antiviral activity and excellent storage stability.

The antiviral wiper according to an embodiment of the present invention is an antiviral wiper having a base fabric and a liquid agent with which the base fabric is impregnated.

The content of a cellulosic fiber in the base fabric is equal to or lower than 70% by mass with respect to the total mass of fibers constituting the base fabric.

The liquid agent is alkaline and contains a compound X having a pKa of 7.0 to 15.0 and a solvent containing at least an alcohol, and the content of the alcohol is 40% to 100% by mass with respect to the total mass of the solvent.

An object of the present invention is to provide an antiviral wiper having excellent antiviral activity and excellent storage stability.

The antiviral wiper according to an embodiment of the present invention is an antiviral wiper having a base fabric and a liquid agent with which the base fabric is impregnated.

The content of a cellulosic fiber in the base fabric is equal to or lower than 70% by mass with respect to the total mass of fibers constituting the base fabric.

The liquid agent is alkaline and contains a compound X having a pKa of 7.0 to 15.0 and a solvent containing at least an alcohol, and the content of the alcohol is 40% to 100% by mass with respect to the total mass of the solvent.

A polyester with ultra-high flowability and good stability over time is provided. The polyester can be polybutylene terephthalate (PBT) or another aliphatic polyester, whose intrinsic viscosity (IV) is less than 0.6 dL/g and a carboxylic end group (CEG) content is 15 meq/kg or less, and characterized by having a melt volume rate (MVR) of greater than 400 cm.sup.3/10 min at 250° C. A resin composition of this polyester is provided, which can be meltblown into microfibers of a uniform diameter and a concentrated diameter distribution, forming a fabric with a uniform small pore size.

A polyester with ultra-high flowability and good stability over time is provided. The polyester can be polybutylene terephthalate (PBT) or another aliphatic polyester, whose intrinsic viscosity (IV) is less than 0.6 dL/g and a carboxylic end group (CEG) content is 15 meq/kg or less, and characterized by having a melt volume rate (MVR) of greater than 400 cm.sup.3/10 min at 250° C. A resin composition of this polyester is provided, which can be meltblown into microfibers of a uniform diameter and a concentrated diameter distribution, forming a fabric with a uniform small pore size.

The invention relates to an absorbent material on a nonwoven fabric basis, consisting of a fibrous gauze preferably having a longitudinally oriented initial fiber position, which is solidified by mesh formation while obtaining a three-dimensional fiber order. Furthermore, a fiber pile layer having a mainly vertical fiber orientation is formed, wherein the fiber pile layer has largely preponderantly a loop shape in a manner avoiding fiber tear-out. The material is in particular suitable for being used as a paint roller covering or dye-feeding roller, i.e. for applying liquid substances onto surface structures.

A pouched product adapted for release of a water-soluble component therefrom is provided herein. The pouched product can include an outer water-permeable pouch defining a cavity containing a composition that includes a water-soluble component capable of being released through the water-permeable pouch and has a surface area, wherein the outer water-permeable pouch can include a nonwoven web including fibers, wherein at least a portion of the fibers are selected from the group consisting of polyester fibers in an amount of 20% or greater based on the total weight of the fibers, tobacco-derived viscose, sisal fibers, corn silk fibers, long wood fibers, MCC fibers, and combinations thereof.

A method of manufacturing a panel includes obtaining a textile scrap, the textile scrap consisting essentially of polyester, mechanically separating the textile scrap into a plurality of textile yarns, where each of the plurality of textile yarns has a first melting point that is greater than a first temperature, and obtaining a plurality of staple fibers, where the plurality of staple fibers includes bicomponent fibers each having a melting point that is less than the first temperature. The method further includes blending the plurality of textile yarns with the plurality of staple fibers to form a mixed blend of textile yarns and staple fibers, and heating and compressing the mixed blend to form the panel.

A method of manufacturing a panel includes obtaining a textile scrap, the textile scrap consisting essentially of polyester, mechanically separating the textile scrap into a plurality of textile yarns, where each of the plurality of textile yarns has a first melting point that is greater than a first temperature, and obtaining a plurality of staple fibers, where the plurality of staple fibers includes bicomponent fibers each having a melting point that is less than the first temperature. The method further includes blending the plurality of textile yarns with the plurality of staple fibers to form a mixed blend of textile yarns and staple fibers, and heating and compressing the mixed blend to form the panel.

Disclosed are, inter alia, a sound absorption and insulation material including a polyester hollow fiber, a polyester low-melting-point composite fiber and a polyester base fiber, a sound absorption and insulation pad for a floor including the same, and a manufacturing method thereof for improving the elasticity and sound absorption and insulation performance of the sound absorption and insulation material. The sound absorption and insulation material is an environmentally friendly material that can reduce discomfort due to the generation of volatile organic compounds (VOCs) and the emission of toxic gases during combustion. Also, the sound absorption and insulation pad including the sound absorption and insulation material can exhibit superior sound absorption performance, sound insulation performance and actual vehicle performance compared to a conventional sound absorption and insulation pad of the same thickness.