A fabric having ultraviolet radiation protection is disclosed which has a quantity of zinc oxide particles with each of the zinc oxide particles having a surface and a quantity of an acid polymer, with the acid polymer binding to the surfaces of the zinc oxide particles. A fabric having ultraviolet radiation protection is further disclosed having a quantity of zinc oxide particles with each of the zinc oxide particles having a surface and a quantity of boronic acid polymer, wherein the boronic acid functional groups of the polymer bind to the surface of the zinc oxide particles.

The present invention provides a fiber modifier composed of an internal olefin sulfonate having 17 or more and 24 or less carbons.

A deodorant composition is capable of efficiently absorbing and removing sulfur-based gases, such as, methyl mercaptan and hydrogen sulfide. It also has excellent water dispersibility, and has excellent applicability to various fabrics, a deodorant fabric in which the deodorant composition is adhered to at least a part of a fabric, and a fiber product using the deodorant fabric at least in a part of a product. The deodorant composition contains a deodorant including a metal silicate and at least one type of an anionic surfactant selected from the group consisting of hydroxyethylidenephosphonic acid and a salt thereof, alkylsulfosuccinic acid and a salt thereof, alkylsulfonic acid and a salt thereof, and monoalkyl phosphate. The deodorant fabric is provided in which the deodorant composition is adhered to a portion of a fabric by a binder resin, and a fiber product in which the deodorant fabric is used in at least one portion.

A deodorant composition is capable of efficiently absorbing and removing sulfur-based gases, such as, methyl mercaptan and hydrogen sulfide. It also has excellent water dispersibility, and has excellent applicability to various fabrics, a deodorant fabric in which the deodorant composition is adhered to at least a part of a fabric, and a fiber product using the deodorant fabric at least in a part of a product. The deodorant composition contains a deodorant including a metal silicate and at least one type of an anionic surfactant selected from the group consisting of hydroxyethylidenephosphonic acid and a salt thereof, alkylsulfosuccinic acid and a salt thereof, alkylsulfonic acid and a salt thereof, and monoalkyl phosphate. The deodorant fabric is provided in which the deodorant composition is adhered to a portion of a fabric by a binder resin, and a fiber product in which the deodorant fabric is used in at least one portion.

A product for incorporating ultraviolet radiation protection and antimicrobial protection into a synthetic polymer is disclosed which has a quantity of zinc oxide particles modified with a layer of a reactive group that forms a bond with a quantity of synthetic polymer chips having CH bonds. A product for incorporating ultraviolet radiation protection and antimicrobial protection into a synthetic polymer prior to forming a synthetic material is also disclosed which has a quantity of synthetic polymer chips and a quantity of zinc oxide particles modified with a layer of a reactive group that forms a bond with the quantity of the synthetic polymer chips.

A method for incorporating ultraviolet radiation protection and antimicrobial protection into rayon is disclosed which has the steps of providing pulp to form cellulose sheets, steeping the cellulose sheets, pressing the cellulose sheets, shredding the cellulose sheets into white crumb, aging the white crumb to form yellow crumb, xanthation of the yellow crumb, dissolving the yellow crumb to form a viscose, adding an additive to the viscose, ripening the viscose, filtering the viscose, degassing the viscose, spinning the viscose to form a fine filament of rayon, drawing the rayon, washing the rayon, and cutting the rayon.

A method for incorporating ultraviolet radiation protection and antimicrobial protection into rayon is disclosed which has the steps of providing pulp to form cellulose sheets, steeping the cellulose sheets, pressing the cellulose sheets, shredding the cellulose sheets into white crumb, aging the white crumb to form yellow crumb, xanthation of the yellow crumb, dissolving the yellow crumb to form a viscose, adding an additive to the viscose, ripening the viscose, filtering the viscose, degassing the viscose, spinning the viscose to form a fine filament of rayon, drawing the rayon, washing the rayon, and cutting the rayon.

An additive for incorporating ultraviolet radiation protection into a synthetic polymer with the additive and the synthetic polymer for forming a synthetic material is disclosed which has a quantity of zinc oxide particles modified with a layer of a reactive group that forms a bond with a synthetic polymer having CH bonds. A product for incorporating ultraviolet radiation protection into a synthetic polymer prior to forming a synthetic material has a quantity of a synthetic polymer and a quantity of zinc oxide particles modified with a layer of a reactive group that forms a bond with the quantity of the synthetic polymer.

A flame-retardant fabric may include a cellulosic fiber and a modacrylic fiber, the cellulosic fiber being a natural cellulose fiber containing a phosphorus compound, the modacrylic fiber containing an antimony compound, the flame-retardant fabric including the modacrylic fiber containing the antimony compound in an amount of 14 to 54 wt %, antimony in an amount of not less than 1.7 wt %, and phosphorus in an amount of 0.3 to 1.5 wt % with respect to the total weight of the flame-retardant fabric, and the flame-retardant fabric having a weight per unit area of not less than 160 g/m.sup.2. The flame-retardant fabric can be produced by subjecting a fabric including a natural cellulose fiber and a modacrylic fiber containing an antimony compound to flame-retardant treatment with a phosphorus compound.

A flame-retardant fabric may include a cellulosic fiber and a modacrylic fiber, the cellulosic fiber being a natural cellulose fiber containing a phosphorus compound, the modacrylic fiber containing an antimony compound, the flame-retardant fabric including the modacrylic fiber containing the antimony compound in an amount of 14 to 54 wt %, antimony in an amount of not less than 1.7 wt %, and phosphorus in an amount of 0.3 to 1.5 wt % with respect to the total weight of the flame-retardant fabric, and the flame-retardant fabric having a weight per unit area of not less than 160 g/m.sup.2. The flame-retardant fabric can be produced by subjecting a fabric including a natural cellulose fiber and a modacrylic fiber containing an antimony compound to flame-retardant treatment with a phosphorus compound.