The present invention relates to a fabric containing a modacrylic fiber A and a cellulosic fiber, wherein the modacrylic fiber A contains an infrared absorber inside the fiber, and the fabric is dyed with at least a yellow cationic dye, a yellow reactive dye, and a yellow disperse dye. The fabric can be produced by dyeing a fabric containing a modacrylic fiber A and a cellulosic fiber with a cationic dye, a reactive dye, and a disperse dye to exhibit a fluorescent yellow color. Accordingly, it is possible to provide a fabric with excellent arc resistance and visibility, a method for producing the same, and a clothing item using the same.

A flame retardant fabric is directly woven from flame retardant viscose fiber added with inorganic silicon for covering the outside of flammable articles, wherein the flame retardant viscose fiber having denier, strength and flame retardant effect which use silicic acid as the flame retardant, and coating a layer of organic material, melamine flame retardant resin on the surface of silicic acid, and then preparing the flame retardant viscose fiber into an nano-sized particles. The flame retardant fabric has a fineness of 1.11 to 2.78 dtex, and a strength of ≥2.0 cN/dtex, which meets the production requirements of spinning, and does not need to be blended with other high-strength fibers when spinning, and the woven fabric from the flame retardant viscose fiber does not need to be flame retardant, so that the flame retardant fabric has a good flame retardant effect and saves costs through simply the production process.

An erosion, sediment and pollution control product comprises a geotextile which includes at least 10% non-plastic non-biomass based inert threads, in particular basalt or glass threads, and cellulose based filler within the tubular geotextile. The geotextile may be knitted. A method of making a tubular knitted geotextile comprises the steps of: supplying non-plastic, non-biomass based inert threads, such as basalt or glass threads, to a circular knitting machine and knitting a tubular substrate which includes at least 10% non-plastic non-biomass based inert threads.

An apparatus comprises first and second fabric layers having corresponding and aligned elongated rectangular sections, which are stitched together at one or more periphery seams. A water-permeable compartment is located between the first and second elongated rectangular sections at the respective middle portions the first and second fabric layers. The water-permeable compartment has an elongated rectangular topside section and an elongated rectangular underside section, each having a length that is less than the length of the elongated rectangular sections of the first and second fabric layers. The second fabric layer and water-permeable compartment collectively define an opening at the middle portion of the second fabric layer, wherein the opening is configured to receive a cooling medium or a heating medium. The apparatus provides the option of whether to wet the middle portion of the second fabric layer that is in contact with the neck of a user.

The present invention relates to a nonwoven substrate comprising individualized flax fibers comprising specific cellulose, hemicellulose and lignin contents.

A fire resistant textile material comprising a fire resistant textile material comprising a woven face fabric composed of fibres selected from: meta-aramid, para-aramid, polyamideimide and mixtures thereof; wherein the number of warp face threads, per unit width (cm) is greater than the number of weft threads, per unit length (cm).

A method of obtaining rayon fibers from cellulose waste is provided. The method includes extracting alpha-cellulose from cellulose waste, dissolving the alpha-cellulose in a cuoxam solution, obtained by reacting gaseous ammonia with an aqueous solution of copper hydroxide, to obtain a chemically modified cellulose. The chemically modified cellulose was extruded in an acid bath to obtain a precipitate. The precipitate was further neutralized to obtain the rayon fibers.

A breast tape for supporting and lifting breasts and a method of applying the same are provided. The breast tape includes a body of lace, an adhesive applied to one surface of the lace, and a segmented protective material overlaying the adhesive. The breast tape supports and lifts the breasts by molding thereto and is attractive, easy to apply, has a smooth appearance, does not lose adhesiveness with ongoing wear, is breathable, comfortable and does not require heat activation or a lengthy gripping time. The method includes removing a first segment of protective material attached to a base of the breast tape and applying the base to a bottom of the breast, removing a second segment of the protective material, lifting the breast tape to achieve a desired support and lift, and applying the remainder of the breast tape to the skin and molding to the skin.

A process and an installation for producing a yarn in accordance with an airjet-spinning method. A carded fibre sliver is subjected to more than three-fold drawing without levelling at a carding machine and deposited in a can (C). At least nine fibre slivers are fed draftfree from cans (C) to a draw frame and subjected to at least 8.5-fold drawing to form a fibre sliver and deposited in a can (C1). The fibre sliver in the cans (C1) is then fed to a spinning station of an airjet-spinning machine.

The present invention relates to fabrics and/or garments/apparel that confer protection to a wearer by resisting break open, and/or by absorbing at least a portion of any incident energy. The fabrics/garments/apparel described herein comprise yarns prepared from blends of polymers and woven in stellar weave. The blend of fibers comprises flame retardant viscose fibers, meta aramid fibers, para aramid fibers, Nylon 66 fibers, and antistatic fibers in a predefined proportion. A process of manufacturing the fabric for wearable light weight protective apparel comprises processes of spinning, weaving, wet processing and garmenting carried out in a predefined manner.