Provided is artificial hair including chemical fibers and a fiber treatment composition that is adhered to the surfaces of the chemical fibers. The fiber treatment composition may include an oxazoline group-containing acrylic resin and an organic-modified silicone oil. The oxazoline group-containing acrylic resin may have a main chain that includes a (meth)acrylic acid ester and styrene.

A mesh material for fabricating hunting blinds, tents, and other similar flexible structures. The material is durable, water-resistant, and partially light-transmissive such that persons or objects inside or behind the structures are not easily seen from outside the structures. The material is also semi-permeable to air flow for ventilation purposes. The mesh material is fabricated from an interwoven polyester, polyurethane, or polyvinyl chloride (PVC) fabric that is coated with acrylic and a mixture of silicone and ethylene vinyl acetate (EVA). Patterns and/or colors are printed on both sides of the fabric with a heat transfer paper printing process to provide a desired level of light transmissivity.

The present disclosure is directed to provide a hollow fiber which is lightweight and has a texture with good volumic feel and good cushioning property. The hollow fiber of the present disclosure is a hollow fiber composed of a composition containing a vinylidene chloride-based resin as a main component, wherein the hollow fiber has a hollow ratio of more than 30% and 70% or less, an average outer diameter of 50 to 900 m, a strength of 0.7 to 2 g/d, and a heat shrinkage rate after being heated at 100 C. for 15 minutes of 30% or less.

A mesh material for fabricating hunting blinds, tents, and other similar flexible structures. The material is durable, water-resistant, and partially light-transmissive such that persons or objects inside or behind the structures are not easily seen from outside the structures. The material is also semi-permeable to air flow for ventilation purposes. The mesh material is fabricated from an interwoven polyester, polyurethane, or polyvinyl chloride (PVC) fabric that is coated with acrylic and a mixture of silicone and ethylene vinyl acetate (EVA). Patterns and/or colors are printed on both sides of the fabric with a heat transfer paper printing process to provide a desired level of light transmissivity.

Disclosed is the preparation of improved high strength nylon staple fibers having a denier per filament of 1.0 to 3.0, a tenacity T at break of at least about 6.0, and a load-bearing capacity, T.sub.7, of greater than 3.2. Such nylon staple fibers are produced by preparing tows of relatively uniformly spun and quenched nylon filaments, drawing and annealing such tows via a two-stage drawing and annealing operation using relatively high draw ratios and then cutting or otherwise converting the drawn and annealed tows into the desired high strength nylon staple fibers. The nylon staple fibers so prepared can be blended with other fibers such as cotton staple fibers to produce nylon/cotton (NYCO) yarns which are also of desirably high strength.

Provided is a method of manufacturing a dental cord. The method including: producing a spinning solution by dissolving a fiber-moldable hydrophobic polymer material in a solvent; spinning the spinning solution to obtain a polymer nanofiber web composed of nanofibers and including three-dimensional micropores; laminating the polymer nanofiber web to obtain a polymer membrane; slitting the polymer membrane to obtain a nanofiber tape yarn; hydrophilic-treating the nanofiber tape yarn to obtain a hydrophilic-treated nanofiber tape yarn; plying and twisting the hydrophilic-treated nanofiber tape yarn with a covered yarn to obtain a nanofiber multiple yarn; and impregnating the nanofiber multiple yarn with a hemostatic agent.

The present invention relates to a method of printing an image on a fibrous substrate by inkjet printing, wherein the method comprises applying a water-based ink composition onto the substrate, wherein the ink composition comprises a carboxylic or sulfonic acid functional co-polymer having an acid number of ?225 mg KOH/g, a pigment, water and at least one organic co-solvent. The present invention also relates to use of said water-based ink composition for printing an image on a fibrous substrate by inkjet printing.

A fiber for artificial hair, the fiber comprising a synthetic resin and a microparticle, wherein a content difference |C.sub.1-C.sub.2| between a content C.sub.1 of a microparticle of smaller than 2 ?m in particle size, and a content C.sub.2 of a microparticle of 2 ?m or larger and smaller than 5 ?m in particle size is 70% by mass or less based on the total amount of the microparticle, and the content of a microparticle of 5 ?m or larger in particle size, C.sub.3, is less than 25% by mass based on the total amount of the microparticle.

A woven textile includes, in at least one of the warp or weft directions, non-flocked yarns and flocked yarns. The flocked yarns include a support yarn having a core covered with an adhesive layer. The support yarn has a base diameter. Protruding filaments provide the flocked yarns with an apparent diameter. The non-flocked yarns have a diameter which is smaller than the apparent diameter and larger than the base diameter of the flocked yarns.

A resilient yarn, fabric having the resilient yarn, and outdoor products, such as sling furniture, are disclosed. The resilient yarn includes a core made with a thermoplastic elastomer. A sheath at least partially surrounds the core. The sheath includes polyvinyl chloride (PVC) or a blend of PVC and thermoplastic polyurethane (TPU).