Silk infused performance apparel and methods of preparing the same are disclosed herein. In some embodiments, silk performance apparel includes textiles, fabrics, consumer products, leather, and other materials that are coated with aqueous solutions of pure silk fibroin based protein fragments. In some embodiments, coated apparel products, textiles, and upholstery, as well as other materials, exhibit surprisingly improved moisture management properties, resistance to microbial growth, increased abrasion resistance, and flame resistance.

The present disclosure relates to knits that can be used to make rip-resistant garments using an ultra-high molecular weight polyethylene (UHMWPE) fiber and a companion fiber such as a stretch fiber or a memory fiber. The UHMWPE fiber includes a monofilament or multiple microfilaments, each of the microfilaments has a denier of 5 or less.

The present invention relates to a method for producing a functional yarn, in which zirconium phosphate having a multiple-layered structure is used as a deodorizing material and a melted polymer is spun through a spinning nozzle having a multi-lobal sectional shape. According to the present invention, the melted polymer contains layered fine zirconium phosphate inorganic particles having low hardness, and thus the abrasion of production process equipment can be minimized during fiber production and also an excellent deodorizing property and an excellent sweat-absorbing and quick-drying property are exhibited.

This invention relates to antimicrobial materials and articles, such as fibres, yarns, and their incorporation into textiles, packaging for food or beverages, or articles of clothing such as gloves. The antimicrobial fibres and yarns may be formed of a polymer and may comprise silver particles dispersed therein. The present invention contemplates a polymer batch precursor to the fibre of the invention and further products formed of the fibre or the polymer batch, for example textiles.

The invention discloses environment-controlling fibers, method manufacturing the same and fabrics using the same, which adopts polyolefin material, optoelectronic material, thermoelectric material, piezoelectric material and catalyst material, to make fibers and fabric by melting, mixing, drawing and weaving. The fabrics are used in all kinds of environmental control products or for organic agriculture. To use green energy such as solar light energy, solar thermal energy, wind energy, hydro energy, geothermal energy and other renewable energy to stimulate the function of the special material within the fibers, so that the fabrics can remove pollutants in the environment and produce self-purification function to achieve the purpose of improving the environmental conditions or promote plant growth.

An exemplary personal carrier includes a housing defining a space, and an antimicrobial metal incorporated into the housing. According to one exemplary embodiment, the housing can be any carrying type object and can include an anti-microbial material deposited or infused therein.

A cellulosic fiber includes a fiber body including a cellulosic material and non-encapsulated phase change material dispersed within the cellulosic material. The non-encapsulated phase change material forms a plurality of distinct domains dispersed within the cellulosic material. The non-encapsulated phase change material has a latent heat of at least 40 Joules per gram and the cellulosic fiber has a latent heat between 9.8 Joules per gram and 132 Joules per gram and a transition temperature in the range of 0° C. to 100° C., and cellulosic fiber provides thermal regulation based on at least one of absorption and release of the latent heat at the transition temperature.

A polyethylene terephthalate functionalized with polyether amine to obtain antibacte-rial properties is described. Described are also uses of and methods for producing this functionalized polyester.

A mask sheet is provided. The mask sheet is a mesh sheet in which twisted yarns are knitted into a mesh shape, the twisted yarns being provided by twisting filaments each of which is formed by coating a synthetic fiber with silver. A stitch opening of the mesh sheet may be 1 mm or more. The mesh sheet may be a tricot-knitted sheet.

A biocidal composite wall or surface fabric installable within an aircraft cabin or other vehicle interior space includes a flexible woven layer. The woven layer is treated on its outer surface with a biocidal polymer coating. For example, the polymer coating may incorporate biocidal microcapsules or nanocapsules configured for controlled release of biocidal compounds in response to physical contact or other stimuli. The released biocidal compounds compromise or kill microbial compounds deposited on the outer surface, e.g., via physical contact by passengers or crewmembers. The woven layer includes additional biocidal molecules incorporated into its fibers and strands, the biocidal molecules capable of biocidal action in response to contact with the fabric.