The technology described herein relates to a pair of long pants garment panel comprising a pattern of a durable water-repellant (DWR) coating that is selectively applied on to the pant legs of the pair of long pants. The pattern is comprised of a plurality of discrete shapes that are isolated from one another. In other words, the textile material surrounding each discrete shape in the plurality of discrete shapes is not coated by the DWR coating. A size of the plurality of discrete shapes in the pattern is gradually decreased moving up the pant legs starting from a hemmed edge up to a knee area. The pattern is visible during wet conditions and not visible during dry conditions.

The present invention provides a glove having a skin made from an aqueous urethane resin composition including an aqueous urethane resin (A), an aqueous medium (B), and a fluorine compound (C), in which the fluorine compound (C) is a fluorine compound (C-1) that is a polymer of a polymerizable monomer (c1-1) having a fluorinated alkyl group having 4 to 6 carbon atoms and a polymerizable monomer (c1-2) having a polyoxyethylene structure represented by general formula (2), or a fluorine compound (C-2) that is a polymer of a polymerizable monomer (c2-1) having a polymerizable unsaturated group at both ends of a poly(perfluoroalkylene ether) chain and a polymerizable monomer (c2-2) having a polyoxyalkylene structure represented by general formula (4).

Polymer compositions that include polyisoprene and polychloroprene and methods for manufacturing protective articles from the polymer compositions are disclosed.

Fabrics made for apparel, tents, sleeping bags and the like, in various composites, constructed such that a combination of substrate layers and insulation layers is configured to provide improved thermal insulation. The fabric composites are constructed to form a radiant barrier against heat loss via radiation and via conduction from a body.

This invention relates to a PU thin covers with waterproof and moisture permeable function, the hydrophilicity of the PEG structure can diffuse the water molecules from the inside of the PU then covers to the outside of the PU thin covers, and then the water molecules at the outer surface of the PU thin covers will be volatilize to achieve the effect of high moisture permeability. Since the PU thin covers containing PEG structure has no perforations, the external water and air cannot directly penetrate into the inside of the PU thin covers to achieve high waterproof effect. Moreover, the PU materials containing PEG structure can use various special manufacturing methods to make the PU thin covers have the best waterproofness, moisture permeability, structural strength, lightness, low cost, low pollution, high environmental value and various functions can be customized.

Molded watersports and cold-climate gloves, where a substantial portion of the accessory is molded in a three-dimensional mold with a soft, pliable, and durable material such as EVA (Ethylene Vinyl Acetate) or PU (Polyurethane) or similar foam blends that aid in the flexibility, durability, and comfort of the accessory.

The present application provides low thickness synthetic elastomeric gloves, comprising (a) a thickness at the palm of less than 0.050 mm; (h) a modulus at 500% above 6.5 MPa; and/or (c) an elongation at break below 700%. Also provided is a method for the manufacture of such gloves involving dipping a glove-shaped former into an elastomeric film-forming composition; and curing the elastomeric film-forming composition on the former so as to produce the synthetic elastomeric glove. Corresponding low thickness finger cots are also described, as are formers suitable for the preparation of such gloves.

The present invention relates to heatable garments (1), comprising a garment body (3) and a heating pad (5) adhered to at least a portion of the garment body (3), wherein the heating pad (5) comprises graphene particles dispersed in a polymer matrix material. The invention also provides fabrics for making such garments, and methods of making such garments and fabrics. Also provided are heatable bedding incorporating a heating pad as described above.

Provided is a cut resistant glove having stretchability and being superior in the texture and fit while a string made of a metal or glass fiber is prevented from sticking out, irrespective of the gauge number. A cut resistant glove having a glove main body manufactured by plating knitting using a ground yarn and an additional yarn, in which the ground yarn includes a core material, and a cover yarn wound around the core material, the core material having a string made of a metal or glass fiber, and the additional yarn being made of an organic fiber, and in which the ratio of the average thickness of the additional yarn to the average thickness of the ground yarn is no less than 0.9 and no greater than 2.5. The core material preferably further has a support yarn made of an organic fiber arranged along the string.

Fabrics made for apparel, tents, sleeping bags and the like, in various composites, constructed such that a combination of substrate layers and insulation layers is configured to provide improved thermal insulation. The fabric composites are constructed to form a radiant barrier against heat loss via radiation and via conduction from a body.