A thin, abrasion resistant supported glove, including a knitted liner and a polymeric layer disposed on and within individual strands of yarns of the knitted liner, are disclosed. Methods for manufacturing the thin, abrasion resistant supported glove are also disclosed.

Gloves comprising a polymeric coating or layer, optionally including a fabric liner, and at least one reinforcement, disposed on a part(s) of the polymeric coating or layer and/or ac part(s) of the fabric liner, and methods of making the gloves are disclosed.

A dip-formed article includes a laminate in which a rubber layer is laminated on a fiber base material. The thickness of the rubber layer is 0.2 to 0.8 mm, the rubber constituting the rubber layer penetrates into the fiber base material, the maximum depth to which the rubber has penetrated into the fiber base material is 0.1 to 0.3 mm, and the maximum stress at 50% elongation of the laminate is 20 N or smaller.

A polymer latex including a polymer and at least one polysaccharide selected from the group consisting of tamarind gum, xanthan gum, cationized xanthan gum, gellan gum, guar gum and cationized guar gum.

A method for producing a protective glove comprises preheating a dipping mold and fitting a knitted glove onto the dipping mold. The dipping mold with the knitted glove is immersed in a saline solution. The dipping mold with the knitted glove is then removed from the saline solution and dried. The dipping mold with the knitted glove is then immersed into a foamed latex compound with carbon fibers having a diameter between 2 μm to 25 μm. The dipping mold with the knitted glove is then removed from the latex compound and dried. The dipping mold with the knitted glove is then immersed in a water bath and then dried at a temperature between 100° C. to 130° C. before removing the finished glove from the dipping mold.

Disclosed is a silicone dipped glove, comprising a glove core and a dipping layer. The dipping layer is a silicone mixed compound layer, and the silicone mixed compound layer is composed of the following components at the following proportions by weight: 70-90% of silicone, 5-20% of a curing agent, 5-20% of a diluent, and 0-10% of a color paste. The silicone mixed compound layer of the present invention is composed of silicone, a curing agent and a diluent.

The present invention is a disinfectant glove that prevents viruses from living on the surface of the embodiment thus preventing contamination. In particular, the invention allows a user to utilize gloves that kills viruses and diseases on contact. The proposed embodiment provides a unique experience for a user by providing a safe experience for the general public.

Disclosed is a flexible barrier glove manufactured by coating a glove liner with a mixture that includes polyurethane resin and an antibacterial agent.

A glove is provided that enables suppression of cracks in a coating layer containing nitrile butadiene rubber as a principal component. The glove comprises: a glove main body made of fibers for covering a wearer's hand; and a coating layer which comprises nitrile butadiene rubber as a principal component and coats at least a part of an outer face of a palm region of the glove main body, in which: the coating layer comprises zinc oxide and a cross-linked product of the nitrile butadiene rubber and polycarbodiimide; and a mass ratio of the polycarbodiimide to the nitrile butadiene rubber is no less than 0.002. The mass ratio of the polycarbodiimide to the nitrile butadiene rubber is preferably no greater than 0.09. The content of the zinc oxide with respect to 100 parts by mass of the nitrile butadiene rubber is preferably from 0.3 to 5 parts by mass.

A protective garment includes a base layer formed from a flexible material. A grip layer is disposed on a first side of the base layer. The grip layer has an increased coefficient of friction compared to the base layer. A protective layer is disposed on a second side of the base layer. The protective layer includes a three-dimensional matrix that has a plurality of columns that extend in a first direction and a plurality of rows stacked on the plurality of columns that extend in a second direction. The plurality of rows and the plurality of columns define a plurality of voids.