The present invention belongs to the technical field of labor protection supplies, and specifically, relates to a rubber-dipped glove with wear-resistant fingers and a production method. The rubber-dipped glove comprises a glove core and rubber-dipped layers comprising a finger rubber-dipped layer and a palm rubber-dipped layer, wherein the palm rubber-dipped layer is fixed on surfaces of the glove core and the finger rubber-dipped layer, and the finger rubber-dipped layer is embedded in knitting gaps of fingers of the glove core. The rubber-dipped glove of the present invention has wear resistance and durability, as well as anti-toxic and anti-chemical functions, while ensuring a wearer's flexibility, stability and safety in actual use. Moreover, the rubber-dipped glove has an external surface with no sense of layering and good in aesthetics, and thus the wearer is more willing to wear it.

The technology described herein relates to a three-layer outerwear garment panel comprising an outer layer, a middle membrane layer that is water resistant, and an inner layer. A water-repellant coating such as a durable water-repellant (DWR) coating is selectively applied to the outer layer, leaving areas of the outer layer free from the water-repellant coating. When precipitation hits the garment, the water is absorbed in the non-coated portions to reveal a pattern of shapes formed by the non-coated portions.

The present invention relates to gloves with an anti-inflammatory formulation. The gloves comprise an elastomeric film (R) and at least one layer (C1, C2) of a formulation comprising an anti-inflammatory agent wherein the anti-inflammatory agent is glycyrrhizinic acid and its salts. At least one layer of the formulation is formulated for the slow release of the anti-inflammatory agent.

A method of making a garment material and garment material and garments obtainable by the method. The method comprises providing a first layer, which is a shaped polymer and applying a liner to the first layer, the liner being formed of yarn and having interstices through it. A fluid polymeric material is then applied to the liner so that it permeates the interstices and is allowed to solidify to thereby form a second layer in which the liner is embedded in the solid polymeric material. Fibres are then applied to form a textile layer, which serves as a skin-contacting layer. The garment material comprises a first layer (70, 76, 78), which is a shaped polymer; a second layer (80), which is a shaped polymer that is provided at one or more locations on the first layer, the second layer taking the shape of the first layer at said one or more locations; and a textile layer (82). The second layer is located between the first layer and the textile layer and a liner (22) is embedded in the second layer, the liner being formed of yarn and having interstices through it.

The technology described herein relates to a three-layer outerwear garment panel comprising an outer layer, a middle membrane layer that is water-resistant, and an inner layer. A water-repellant coating such as a durable water-repellant (DWR) coating is selectively applied to the outer layer, leaving areas of the outer layer free from the water-repellant coating. When precipitation hits the garment, the water is absorbed in the non-coated portions to reveal a pattern of shapes formed by the non-coated portions.

According to various embodiments, a glove is provided with improved hydration characteristics and low dermatitis potential. The glove comprises a substrate and a polymer system that coats a surface of the substrate. The polymer system comprises: a polyol, a botanical extract, an emollient agent, a silicone copolymer dispersion, a lubricant, and a surfactant. The substrate may be free of sulphur and accelerators. An example formulation of the polymer system may comprise glycerol, Aloe vera, a carnauba wax dispersion, dimethicone, a polyalkylene glycol (PAG), and polyoxyethylene (20) sorbitan monooleate. The polymer system may be applied to the\surface of the substrate by dipping the surface into a water-based dispersion of the polymer system, or spraying the water-based dispersion onto the interior surface. The polymer system may be blended into water at a total solids content of 0.8% to 1.2% w/w to form the water-based dispersion.

A glove, such as a work glove, is provided. The glove includes a body and a coating layer. The coating layer is coupled to an outer surface of the palm side of the body along a palm portion, a plurality of finger portions, and a thumb portion. The coating layer includes a first coating thickness and a second coating thickness. The second coating thickness is defined by a plurality of grooves formed in the coating layer. A first set of grooves is positioned at the base of each of the finger portions and a second set of grooves is positioned at a first bend region of each of the finger portions. The first bend region corresponds to a knuckle of a user. The first coating thickness is greater than the second coating thickness.

An article includes a substrate, and a film-based article comprising a non-crosslinked thermoplastic rubber. At least a portion of the film-based article is fixed to the substrate. In particular, said portion of the film-based article is firmly fixed to the substrate by heat sealing at a temperature of 190 to 250 C. for at least 1 second, without using a glue, an adhesive coating, or a corona discharge treatment.