A process for forming a glove includes the steps of placing a second layer of a stretchable fabric on top of a first layer stretchable fabric, forming a seam by stitching through the first and second layers of stretchable fabric, trimming around an exterior of the seam through the first and second layers of stretchable fabric so as to separate a glove shape from the first and second layers of stretchable fabric, and turning the first and second layers of stretchable fabric inside out so as to form the glove. The stitching is of a repeatable stitch pattern in which a first stitch extends from a first point to a second point, a second stitch extends from the second point to a third point, a third stitch which extends from the third point back to the first point, and a fourth stitch extending from the first point to a fourth point.

A chemical resistant composite glove that includes a first polymeric layer in the shape of a glove; and a second polymeric layer disposed on the first polymeric layer, and wherein the first polymeric layer is specified for one class of chemical resistance and the second polymeric layer is specified for a second class of chemical resistance, and optionally a third polymeric layer, which may be a thin coating, disposed on at least one of first polymeric layer or the second polymeric layer and is optionally specified for a third class of chemical resistance.

The present invention relates to a multi-layered latex cover, particularly a glove, comprising a main body and a rim. The main body comprises an outer latex layer, an inner latex layer and an intermediate layer comprising particles. The rim essentially consists of the agglutinated outer and inner latex layer. The particles in the intermediate layer are chemically functionalized with a compound comprising hydrophobic groups. Prior to functionalization, the particles are characterized by a mean diameter of 100 m and a surface comprising exposed OH groups. The invention further relates to a method of producing the multi-layered cover, comprising the steps of providing a former and sequentially immersing it in a first coagulator solution, a first latex dispersion, a particle suspension and a second latex dispersion.

In the present disclosure, a piece is disposed on a glove core of a glove structure, and an edge of the piece is to injected and filled with molding material to have an injection molding assembly thereon. The injection molding assembly at least fills a section gap between the glove core and the edge of the piece. By using the injection molding assembly, the section gap between the glove core and the edge of the piece is masked, and an adhesive effect for bonding the piece is also obtained. Thus, the present disclosure provides positive and reliable means for preventing the edge of the piece from being separated from the glove core, making the glove structure maintain its required function in long term, increasing the quality and the lifetime of the glove structure, and making the glove structure have a curved surface shape to present its three-dimensional shape.

A method for the production of a sports glove, especially of a goal keeper's glove. To improve the wearing comfort of the sports glove the method provides the steps: a) Providing of a laminar carrier substrate; b) Deposition of a plurality of discreet material sections of a foamed plastic material onto at least one side of the carrier substrate; c) Production of at least a section of the sports glove by use of the carrier substrate with the material sections produced according to step b).

A medical glove is disclosed that includes a suctioning device that is integrated into the glove. The medical glove may have one or more orifices at an end and may include a channel. In one example, the medical glove may be formed using a hand former with pre-formed channel. The channel may include one or more biosensors.

A nitrile-rubber medical exam glove composed of a glove body which is a flexible layer of nitrile-butadiene rubber. The glove body has a chlorinated first surface forming a donning side of the glove body and an un-chlorinated second surface forming a grip side of the glove body. The elastomeric glove also includes a substantially uniform distribution of a release agent distributed over the un-chlorinated second surface of the glove body. The elastomeric glove has: (a) an average thickness of between about 0.03 to 0.12 mm in a palm region of the glove body as measured in accordance with ASTM D3767, procedure A; (b) an un-chlorinated second surface of the glove body characterized by a Surface Root Mean Square Roughness of from about 3.00 m to about 6.55 m; and (c) a failure rate of less than about 1 percent when the elastomeric glove is subjected to pinhole leak testing generally in accordance with ASTM D5151-06.

A safety barrier for protecting a covered surface from exposure to dangerous fluids is provided with a membrane with a protected region having one or more built-in safety features defined by set of safety related properties and placed over the surface to inhibit the exposure of the dangerous fluids onto or into the surface and a safety indicator providing a visually perceptible alert at the outermost surface of the membrane indicative of at least one safety related property.

A glove that includes a polymeric, elastomeric, or latex composition including a blend of a polyurethane material, an acrylonitrile-butadiene material and an ethylene vinyl acetate material; at least one of a carnauba or a modified polyethylene wax; and hard filler particles having a hardness greater than 4 Mohs or more, thereby increasing the abrasion-resistance and/or cut-resistance of the glove, is disclosed.

Glove stripping apparatuses for fully stripping a partially stripped elastomeric dip-moulded glove from a dip-moulding former comprises a gripper having first and second gripping members movable relative to each other, an abutment, an open space, and an actuation system. Also, production lines for producing elastomeric dip-moulded gloves, methods for fully stripping gloves from dip-moulding formers, and production line processes.