An industrial clothing, in particular a clothing for a machine for manufacturing a fibrous web, such as a paper, cardboard, or tissue web, or a non-woven product, is manufactured by: i) forming a planar structure from yarn in the form of a woven fabric, a cross-laid structure, a knitted fabric, a warp-knitted fabric; or from interconnected helical elements; ii) applying polymer material in the form of at least one group of beads to at least one surface of the planar structure, the application of the polymer commencing at starting points and terminating at terminal points remote from the starting points; iii) repeating step ii), wherein terminating points of the group of beads are spaced apart from starting points of at least one further group of beads, which generates regions with a void between the groups on the surface of the planar structure.

Provided is a multilayer unsupported glove comprising: (A) an outer, first layer of polymer content comprising about 55 wt % or more chloroprene, from 0 wt % to up to about 45 wt % nitrile comprising carboxylated nitrile, and no more than about 5 wt % of another polymer; and (B) laminated to the outer layer, second layer of polymer content that is substantially nitrile 90 wt % or more, wherein the glove is about 0.16 mm or less in thickness, has a tensile strength unaged of greater than about 17 mPa pursuant to ASTM D412:2016 (E 2021) or a tensile strength aged of greater than about 23 MPa, and is accelerator free.

A formulation of nitrile glove made from carboxylated acrylonitrile butadiene elastomer comprising an aluminum and zinc oxide compound as a crosslinker and a metal ion stabilizer without sulfur and accelerator for decreasing type IV allergy risk and providing a cost down method of increasing filler loading ability of carboxylated acrylonitrile butadiene latex.

An article with a component joined with stitchbonding to a nonwoven textile formed from a plurality of thermoplastic polymer filaments. The nonwoven material, component, yarn, and stitch pattern can be optimized using disclosed structures and components to provide the article with desirable characteristics such as increased tensile and tear strength, improved aesthetics, moisture resistance and to limit or modify the stretch of the article in one or more directions and the like. A variety of products, including apparel (e.g., shirts, pants, footwear) may incorporate the article. In some of these products, the nonwoven textile may also be joined to the component with other bonding structures such as heat bonding, adhesives and the like.

A garment and method for targeted water weight-loss of a user. The garment may be a typical article of clothing; however, heat trapping agents are applied to the garment, particularly on the inside of the garment so as to make contact with the skin causing increased perspiration of the user at the location where the heating trapping agent contacts the skin. The heat trapping agent can be applied to the garment at desired locations and with a desired pattern to increase the efficiency of perspiration, and therefore, water weight-loss. Preferably, the heat trapping agent is print material with a stretch additive.

Polymeric gloves include a donning-facilitating coating. The donning-facilitating coating facilitates a hand of a user to glide into and out of the glove while either leaving a visible residue on the hand of the user, or not leaving a visible residue on the hand of the user, when the donning-facilitating coating is contacted by the hand of the user.

A glove base and glove are provided, which release moisture outside from the entire glove when the glove is configured only of a fiber glove base or when a coating is provided to a surface of the glove base. The glove base of the present invention is made of fibers and has a hand shape. Water-absorbing properties of a first fiber type exposed mainly to an inside surface of the glove base are higher than water-absorbing properties of a second fiber type exposed mainly to outside surface of the glove base. The first fiber type absorbs and moves moisture on a surface of a hand inside the glove base toward the second fiber type, and the second fiber type then moves the moisture from the first fiber type mainly in a surface direction of the glove base.

The present invention is an improvement to surgical gown with two distinctive features. 1) the back of the gown and the back of the gown sleeves are a contrasting or bright color and 2) these same two-toned gown areas, back of sleeves and gown back top to bottom could also have a resin painted on that would transfer to any object it comes into contact with. Resin transfer will result in a visible change in the gown, a color change and/or bare spot in the resin loss region of the gown.

A protective glove is provided, where a palm side of the protective glove successively includes, from inside to outside, a base layer, a first coating layer, a palm functional layer, and a second coating layer; and a hand back side successively includes, from inside to outside, a base layer, a first coating layer, and a second coating layer. A hand back functional layer is provided between the first coating layer and the second coating layer, and a glove cuff may also be provided. The material of the first coating layer and the second coating layer is natural rubber, synthetic rubber, or plastics. The palm functional layer may be an impact-resistant layer or a damping layer. The second coating layer at the palm side is provided with grip-enhancing points or grip-enhancing bands. The second coating layer at the hand back side is provided with decorative strips and decorative blocks.

A formulation of nitrile glove made from carboxylated acrylonitrile butadiene elastomer comprising an aluminum and zinc oxide compound as a crosslinker and a metal ion stabilizer without sulfur and accelerator for decreasing type IV allergy risk and providing a cost down method of increasing filler loading ability of carboxylated acrylonitrile butadiene latex.