A supporting glove includes a glove base element made of fiber material, a resin coating applied to at least a part of an outer surface of the glove base element, and an inner glove made of fiber material provided inside the glove base element, wherein a relational expression of d.sub.2<d.sub.1 is satisfied, where d.sub.1 is a volume fraction of solid contents per unit volume of the glove base element, and d.sub.2 is a volume fraction of solid contents per unit volume of the inner glove.

A safety glove having a protective member or insert extending around the fingertip of the safety glove is provided. The protective member may be positioned along the outer surface or the inner surface of the glove. Alternatively, the protective member may be integrally formed between two layers of glove material. The protective member terminates distally from an interphalangeal joint line to enable finger flexion in order to grasp an item, such as a slab of meat to be deskinned in a skinning machine. The glove may include a rough outer surface formed from thrice dipping the glove and allowing the glove to cure. Additionally, the glove may have a width near the wrist that is wider than the width near the palm to enable the glove to be rapidly removed (i.e., doffed) in an emergency event of the glove getting caught in a rotating blade on the skinning machine.

An embossment (100) on a sheet of film and a glove produced from the embossed sheet of film is disclosed. The embossment (100) comprises a base surface (103); a raised surface (102) opposite to the base surface (103); and at least one recessed area (104) formed therein and extending from the base surface (103) and the raised surface (102) to the base surface (103), wherein depth (D.sub.r) of the recessed area (104) is between 50% to 99% relative to height (H.sub.e) of the embossment (100) between the base surface (103) and the raised surface (102).

Provided is a golf glove with an anti-slip pad, in particular the golf glove with the anti-slip pad formed at a finger or a palm. A golf glove with an anti-slip pad comprises at least one palm extending pad 14a, 14b formed from one boundary of a palm to an index finger; and a finger pad 15a, 15b, 15c formed on at least one finger F1 to F5, wherein the least one palm extending pad 14a, 14b or the finger pad 15a, 15b, 15c has a friction coefficient different from the other part of the glove.

A protective hand covering has a flexible shell with an open end and a closed end, and a constricted region between the open and closed ends. The constricted region defines a passage for receiving the child's hand. The hand covering may be worn by an infant or small child during sleeping or other activities, A gripping material is disposed on an inside surface of the shell at the constricted region and around the passage. The gripping material has a coefficient of friction higher than a coefficient of friction of the material of the flexible shell, such that the hand covering is discouraged from coming off of the child's hand.

An athletic glove is disclosed having a high-grip surface on the palm side of the glove. The high-grip surface is formed from a panel of high-adherence material and comprises an embossed pattern that is configured to provide a high-grip surface while maintaining high tactile feedback or “feel” of the item being grasped, while maintaining maximum flexibility in the hand so as to not impede the wearer's ability to conform their hand to the intended shape when varying their grip on the item being grasped. The high-grip or high-adherence surface is formed of a high friction flexible polymer, such as silicone. To further aid in providing a high-grip configuration that maintains maximum tactile feedback and flexibility for the wearer, the embossed pattern provided on the palm side of the glove employs separate, thin (preferably about 0.35 mm in thickness) pads that are separated from one another by a small distance to maximize flexibility of the high-grip surface and to provide moisture flow channels along the palm surface of the glove. The top side of the glove (i.e., the side opposite the palm) is preferably formed of a stretchable fabric for comfort of the wearer.

An article has a coating film layer that covers the article. A plurality of recessed portions is formed on the coating film. The plurality of recessed portions is formed of: a plurality of hemispherical recessed portions having an approximately circular shape as viewed in a plan view; and a plurality of diaphragm provided recessed portions formed such that two or more hemispherical recessed portions are connected to each other in a partially overlapping manner and a connection boundary between the recessed portions is partitioned by a diaphragm. In a method for forming a coating film layer which covers a surface of an article and on which a plurality of recessed portions are formed, a liquid droplet of a solidifying agent is made to impinge on an unsolidified elastic material that adheres to the surface of the article so as to recess and solidify impinged portions thus forming the recessed portions.

A multi-layered multifunctional polymeric latex article is provided. A first polymeric latex layer, having nitrile butadiene, is resistant to chemical permeation whilst the second polymeric latex layer disposed on the first layer, being a composite layer of polychloroprene and Nano clay, is resistant to chemical degradation. The third layer disposed on the second layer is a polychloroprene layer having a unique micro-roughened surface texture pattern, providing an improved grip and friction in both wet and dry conditions. The second and third layers are disposed during the wet gelled stages of the first and second layers respectively. The gelled third layer is dipped in a solvent mixture whereby a chemical reaction causes the gelled surface of the third layer to texturize by swelling and fixing, creating a continuous and discontinuous wavy micro-roughened surface which is then cured causing formation of ionic crosslinks in the third polymeric layer.

A glove includes a glove body configured to cover a hand of a wearer. The glove body has an outermost layer including cellulose particles and constituting an outer surface of the glove. At least some of the cellulose particles are at least partially exposed from the outer surface.

The present disclosure relates to a glove with both flock-lined and unlined interior surfaces The glove generally comprises a hand region including a palm portion and a dorsal portion; a thumb region and four individual digit regions projecting away from one end of the hand region; and a cuff region extending outwardly from another end of the hand region opposing to the thumb region and the four individual digit regions. The cuff region terminates to a terminal end defining an opening for insertion of a user hand therein. Preferably, the hand region comprises flock lining on at least the interior surface of the palm portion or one or more selected areas on the interior surface of the palm portion. The cuff region is free from having any flock lining.