A method for producing a laminate including a substrate and a rubber layer, the rubber layer having a thickness of 200 m or more from the surface of the substrate, the method including contacting the substrate in a heated state with a polymer latex having a viscosity of 2,000 to 100,000 mPa.Math.s at 25 C. to thereby coagulate the polymer in contact therewith to form the rubber layer.

Protective element or attachment to place on a glove finger, consisting in a resistant, hard piece with a half-round shape, closed at its end and open at the opposite end and partly on its lateral sides. Moreover, said element has its top part in the shape of an elongated semicircle connected to a half-ring. Additionally, the safety glove having at least one protective element located at the top dorsal part of one of the glove fingers is described.

A composite structure for stab protection includes layers of flat structures placed on top of each other, and an embedding material, wherein, in at least some of the layers placed on top of each other, the flat structures of adjacent layers are offset relative to one another, the flat structures of the composite structure are at least partially embedded in the embedding material, and the composite structure includes separated connecting elements, wherein before they are separated, the separated connecting elements have connected at least some of the flat structures of adjacent layers with one another.

The present invention provides a glove including a coagulated film of an aqueous polyurethane composition containing anionic polyurethane (A), which has an oxyalkylene group content within a range of 4 to 12 mol/kg and a urea bond content of 0.2 mol/kg or less, and an aqueous medium (B). The anionic polyurethane (A) is preferably the reaction product of polyoxytetramethylene glycol, a glycol having a carboxyl group, ethylene glycol, and diphenylmethane diisocyanate or the reaction product of polyoxytetramethylene glycol, a glycol having a carboxyl group, butanediol, and diphenylmethane diisocyanate. The average particle diameter of the anionic polyurethane (A) is preferably within a range of 0.01 to 1 m.

A glove apparatus is disclosed comprising a substantially glove-shaped first layer, a substantially glove-shaped second layer, and an attachment tab comprising a lower portion, an upper portion, and an extension portion. The attachment tab is attached to a finger portion of the second layer along the lower portion and along the upper portion. The extension portion extends from the attachment tab at a location distal from a fingertip of the second layer and overlies the upper portion to an attachment region on the first layer proximate a fingertip of the first layer, the fingertips of the first layer and of the second layer thereby lying substantially near or in contact with one another.

In one aspect, a method of manufacturing a protective textile may include steps of (a) twisting a first yarn with a tungsten filament; and (b) using a second yarn to cover the yarn-tungsten product generated in step (a). The yarn generated in step (b) is further twisted with an elastic spandex. In one embodiment, the first yarn is selected from a group of Nylon, Polyethylene Terephthalate (PET), cotton yarn, bamboo fiber and Tencel. In another embodiment, a Polyethylene (PE) fiber is the second yarn, and the third yarn may include Nylon, PET or PE. The protective textile is advantageous because it is light, thin, soft and highly cut resistant. Also, it has great electrical conductivity and chemical stability, and it is not easy to deform after washing.

The present invention discloses a highly cut-resistant ultrahigh molecular weight polyethylene fiber, made of a ultrahigh molecular weight polyethylene and an inorganic ultrafine micropowder having a nanocrystalline structural morphology, wherein the inorganic ultrafine micropowder is one of an oxide, carbide, and nitride of aluminium, titanium, silicon, boron, and zirconium, or a combination thereof, and has an average diameter of 0.1-300 m and a content of 0.1-14% of the total weight of the fiber. The present invention further discloses a method for preparing a highly cut-resistant ultrahigh molecular weight polyethylene fiber, comprising: adding nanocrystalline silicon carbide particles to a solvent, and repeatedly grinding by a sand mill; adding a ultrahigh molecular weight polyethylene, and the silicon carbide nanoparticles to a solvent, and mixing until uniform by stirring by a homogenizer with high shear, to obtain a spinning solution; and subjecting the spinning solution to conventional gelation spinning, and extracting and hot drawing the gel filament spun, to obtain a composite fiber. In the present invention, by introducing the nanocrystalline ultrafine particles into the ultrahigh molecular weight polyethylene fiber, the composite fiber of ultrahigh molecular weight polyethylene/nanocrystalline ultrafine particles has a quite excellent cut-resistant performance.

A color splash effect is established by a darker backdrop color of an outer surface of a liquid proof and heat resistant glove in the event that a portion of the glove ruptures or fails. The color splash effect is accomplished by a lighter and brighter color being visible through the rupture in the glove. The lighter and brighter color may be formed on or as part of a protective member positioned beneath the outer layer. The protective member also protects the wearer against sharp objects contacting the outer layer of the glove and moving over the protective member. Some embodiments provide that the protective member is in a thumb crotch region of the glove.

Method and apparatus for a mitt for attachment to a hand of a user to facilitate the shucking of an oyster. The mitt is made of strong flexible material and includes a flat palm pad portion having a plurality of finger loops attached thereto so that the fingers of the hand of a user can be placed through the loops so that the palm pad portion can be held securely to the hand of the user. The palm pad includes a rear portion disposed near a wrist of a user having an adjustable strap attached thereto which encircles the wrist of the user for securing the mitt to the hand of the user and includes hook and loop material. A reinforcing planar member is attached to an underside of the palm pad portion for reinforcing the palm pad portion and for contacting and gripping the shell of an oyster.

A layered, laminated glove includes an outer layer, a membrane formed from a liquid-resistant, air permeable material positioned on an inner surface of the outer layer and a liner formed from a moisture absorbing material. The liner is positioned on an inner surface of the membrane. The outer layer, membrane and liner are laminated to form a single glove. The glove includes a plurality of fingertip portions in which the outer layer, membrane and liner are substantially fully laminated throughout. The glove may include a 3D pattern formed in one or more layers of the laminate. The glove may include an enlarged knuckle section. A hand mold and system for making the gloves and a method are also disclosed.