Disclosed is a dip-formed article obtained by dip-molding a latex composition for dip-forming, which contains a crosslinking agent and a latex for dip-forming containing a copolymer composed of 40-80% by weight of conjugated diene monomer units (A) containing an isoprene unit, 20-45% by weight of ethylenically unsaturated nitrile monomer units (B), and 2-15% by weight of ethylenically unsaturated acid monomer units (C), and having a weight ratio of butadiene unit content to isoprene unit content that falls within the range of 60:40 to 100:0. Tear strength is at least 50 N/mm, tensile strength is at least 25 MPa, and oil swelling rate does not exceed 5%.

A wearable protection item having a redeemable member is disclosed. The wearable protection item may include a protective glove and a redeemable member. The protective glove may include a finger region, a thumb region, a palm region, a wrist region, and a separable region. The wrist region and the separable region may define an opening into the protective glove. The opening may include an edge. The separable region may be adjacent to the wrist region and the thumb region. The redeemable member may include an exterior surface and an interior surface, where at least one of the exterior surface or the interior surface has indicia thereon, and where the redeemable member is adhered to the separable region.

A glove includes a glove core and a glove component. The glove core includes a palm portion, a dorsum portion and a side portion of hand. A side of the glove component is adhered on a surface of the glove core, and the glove component covers a part of the palm portion and a part of the dorsum portion of the glove core, a part of the palm portion and a part of the side portion of hand of the glove core, or a part of the dorsum portion and a part of the side portion of hand of the glove core, such that the glove core can be combined with the enhanced glove component, forming a structure which is simple in structure and can be formed easily. Furthermore, the robustness of the glove can be improved significantly to be provided with practicability and progressiveness.

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.

A protective guard for a hand, finger or thumb includes a first thermoplastic layer heat welded to second thermoplastic layer. The second thermoplastic layer has a thickness that is greater than the thickness of the first thermoplastic layer.

A cut resistant hydrophobic glove includes a main body portion having a front side and a rear side, the main body portion enclosing the palm and back of a user's hand, finger portions and a thumb portion. The main body portion, the finger portions and the thumb portion are each knitted as a single layer of material formed from a yarn that is a composite yarn having a core constructed of one or more core filaments and a sheath constructed of two or more filaments. At least one of the core filaments is a formed from a high performance material having cut resistant properties and at least one of the sheath filaments is formed from a material exhibiting hydrophobic characteristics. A cut resistant hydrophobic sleeve and a yarn for making the glove and sleeve are disclosed.

A protective guard for a hand, finger or thumb includes a first thermoplastic layer heat welded to second thermoplastic layer. The second thermoplastic layer has a thickness that is greater than the thickness of the first thermoplastic layer.

Disclosed is a glove that alleviates the biasing force associated with opening or closing the hand and fingers. In some aspects the glove may have preformed angled portions at one or more joints or locations on the hand to enable the hand to flex between the open and closed position.

A glove that is less prone to slip on the hand, and/or that provides for better tactile sensation, and/or that provides a better outer grip. The glove has an outer surface, an inner surface, and one or more of: ridges, an inner grip material, and one or more sensory windows at places where greater tactile sensation is desired. The inner grip material friction with the skin and/or is tacky to help maintain the glove in position on the hand. The glove may also include an outer material and/or throwing grip material.

A wearable protection item having a redeemable member is disclosed. The wearable protection item may include a protective glove and a redeemable member. The protective glove may include a finger region, a thumb region, a palm region, a wrist region, and a separable region. The wrist region and the separable region may define an opening into the protective glove. The opening may include an edge. The separable region may be adjacent to the wrist region and the thumb region. The redeemable member may include an exterior surface and an interior surface, where at least one of the exterior surface or the interior surface has indicia thereon, and where the redeemable member is adhered to the separable region.