Nanocellulose dispersion compositions containing a partitioning agent and a nanocellulose, and methods of making the nanocellulose dispersion compositions, are disclosed. These compositions can promote improved dispersibility of the nanocellulose fibrils and nanocellulose crystals in polymer matrices, such as in elastomer formulations for use in tire production.

Nanocellulose dispersion compositions containing a partitioning agent and a nanocellulose, and methods of making the nanocellulose dispersion compositions, are disclosed. These compositions can promote improved dispersibility of the nanocellulose fibrils and nanocellulose crystals in polymer matrices, such as in elastomer formulations for use in tire production.

The present invention discloses a composition which uses bio-based, biodegradable film formers to provide a durable strippable coating. The coating includes a film former configured to form a continuous film on the substrate. The coating includes a solvent, wherein the solvent is configured to result an easy application of the substance on the substrate. The coating includes one or more additives. The one or more additives include a plasticizer to improve flexibility of the film. The one or more additives include a release agent configured to reduce adhesion of the coating on the substrate. The one or additives a thickener configured for adjusting a viscosity and of the coating.

The present invention discloses a composition which uses bio-based, biodegradable film formers to provide a durable strippable coating. The coating includes a film former configured to form a continuous film on the substrate. The coating includes a solvent, wherein the solvent is configured to result an easy application of the substance on the substrate. The coating includes one or more additives. The one or more additives include a plasticizer to improve flexibility of the film. The one or more additives include a release agent configured to reduce adhesion of the coating on the substrate. The one or additives a thickener configured for adjusting a viscosity and of the coating.

Disclosed is a dipping composite material for enhancing the cut resistance of chemical-resistant gloves, wherein an additive is added to a latex, and the additive is a metal oxide and/or silica and/or glass fiber and/or basalt fiber and/or aramid fiber. The present invention improves the formula of a dipping layer such that the dipping layer has the cut resistance, which can significantly improve the cut resistant level of gloves.

Disclosed is a dipping composite material for enhancing the cut resistance of chemical-resistant gloves, wherein an additive is added to a latex, and the additive is a metal oxide and/or silica and/or glass fiber and/or basalt fiber and/or aramid fiber. The present invention improves the formula of a dipping layer such that the dipping layer has the cut resistance, which can significantly improve the cut resistant level of gloves.

The present invention relates to a thermoplastic composite material comprising an organic fibrous material and a thermoplastic binding agent, wherein the thermoplastic binding agent is selected from a polymer from the group comprising styrene-acrylate. Furthermore, the invention relates to a method for producing a thermoplastic composite material and to the use of the thermoplastic composite material.

The present invention relates to a thermoplastic composite material comprising an organic fibrous material and a thermoplastic binding agent, wherein the thermoplastic binding agent is selected from a polymer from the group comprising styrene-acrylate. Furthermore, the invention relates to a method for producing a thermoplastic composite material and to the use of the thermoplastic composite material.

An object of the present invention is to provide a rubber composition that has tensile strength at break and tensile elongation superior to a rubber composition produced without mixing a cellulose nanofiber and to provide a latex immersion liquid that is a raw material for the rubber composition and is used at a latex immersion step. Namely, the present invention provides a latex immersion liquid that includes (1) a rubber latex, (2) a modified cellulose nanofiber having an average fiber length of 200-400 nm, and (3) a defoaming agent and also provides a rubber composition produced through a latex immersion step using the obtained latex immersion liquid.

An object of the present invention is to provide a rubber composition that has tensile strength at break and tensile elongation superior to a rubber composition produced without mixing a cellulose nanofiber and to provide a latex immersion liquid that is a raw material for the rubber composition and is used at a latex immersion step. Namely, the present invention provides a latex immersion liquid that includes (1) a rubber latex, (2) a modified cellulose nanofiber having an average fiber length of 200-400 nm, and (3) a defoaming agent and also provides a rubber composition produced through a latex immersion step using the obtained latex immersion liquid.