Disclosed herein are cellulose/polysaccharide composites comprising a) cellulose; and b) an enzymatically-produced polysaccharide, certain derivatives of an enzymatically-produced polysaccharide, or a mixture thereof; wherein the enzymatically-produced polysaccharide and the polysaccharide derivative are water-insoluble. The cellulose is plant-derived. The composites are useful in forming articles such as paper, packaging material, or insulating material.

Suspensions can include a polar solvent, sulfonated polyester material dispersed in the polar solvent, and cellulose nanofibril material dispersed in the polar solvent. Suspensions disclosed and contemplated herein leverage polyester that can be used to independently control film formation and rheology. In some instances, polyesters used in suspensions disclosed herein can perform the role of two additives: aqueous thickener and film reinforcement

Suspensions can include a polar solvent, sulfonated polyester material dispersed in the polar solvent, and cellulose nanofibril material dispersed in the polar solvent. Suspensions disclosed and contemplated herein leverage polyester that can be used to independently control film formation and rheology. In some instances, polyesters used in suspensions disclosed herein can perform the role of two additives: aqueous thickener and film reinforcement

A binder that is used for forming fiber-based items and that binds fibers contains a polyester and an aggregation inhibitor. The polyester contains a structural unit derived from polyethylene terephthalate, a structural unit derived from at least one polyvalent carboxylic acid, and a structural unit derived from at least one polyhydric alcohol including trimethylolpropane. The binder exhibits a viscosity coefficient higher than 3500 P at 150° C. in dynamic viscoelasticity measurement.

A binder that is used for forming fiber-based items and that binds fibers contains a polyester and an aggregation inhibitor. The polyester contains a structural unit derived from polyethylene terephthalate, a structural unit derived from at least one polyvalent carboxylic acid, and a structural unit derived from at least one polyhydric alcohol including trimethylolpropane. The binder exhibits a viscosity coefficient higher than 3500 P at 150° C. in dynamic viscoelasticity measurement.

The present invention concerns a packaging material having a coating made of a biopolymer composition. In addition, the invention concerns a method for providing barrier properties for a packaging material by using the above mention composition. In particular, the present invention concerns coating of a porous material with a composition comprising a biopolymer formed by the reaction product of biodegradable polyester and siloxane precursor.

The invention relates to a siplid 2, a container provided with such siplid and a method therefor. The siplid comprises: • - a container side 4, a consumer side 6, and a siplid plane 12 having a siplid axis 14; • - an edge 8 configured for surrounding a container opening to cover the container opening; • - a drinking opening 18 in the siplid having a length L substantially extending in the circumferential direction of the siplid, and having a width W substantially extending in the radial direction of the siplid; • - a moveable tab 20 configured for covering the opening in a closed position; • - a recess 22 configured for receiving the moveable tab in an open position; • - a hinge 32 configured for enabling rotational movement of the tab around a hinge axis; and • - a section line 16 extending in the siplid plane dividing the opening in two equal parts, and a division line 34 in between the opening and the recess extending substantially perpendicular to the section line wherein the hinge axis is provided at a lid angle to the division line.

The invention relates to a siplid 2, a container provided with such siplid and a method therefor. The siplid comprises: • - a container side 4, a consumer side 6, and a siplid plane 12 having a siplid axis 14; • - an edge 8 configured for surrounding a container opening to cover the container opening; • - a drinking opening 18 in the siplid having a length L substantially extending in the circumferential direction of the siplid, and having a width W substantially extending in the radial direction of the siplid; • - a moveable tab 20 configured for covering the opening in a closed position; • - a recess 22 configured for receiving the moveable tab in an open position; • - a hinge 32 configured for enabling rotational movement of the tab around a hinge axis; and • - a section line 16 extending in the siplid plane dividing the opening in two equal parts, and a division line 34 in between the opening and the recess extending substantially perpendicular to the section line wherein the hinge axis is provided at a lid angle to the division line.

Cellulose particles treated with a bio-based surfactant can be compounded into a polymer composite having improved mechanical properties, such as tensile strength and/or tensile modulus. Treatment can be integrated into an industrial scale continuous cellulose particle production process, and the process provides one or more of reduced environmental impact, reduced energy consumption, reduced chemical consumption, reduced water consumption, reduced processing/operational cost, reduced capital investment, increased output, improved fiber dispersion in the polymer matrix and improved thermal degradation properties of the composite.

Cellulose particles treated with a bio-based surfactant can be compounded into a polymer composite having improved mechanical properties, such as tensile strength and/or tensile modulus. Treatment can be integrated into an industrial scale continuous cellulose particle production process, and the process provides one or more of reduced environmental impact, reduced energy consumption, reduced chemical consumption, reduced water consumption, reduced processing/operational cost, reduced capital investment, increased output, improved fiber dispersion in the polymer matrix and improved thermal degradation properties of the composite.