Methods and apparatus for fabricating a molded fiber part. The die press assembly includes: a first plate having a first mold form and a first plurality of vent holes; and a second plate having a second mold form and a second plurality of vent holes; wherein: at least one of the first and second plates comprises a blade operable to cut the part; the die press assembly is configured to compress the molded fiber part between the first and second mold forms; and the first and second pluralities of vent holes are configured to remove moisture from the part.

Methods and apparatus for fabricating a molded fiber part. The die press assembly includes: a first plate having a first mold form and a first plurality of vent holes; and a second plate having a second mold form and a second plurality of vent holes; wherein: at least one of the first and second plates comprises a blade operable to cut the part; the die press assembly is configured to compress the molded fiber part between the first and second mold forms; and the first and second pluralities of vent holes are configured to remove moisture from the part.

A method for producing a dry solid of cellulose nanofiber, the method comprising (A) preparing a dispersion in which cellulose nanofiber with an average fiber diameter of 2 to 500 nm is dispersed in a mixed solvent of water and a water-soluble organic solvent; and (B) drying the dispersion.

A method for producing a dry solid of cellulose nanofiber, the method comprising (A) preparing a dispersion in which cellulose nanofiber with an average fiber diameter of 2 to 500 nm is dispersed in a mixed solvent of water and a water-soluble organic solvent; and (B) drying the dispersion.

The present disclosure relates to producing paper or paperboard having improved stiffness and strength, compared to the conventional paperboard at the same basis weight. It also discloses a method of wood pulping having a significantly increased yield and providing fiber pulps with enhanced properties such as strength and stiffness. Wood chips are chemically pulped to a high kappa number, providing a rejects component and an accepts component. The rejects component is subjected to a substantially mechanical pulping process, optionally in a presence of bleaching agent, prior to blending back into the accepts component. The resulting fiber blend is washed, optionally bleached, and subjected to a papermaking process to provide paper or paperboard with enhanced strength and stiffness at low basis weight.

The present disclosure relates to producing paper or paperboard having improved stiffness and strength, compared to the conventional paperboard at the same basis weight. It also discloses a method of wood pulping having a significantly increased yield and providing fiber pulps with enhanced properties such as strength and stiffness. Wood chips are chemically pulped to a high kappa number, providing a rejects component and an accepts component. The rejects component is subjected to a substantially mechanical pulping process, optionally in a presence of bleaching agent, prior to blending back into the accepts component. The resulting fiber blend is washed, optionally bleached, and subjected to a papermaking process to provide paper or paperboard with enhanced strength and stiffness at low basis weight.

Methods and apparatus for fabricating a molded fiber part. The die press assembly includes: a first plate having a first mold form and a first plurality of vent holes; and a second plate having a second mold form and a second plurality of vent holes; wherein: at least one of the first and second plates comprises a blade operable to cut the part; the die press assembly is configured to compress the molded fiber part between the first and second mold forms; and the first and second pluralities of vent holes are configured to remove moisture from the part.

Methods and apparatus for fabricating a molded fiber part. The die press assembly includes: a first plate having a first mold form and a first plurality of vent holes; and a second plate having a second mold form and a second plurality of vent holes; wherein: at least one of the first and second plates comprises a blade operable to cut the part; the die press assembly is configured to compress the molded fiber part between the first and second mold forms; and the first and second pluralities of vent holes are configured to remove moisture from the part.

The present disclosure relates to producing paper or paperboard having improved stiffness and strength, compared to the conventional paperboard at the same basis weight. It also discloses a method of wood pulping having a significantly increased yield and providing fiber pulps with enhanced properties such as strength and stiffness. Wood chips are chemically pulped to a high kappa number, providing a rejects component and an accepts component. The rejects component is subjected to a substantially mechanical pulping process, optionally in a presence of bleaching agent, prior to blending back into the accepts component. The resulting fiber blend is washed, optionally bleached, and subjected to a papermaking process to provide paper or paperboard with enhanced strength and stiffness at low basis weight.

The present disclosure relates to producing paper or paperboard having improved stiffness and strength, compared to the conventional paperboard at the same basis weight. It also discloses a method of wood pulping having a significantly increased yield and providing fiber pulps with enhanced properties such as strength and stiffness. Wood chips are chemically pulped to a high kappa number, providing a rejects component and an accepts component. The rejects component is subjected to a substantially mechanical pulping process, optionally in a presence of bleaching agent, prior to blending back into the accepts component. The resulting fiber blend is washed, optionally bleached, and subjected to a papermaking process to provide paper or paperboard with enhanced strength and stiffness at low basis weight.