Add to ORKGAn enzymatic preparation consisting of cellulases and hemicellulases significantly affected the drainability and strength properties of an unbleached softwood Kraft pulp repulped in laboratory. The independent variables, treatment time and enzyme dose, were analysed using a central composite design for both the whole pulp and its fibrous fractions. Statistical analysis showed significant improvements in drainability. The effects of enzymatic treatments on strength properties were: increase in tensile index and apparent density and decrease in tear index and light scattering coefficients. Changes in fibre surfaces (initial and with enzyme treatment) could be observed by Simons´ differential stain.Fil: Taleb, María Claudia. Universidad Nacion...
In This Study,Effect of Enzymatic Deinking on Mechanical Strength of old newspaper was investigated ...
Abstract: Enzymatic modification of bleached softwood kraft fibres for improved fibre reactivity was...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...
The present study analyses the effects of the enzymatic treatment with Pergalase A40 (a blend of cel...
The effect of refining and enzymatic treatment on secondary fibre properties is shown. The following...
The use of enzymes in secondary fiber (old paperboard containers) upgrading was investigated. The fo...
A cellulase and a xylanase enzyme preparation were assessed for their potential to enhance the fibe...
Effects of recycling ECF-bleached softwood kraft pulp on pulp properties were evaluated in the labor...
Biotechnological treatment of pulps provides great potential for the reduction of energy consumption...
The enzymatic mode of action in paper fibre upgrading is still uncertain. In an attempt to clarify h...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...
The effects of carbohydrate-degrading enzymes on three softwood kraft pulps, differing primarily in ...
The use of paper grade pulp is an intriguing possibility for broadening the raw material base for re...
Recycling and deinking processes cause fiber damage because of hornification phenomena and increased...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...
In This Study,Effect of Enzymatic Deinking on Mechanical Strength of old newspaper was investigated ...
Abstract: Enzymatic modification of bleached softwood kraft fibres for improved fibre reactivity was...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...
The present study analyses the effects of the enzymatic treatment with Pergalase A40 (a blend of cel...
The effect of refining and enzymatic treatment on secondary fibre properties is shown. The following...
The use of enzymes in secondary fiber (old paperboard containers) upgrading was investigated. The fo...
A cellulase and a xylanase enzyme preparation were assessed for their potential to enhance the fibe...
Effects of recycling ECF-bleached softwood kraft pulp on pulp properties were evaluated in the labor...
Biotechnological treatment of pulps provides great potential for the reduction of energy consumption...
The enzymatic mode of action in paper fibre upgrading is still uncertain. In an attempt to clarify h...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...
The effects of carbohydrate-degrading enzymes on three softwood kraft pulps, differing primarily in ...
The use of paper grade pulp is an intriguing possibility for broadening the raw material base for re...
Recycling and deinking processes cause fiber damage because of hornification phenomena and increased...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...
In This Study,Effect of Enzymatic Deinking on Mechanical Strength of old newspaper was investigated ...
Abstract: Enzymatic modification of bleached softwood kraft fibres for improved fibre reactivity was...
Fibre reactivity is essential for cellulose dissolution and derivatisation and a porous fibre struct...