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Characteristics of aramid fibre/fibrids and their properties for sheet making
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Sufeng Zhang
Veröffentlicht/Copyright:
19. Juli 2018
Published Online: 2018-07-19
Published in Print: 2010-12-01
© 2018 by Walter de Gruyter Berlin/Boston
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Artikel in diesem Heft
- Mechanical Pulping: Influence of temperature on energy efficiency in double disc chip refining
- Chemical Pulping: Paper technical potential of spruce SO2-Ethanol-Water (SEW) pulp compared to kraft pulp
- Paper Chemistry and papermaking suspensions: The effect of flocculants, shear, vacuum and depithing on the formation of thin bagasse pulp pads
- Paper Chemistry and papermaking suspensions: AKD sizing behavior of high-bulk papers prepared with fatty acid diamide salts
- Paper Chemistry and papermaking suspensions: Novel methods to characterize and fractionate papermaking fibres
- Paper Physics: HOCS Fibre: CFD-based software for fibre orientation profile optimization for conventional and dilution headboxes
- Paper Physics: Effect of applied vacuum box suction on overall retention in hand sheet forming
- Paper Physics: Electroconductive paper – a study of polymer deposition and conductivity influenced by sheet forming and fibre beating
- Paper Physics: Plastic strain of moisture streaks at different moisture contents
- Characteristics of aramid fibre/fibrids and their properties for sheet making
- The influence of coating colour composition on the crack area after creasing
- A simplified material model for finite element analysis of paperboard creasing
- The mechanical and thermal properties of corrugated paper honeycomb: Part 1 – Experimental investigation
- Reduction of the linting and dusting propensity of newspaper using starch and microfibrillated cellulose
- Paperboard properties: The mechanical and thermal properties of corrugated paper honeycomb. Part 2 – Analytical determination
- Cellulose as a novel substrate for lateral flow assay
Schlagwörter für diesen Artikel
High performance fibres;
Microstructure;
Scanning electron microscopy (SEM);
Atomic force microscopy (AFM);
Sheet strength
Artikel in diesem Heft
- Mechanical Pulping: Influence of temperature on energy efficiency in double disc chip refining
- Chemical Pulping: Paper technical potential of spruce SO2-Ethanol-Water (SEW) pulp compared to kraft pulp
- Paper Chemistry and papermaking suspensions: The effect of flocculants, shear, vacuum and depithing on the formation of thin bagasse pulp pads
- Paper Chemistry and papermaking suspensions: AKD sizing behavior of high-bulk papers prepared with fatty acid diamide salts
- Paper Chemistry and papermaking suspensions: Novel methods to characterize and fractionate papermaking fibres
- Paper Physics: HOCS Fibre: CFD-based software for fibre orientation profile optimization for conventional and dilution headboxes
- Paper Physics: Effect of applied vacuum box suction on overall retention in hand sheet forming
- Paper Physics: Electroconductive paper – a study of polymer deposition and conductivity influenced by sheet forming and fibre beating
- Paper Physics: Plastic strain of moisture streaks at different moisture contents
- Characteristics of aramid fibre/fibrids and their properties for sheet making
- The influence of coating colour composition on the crack area after creasing
- A simplified material model for finite element analysis of paperboard creasing
- The mechanical and thermal properties of corrugated paper honeycomb: Part 1 – Experimental investigation
- Reduction of the linting and dusting propensity of newspaper using starch and microfibrillated cellulose
- Paperboard properties: The mechanical and thermal properties of corrugated paper honeycomb. Part 2 – Analytical determination
- Cellulose as a novel substrate for lateral flow assay
