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Strengthening effect of polyelectrolyte multilayers on highly filled paper

  • Jegon Lee und Hye Jung Youn EMAIL logo
Veröffentlicht/Copyright: 23. Mai 2018
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Nordic Pulp & Paper Research Journal
Aus der Zeitschrift Nordic Pulp & Paper Research Journal Band 33 Heft 1

Abstract

Polyelectrolyte multilayering (PEM) treatment is regarded as one of the surface modification techniques to increase paper strength. In this study, the strengthening effect of PEM treatment of highly filled paper was investigated. PEM treatment was performed on both fiber and filler with cationic starch and anionic polyacrylamide systems. Both approaches provided an improvement in the strength of filled paper. However, the strengthening effect of PEM treatment on fibers became weaker as filler content increased, whilst the PEM treatment on fillers was more effective in improving the strength of the highly filled paper. This was because PEM treatment on fillers improved bonding strength between fiber and filler as well as bonding strength between fillers. This was confirmed by the evaluation of specific debonding factor between fiber and filler, and the measurement of the breaking strength of dense film composed of fillers.

Keywords: fibers; fillers; high filler loading; paper strength; polyelectrolyte multilayer

Funding source: Korea Institute of Energy Technology Evaluation and Planning

Award Identifier / Grant number: 2013201010211B

Funding statement: This work was partially supported by the Energy Efficiency & Resources of the Korea Institute of Energy Technology Evaluation and Planning (KETEP) grant funded by the Ministry of Trade, Industry & Energy, Korea. (No. 2013201010211B).

  1. Conflict of interest: The authors do not have any conflicts of interest to declare.

References

Ahn, J., Lee, J., Lee, H.Y., Youn, H.J., Lee, H.L. (2012) Modification of GCC with Poly-DADMAC and PSS with different molecular weights and its effect on the paper properties. J. Korea TAPPI 44(5):21–31.10.7584/ktappi.2012.44.5.021Suche in Google Scholar

Chin, S.M., Youn, H.J., Ryu, J., Sim, K. (2012) Polyelectrolyte multilayering of fibers with different polymer combinations and a comparison of its effect on paper strength with a conventional dry strength agent treatment. Nord. Pulp Pap. Res. J. 27(5):915–922.10.3183/npprj-2012-27-05-p915-922Suche in Google Scholar

Eriksson, M., Notley, S.M., Wågberg, L. (2005) The influence on paper strength properties when building multilayers of weak polyelectrolytes onto wood fibres. J. Colloid Interface Sci. 292(1):38–45.10.1016/j.jcis.2005.05.058Suche in Google Scholar PubMed

Eriksson, M., Torgnysdotter, A., Wågberg, L. (2006) Surface modification of wood fibers using the polyelectrolyte multilayer technique: Effects on fiber joint and paper strength properties. Ind. Eng. Chem. Res. 45(15):5279–5286.10.1021/ie060226wSuche in Google Scholar

Hubbe, M.A. (2006) Bonding between cellulosic fibers in the absence and presence of dry-strength agents – A review. Bioresources 1(2):281–318.10.15376/biores.1.2.281-318Suche in Google Scholar

Hubbe, M.A., Gill, R.A. (2016) Fillers for papermaking: A review of their properties, usage practices, and their mechanistic role. Bioresources 11(1):2886–2963.10.15376/biores.11.1.2886-2963Suche in Google Scholar

Lee, J., Ahn, J., Lee, H.L., Lee, H., Youn, H.J. (2013a) Deposition behavior of LbL multilayered GCC particles on pulp fibers. Bioresources 8(4):5145–5158.10.15376/biores.8.4.5145-5158Suche in Google Scholar

Lee, J., Ryu, J., Sim, K., Ahn, J., Lee, H.L., Youn, H.J. (2011) Preliminary study on properties of Layer-by-Layer assembled GCC with polyelectrolytes. J. Korea TAPPI 43(3):35–42.Suche in Google Scholar

Lee, J., Sim, K., Lee, H.L., Youn, H.J. (2013b) Retention performance of nanocoated GCC with positive charge. J. Korea TAPPI 45(5):14–22.10.7584/ktappi.2013.45.5.014Suche in Google Scholar

Lee, J., Sim, K., Youn, H.J. (2017) Effect of salt concentration in polyelectrolyte multilayering on properties of modified GCC and filled paper. Nord. Pulp Pap. Res. J. 32(2):309–316.10.3183/npprj-2017-32-02-p309-316Suche in Google Scholar

Li, L., Collis, A., Pelton, R. (2002) A new analysis of filler effects on paper strength. J. Pulp Pap. Sci. 28(8):267–273.10.1002/psc.387Suche in Google Scholar PubMed

Lindström, T., Wågberg, L., Larsson, T. (2005) On the nature of joint strength in paper – A review of dry and wet strength resins used in paper manufacturing. In: 13th Fundamental Research Symposium, Cambridge. pp. 457–562.10.15376/frc.2005.1.457Suche in Google Scholar

Lingström, R., Notley, S.M., Wågberg, L. (2007) Wettability changes in the formation of polymeric multilayers on cellulose fibres and their influence on wet adhesion. J. Colloid Interface Sci. 314(1):1–9.10.1016/j.jcis.2007.04.046Suche in Google Scholar PubMed

Lingström, R., Wågberg, L., Larsson, P.T. (2006) Formation of polyelectrolyte multilayers on fibres: Influence on wettability and fibre/fibre interaction. J. Colloid Interface Sci. 296(2):396–408.10.1016/j.jcis.2005.09.017Suche in Google Scholar PubMed

Lundström-Hämälä, L., Johansson, E., Wågberg, L. (2010) Polyelectrolyte multilayers from cationic and anionic starch: Influence of charge density and saltconcentration on the properties of the adsorbed layers. Starch - Stärke 62(2):102–114.10.1002/star.200900176Suche in Google Scholar

Notley, S.M., Eriksson, M., Wågberg, L. (2005) Visco-elastic and adhesive properties of adsorbed polyelectrolyte multilayers determined in situ with QCM-D and AFM measurements. J. Colloid Interface Sci. 292(1):29–37.10.1016/j.jcis.2005.05.057Suche in Google Scholar PubMed

Page, D.H. (1969) A Theory for tensile strength of paper. Tappi 52(4):674–681.Suche in Google Scholar

Ryu, J., Youn, H.J., Chin, S.M., Lee, S. (2011) Effect of pH and conductivity in weak polyelectrolytes multilayering on paper properties. Nord. Pulp Pap. Res. J. 26(4):410–414.10.3183/npprj-2011-26-04-p410-414Suche in Google Scholar

Shen, J., Song, Z.Q., Qian, X.R., Liu, W.X. (2009) Modification of papermaking grade fillers: A brief review. Bioresources 4(3):1190–1209.10.15376/biores.4.3.1190-1209Suche in Google Scholar

Wågberg, L. (2009) On the mechanism behind the action of dry strength and dry strength agents. In: Pulp and Paper Chemistry and Technology: Volume 4 Paper Products and Technology. Ed. Ek, M. Walter de Gruyter GmbH & Co., Berlin. pp. 169–183.10.1515/9783110213461.169Suche in Google Scholar

Wågberg, L., Forsberg, S., Johansson, A., Juntti, P. (2002) Engineering of fibre surface properties by application of the polyelectrolyte multilayer concept. Part I: Modification of paper strength. J. Pulp Pap. Sci. 28(7):222–228.Suche in Google Scholar

Xu, Y.L., Chen, X.N., Pelton, R. (2005) How polymers strengthen filled papers. Tappi J. 4(11):8–12.Suche in Google Scholar

Received: 2017-07-28
Accepted: 2017-12-20
Published Online: 2018-05-23
Published in Print: 2018-05-23

© 2018 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Frontmatter
  2. Publisher’s note
  3. Now at De Gruyter: Nordic Pulp & Paper Research Journal
  4. Editorial
  5. News from Nordic Pulp & Paper Research Journal
  6. Chemical pulping
  7. Optimum strategies for pulp fractions refining
  8. Deinking
  9. Deinkability of different secondary fibers by enzymes
  10. Mechanical pulping
  11. Investigation of low consistency reject refining of mechanical pulp for energy savings
  12. Control strategies for refiners Part I: Soft sensors for CD-refiner control
  13. Control strategies for refiners Part II: Consistency control in twin-disc refining zones using temperature profile information
  14. Indications of the onset of fiber cutting in low consistency refining using a refiner force sensor: The effect of pulp furnish
  15. TMP properties and refining conditions in a CD82 chip refiner. Part I: Step changes of process variables, description of the tests
  16. TMP properties and refiner conditions in a CD82 chip refiner at different operation points. Part II: Comparison of the five tests
  17. Paper chemistry
  18. Parameters influencing hydrophobization of paper by surface sizing
  19. Effect of pigment sizing on printability and coating structure of decorative base paper
  20. Strengthening effect of polyelectrolyte multilayers on highly filled paper
  21. Paper physics
  22. The effect of the through-thickness moisture content gradient on the moisture accelerated creep of paperboard: Hygro-viscoelastic modeling approach
  23. Paper technology
  24. Online quality evaluation of tissue paper structure on new generation tissue machines
  25. Strong paper from spruce CTMP – Part II: Effect of pressing at nip press temperatures above the lignin softening temperature
  26. Printing
  27. Impact of non-uniform water absorption on water-interference print mottle in offset printing
https://doi.org/10.1515/npprj-2018-3010
Schlagwörter für diesen Artikel
fibers; fillers; high filler loading; paper strength; polyelectrolyte multilayer

Artikel in diesem Heft

  1. Frontmatter
  2. Publisher’s note
  3. Now at De Gruyter: Nordic Pulp & Paper Research Journal
  4. Editorial
  5. News from Nordic Pulp & Paper Research Journal
  6. Chemical pulping
  7. Optimum strategies for pulp fractions refining
  8. Deinking
  9. Deinkability of different secondary fibers by enzymes
  10. Mechanical pulping
  11. Investigation of low consistency reject refining of mechanical pulp for energy savings
  12. Control strategies for refiners Part I: Soft sensors for CD-refiner control
  13. Control strategies for refiners Part II: Consistency control in twin-disc refining zones using temperature profile information
  14. Indications of the onset of fiber cutting in low consistency refining using a refiner force sensor: The effect of pulp furnish
  15. TMP properties and refining conditions in a CD82 chip refiner. Part I: Step changes of process variables, description of the tests
  16. TMP properties and refiner conditions in a CD82 chip refiner at different operation points. Part II: Comparison of the five tests
  17. Paper chemistry
  18. Parameters influencing hydrophobization of paper by surface sizing
  19. Effect of pigment sizing on printability and coating structure of decorative base paper
  20. Strengthening effect of polyelectrolyte multilayers on highly filled paper
  21. Paper physics
  22. The effect of the through-thickness moisture content gradient on the moisture accelerated creep of paperboard: Hygro-viscoelastic modeling approach
  23. Paper technology
  24. Online quality evaluation of tissue paper structure on new generation tissue machines
  25. Strong paper from spruce CTMP – Part II: Effect of pressing at nip press temperatures above the lignin softening temperature
  26. Printing
  27. Impact of non-uniform water absorption on water-interference print mottle in offset printing
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