Strength Improvement of NC-SwBKP Sheets with PAE-PVA Pre-mixed Complexes (I): Effect of Mixing Ratio and Dosages of Polymers

Jin-Soo Kim; Hyeong-Uk Joo; Min-Seok Oh; Tae-Soo Kwon; Jae-Hoon Lee; Byoung-Uk Cho

doi:10.7584/JKTAPPI.2019.02.51.1.72

All Issue

2019 Vol.51, Issue 1 Preview Page Next Page

Strength Improvement of NC-SwBKP Sheets with PAE-PVA Pre-mixed Complexes (I): Effect of Mixing Ratio and Dosages of Polymers PAE-PVA 복합체에 의한 NC-SwBKP 시트의 강도 향상(I): 고분자 혼합비율 및 첨가량의 영향

28 February 2019. pp. 72-81

PDF XML

Abstract

The effects of pre-mixed complexes of PAE (polyamideamine-epichlorohydrin) and PVA (polyvinyl alcohol) on wet web strength and dry strength of NC (nitrocellulose fibers) - SwBKP (softwood bleached kraft pulp) sheets were investigated in terms of the mixing ratio and the dosage of the polymers. It was found that the addition of PAE or PAE-PVA complexes increased wet web tensile strength and dry strength of NC-SwBKP sheets. Especially, a small portion of addition of PVA, i.e., about 5% to 10% of PVA with 90% to 95% of PAE, was effective for increasing wet web strength and dry strength such as tensile strength and compressive strength. Increased solids content of NC-SwBKP wet webs after wet pressing with increased temperature of the pressing plates improved wet web tensile strength. In addition, improved formation of dry sheets resulted in the increased wet web strength.

Keywords

Pre-mixed complex

NC-SwBKP sheet

PAE

PVA

wet web tensile strength

paper strength

References

Literature Cited

S. K. Kwon, J. S. Hwang, S. K. Choi and J. S. Kim, Journal of the Korean Institute of Military Science and Technology, Effect of CCC composition on burning characteristic for 120 mm kinetic energy ammunition, 8(4); 146-151 (2005)

Kwon, S. K., Hwang, J. S., Choi, S. K., and Kim, J. S., Effect of CCC composition on burning characteristic for 120 mm kinetic energy ammunition, Journal of the Korean Institute of Military Science and Technology 8(4):146-151 (2005).

F. W. Robbins, J. W. Colburn and C. K. Zoltani, Technical Report, Combustible cartridge cases: Current status and future prospects, U.S. Army Laboratory Command. (1992)

Robbins, F. W., Colburn, J. W., and Zoltani, C. K., Combustible cartridge cases: Current status and future prospects, Technical Report BRL-TR-3383, U.S. Army Laboratory Command (1992).

10.21236/ada254636

Department of Defence, Technical Report, Combustible cartridge cases: An account of the current technology and proposals for future development, Australia. Defence Science and Technology Organization Weapons Systems Research Laboratory. (1987)

Department of Defence, Combustible cartridge cases: An account of the current technology and proposals for future development, Technical Report WSRL-0471-TR, Defence Science and Technology Organization Weapons Systems Research Laboratory, Australia (1987).

W. T. Yang, J. X. Yang, Y. C. Zhang and S. J. Ying, Defence Technology, A comparative study of combustible cartridge case materials, 13; 127-130 (2017)

Yang, W. T., Yang, J. X., Zhang.. Y. C., and Ying, S. J., A comparative study of combustible cartridge case materials, Defence Technology 13:127-130 (2017).

10.1016/j.dt.2017.02.003

T. Lindström, L. Wågberg and T. Larsson, On the nature of joint strength in paper - A review of dry and wet strength resins used in paper manufacturingProceeding of 13th Fundamental Research Symposium, Cambridge, UK; 457-562, In (2005)

Lindström, T., Wågberg, L., and Larsson, T., On the nature of joint strength in paper - A review of dry and wet strength resins used in paper manufacturing, In Proceeding of 13th Fundamental Research Symposium, Cambridge, UK, pp. 457-562 (2005).

B. U. Cho, J. Y. Ryu, D. J. Son and B. K. Song, Journal of Korea TAPPI, Application of cationic PVAm - Anionic PAM dry strength aids system on a kraft paper mill, 42(3); 50-57 (2010)

Cho, B. U., Ryu, J. Y., Son, D. J., and Song, B. K., Application of cationic PVAm - Anionic PAM dry strength aids system on a kraft paper mill, Journal of Korea TAPPI 42(3):50-57 (2010).

E. D. Fornue, G. G. Allan, H. J. C. Quinones, G. T. Gonzalez and J. T. Saucedo, O Papel, Fundamental aspects of adhesion between cellulosic surfaces in contact - A review, 72(9); 85-90 (2011)

Fornue, E. D., Allan, G. G., Quinones, H. J. C., Gonzalez, G. T., and Saucedo, J. T., Fundamental aspects of adhesion between cellulosic surfaces in contact - A review, O Papel 72(9):85-90 (2011).

H. J. Kim, J. M. Won and B. U. Cho, Journal of Korea TAPPI, Strength improvement of linerboard by impregnation with PVAm, 44(1); 58-64 (2012)

Kim, H. J., Won, J. M., and Cho, B. U., Strength improvement of linerboard by impregnation with PVAm, Journal of Korea TAPPI 44(1):58-64 (2012).

10.7584/ktappi.2012.44.1.058

H. M. de Oliveira, Wet web strength development of paper, Canada. McGill University. (2007)

de Oliveira, H. M., Wet web strength development of paper, Master’s Thesis, McGill University, Canada (2007).

M. H. de Oliveira, M. Maric and T. G. M. van de Ven, Nordic Pulp and Paper Research Journal, The role of fiber entanglement in the strength of wet papers, 23(4); 426-431 (2008)

de Oliveira, M. H., Maric, M., and van de Ven, T. G. M., The role of fiber entanglement in the strength of wet papers, Nordic Pulp and Paper Research Journal 23(4):426-431 (2008).

10.3183/npprj-2008-23-04-p426-431

A. Tejado and T. G. M. van de Ven, Materialstoday, Why does paper get stronger as it dries?, 13(9); 42-49 (2010)

Tejado, A. and van de Ven, T. G. M., Why does paper get stronger as it dries?, Materialstoday 13(9):42-49 (2010).

10.1016/S1369-7021(10)70164-4

E. L. Back, Japan TAPPI Journal, The effect of temperature on wet web strength properties, 47(6); 18-27 (1993)

Back, E. L., The effect of temperature on wet web strength properties, Japan TAPPI Journal 47(6):18-27 (1993).

10.2524/jtappij.47.702

K. Salminen, The effect of some furnish and paper structure related factors on wet web tensile and relaxation characteristics, Finland. Lappeenanta University of Technology. (2010)

Salminen, K., The effect of some furnish and paper structure related factors on wet web tensile and relaxation characteristics, Doctoral Thesis, Lappeenanta University of Technology, Finland (2010).

J. Belle, S. Kleemann, J. Odermatt and A. Olbrich, BioReources, Demonstration of strength development in initial wet paper web using field emission-scanning electron microscopy (FE-SEM), 10(3); 4204-4225 (2015)

Belle, J., Kleemann, S., Odermatt, J., and Olbrich, A., Demonstration of strength development in initial wet paper web using field emission-scanning electron microscopy (FE-SEM), BioReources 10(3):4204-4225 (2015).

10.15376/biores.10.3.4204-4225

J. Belle and J. Odermatt, Cellulose, Initial wet web strength of paper, 23; 2249-2272 (2016)

Belle, J. and Odermatt, J., Initial wet web strength of paper, Cellulose 23:2249-2272 (2016).

10.1007/s10570-016-0961-7

X. Hua, T. Owston and M. Laleg, Wet-web strength and pressibility of highly filled sheetsProceedings of PaperCon 2011; 851-859, In (2011)

Hua, X., Owston, T., and Laleg, M., Wet-web strength and pressibility of highly filled sheets, In Proceedings of PaperCon 2011, pp. 851-859 (2011).

F. J. Sutman, The influence of filler content and process additives on wet web strength and runnabilityProceedings of PaperCon 2011; 919-925, In (2011)

Sutman, F. J., The influence of filler content and process additives on wet web strength and runnability, In Proceedings of PaperCon 2011, pp. 919-925 (2011).

P. Myllytie, Interactions of polymers with fibrillar structure of cellulose fibres: A new approach to bonding and strength in paper, Finland. Helsinki University of Technology. (2009)

Myllytie, P., Interactions of polymers with fibrillar structure of cellulose fibres: A new approach to bonding and strength in paper, Doctoral Thesis, Helsinki University of Technology, Finland (2009).

M. Nikolaeva, Measurement and improvement on wet paper web strength, Finland. Lappeenranta University of Technology. (2010)

Nikolaeva, M., Measurement and improvement on wet paper web strength, Master’s Thesis, Lappeenranta University of Technology, Finland (2010).

A. Tejado, M. Antal and T. G. M. van de Van, J-FOR, Effect of EDC/ADH fiber crosslinking on the wet web strength of BHKP with and without PCC loading, 1(1); 27-31 (2011)

Tejado, A., Antal, M., and van de Van, T. G. M., Effect of EDC/ADH fiber crosslinking on the wet web strength of BHKP with and without PCC loading, J-FOR 1(1):27-31 (2011).

K. Salminen, J. Kataja-aho, H. Lindqvist, E. Retulainen, T. Rantanen and A. Sundberg, The effects of certain polymers on tensile strength and tension relaxation of wet webPaperCon 2011; 825-832, TAPPI Press. (2011)

Salminen, K., Kataja-aho, J., Lindqvist, H., Retulainen, E., Rantanen, T., and Sundberg, A., The effects of certain polymers on tensile strength and tension relaxation of wet web, PaperCon 2011, TAPPI Press, pp. 825-832 (2011).

G. Petzold and S. Schwarz, Advanced Polymer Science, Polyelectrolyte complexes in flocculation applications, 256; 25-66 (2014)

Petzold, G. and Schwarz, S., Polyelectrolyte complexes in flocculation applications, Advanced Polymer Science 256:25-66 (2014)

10.1007/12_2012_205

R. Gernandt, L. Wågberg, L. Gärdlund and H. Dautzenberg, Colloids and Surfaces A: Physicochem. Eng. Aspects, Polyelectrolyte complexes for surface and modification of wood fibres I - Preparation and characterisation of complexes for dry and wet strength improvement of paper, 213; 15-25 (2003)

Gernandt, R., Wågberg, L., Gärdlund, L., and Dautzenberg, H., Polyelectrolyte complexes for surface and modification of wood fibres I - Preparation and characterisation of complexes for dry and wet strength improvement of paper, Colloids and Surfaces A: Physicochem. Eng. Aspects 213:15-25 (2003).

10.1016/S0927-7757(02)00335-7

L. Gärdlund, L. Wågberg and R. Gernandt, Colloids and Surfaces A: Physicochem. Eng. Aspects, Polyelectrolyte complexes for surface and modification of wood fibres II - Influence of complexes on wet and dry strength of paper, 218; 137-149 (2003)

Gärdlund, L., Wågberg, L., and Gernandt, R., Polyelectrolyte complexes for surface and modification of wood fibres II - Influence of complexes on wet and dry strength of paper, Colloids and Surfaces A: Physicochem. Eng. Aspects 218:137-149 (2003).

L. Gärdlund, M. Norgren, L. Wågberg and A. Marklund, Nordic Pulp and Paper Res. J., The use of polyelectrolyte complexes (PEC) as strength additives for different pulps used for production of fine paper, 22(2); 210-216 (2007)

Gärdlund, L., Norgren, M., Wågberg, L., and Marklund, A., The use of polyelectrolyte complexes (PEC) as strength additives for different pulps used for production of fine paper, Nordic Pulp and Paper Res. J. 22(2):210-216 (2007).

10.3183/npprj-2007-22-02-p210-216

M. C. Lofton, S. M. Moore, M. A. Hubbe and S. Y. Lee, Tappi J., Deposition of polyelectrolyte complexes as a mechanism for developing paper dry strength, 4(9); 3-8 (2005)

Lofton, M. C., Moore, S. M., Hubbe, M. A., and Lee, S. Y., Deposition of polyelectrolyte complexes as a mechanism for developing paper dry strength, Tappi J. 4(9):3-8 (2005).

E. C. Wang, Y. S. Perng, J. G. Shyu and C. M. Hsieh, Taiwan J. For. Sci., Effects of adding polyelectrolyte complexes to the papermaking wet end on paper strength and functionality, 27(2); 163-175 (2012)

Wang, E. C., Perng, Y. S., Shyu, J. G., and Hsieh, C. M., Effects of adding polyelectrolyte complexes to the papermaking wet end on paper strength and functionality, Taiwan J. For. Sci. 27(2):163-175 (2012).

C. Ankerfors, Polyelectrolyte complexes: Preparation, characterization, and use for control of wet and dry adhesion between surfaces, Sweden. KTH, Stockholm. (2012)

Ankerfors, C., Polyelectrolyte complexes: Preparation, characterization, and use for control of wet and dry adhesion between surfaces, Doctoral Thesis, KTH, Stockholm, Sweden (2012).

G. Xu, Wet strength improvement of paper via crosslinking of cellulose using polymeric carboxylic acids and aldehydes, USA. The University of Georgia. (2001)

Xu, G., Wet strength improvement of paper via crosslinking of cellulose using polymeric carboxylic acids and aldehydes, Ph.D. Thesis, The University of Georgia, USA (2001).

Y. Jang, H. Lee and H.-J. Kang, Polymer(Korea), Physical properties of poly(vinyl alcohol) with polyamide-epichlorohydrin as a wet strength additive for paper, 37(6); 730-735 (2013)

Jang, Y., Lee, H., and Kang, H.-J., Physical properties of poly(vinyl alcohol) with polyamide-epichlorohydrin as a wet strength additive for paper, Polymer(Korea) 37(6):730-735 (2013).

10.7317/pk.2013.37.6.730

Y. Jang, H. Lee and H.-J. Kang, Polymer(Korea), Enhancement of paper characteristics by polyvinyl alcohol/polyamide-epichlorohydrin coating as a complex strength additive, 38(5); 620-625 (2014)

Jang, Y., Lee, H., and Kang, H.-J., Enhancement of paper characteristics by polyvinyl alcohol/polyamide-epichlorohydrin coating as a complex strength additive, Polymer(Korea) 38(5):620-625 (2014).

10.7317/pk.2014.38.5.620

M. Ora, The effect of web structure on wet web runnability, Finland. Aalto University. (2012)

Ora, M., The effect of web structure on wet web runnability, Ph.D. Thesis, Aalto University, Finland (2012).

Information

Publisher :Korea Technical Association of The Pulp and Paper Industry
Publisher(Ko) :한국펄프종이공학회
Journal Title :Journal of Korea TAPPI
Journal Title(Ko) :펄프종이기술
Volume : 51
No :1
Pages :72-81
Received Date : 2019-01-28
Revised Date : 2019-02-17
Accepted Date : 2019-02-19
DOI :https://doi.org/10.7584/JKTAPPI.2019.02.51.1.72

Journal of Korea TAPPI ISSN:0253-3200(Print) 펄프종이기술

All Issue

Literature Cited