Hostname: page-component-8448b6f56d-mp689 Total loading time: 0 Render date: 2024-04-25T03:54:55.467Z Has data issue: false hasContentIssue false
  • English
  • Français

The Basic Effects of Recycling on Pulp Properties

Published online by Cambridge University Press:  15 February 2011

R. C. Howard  and
W. Bichard
R. C. Howard
Affiliation:
Pulp and Paper Research Institute of Canada, 570 St. John's Boulevard, Pointe Claire, Quebec, Canada H9R 3J9
W. Bichard
Affiliation:
Pulp and Paper Research Institute of Canada, 570 St. John's Boulevard, Pointe Claire, Quebec, Canada H9R 3J9
Get access

Abstract

Using standard laboratory procedures it was found that different pulp types showed very different recycling effects. Mechanical pulp fibres became flatter and more flexible giving a denser, stronger sheet. Beaten chemical pulp fibres “hornified”, resulting in a bulkier, weaker sheet. Unbeaten chemical pulp fibres were initially curly; recycling removed the curl. A mechanical/chemical pulp blend revealed that these effects occur at different rates. In no case was there evidence of fibre strength loss, or of fibre embrittlement. In these laboratory experiments, fines loss during sheetmaking affected the magnitude of the sheet properties, but not the trends.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 266: Symposium LA – Materials Interactions Relevant to Recycling of Wood-Based Materials , 1992 , 195
Copyright
Copyright © Materials Research Society 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Howard, R.C., J.P.P.S. 16,5, J.143149 (1990).Google Scholar
2. Kajaani FS-200 Users Manual. Publd. by Kajaani Electronics, Finland (1989).Google Scholar
3. Cowan, W.F., Pulp & Paper 46,3, p. 86 (1972).Google Scholar
4. Stone, J.E. and Scallan, A.M., Cell Chem. Tech. 2,3, p. 343358 (1968).Google Scholar
5. Jordan, B.D. and Page, D.H., Trans BPBIF Symp. “Role of Fundamental Research in Papermaking” Vol II p. 746765, London, U.K. (1983).Google Scholar
6. De Silveira, G., Presented at 78th Annual Meeting, CPPA, Montreal, Canada (1992).Google Scholar
7. Clark, J d'A, “Pulp Technology and Treatment for Paper” 2nd Edition, Chapter 22, Miller Freeman Publn, San Francisco, USA (1985).Google Scholar
8. Attwood, D., Paper Technology, 31,11, p. 34 (1990).Google Scholar
9. Clark, D., Tappi 73,7 p. 33 (1990).Google Scholar
10. Lundberg, R. and de Ruvo, A., Svensk Papperstidning 81,11 p. 355357 (1978).Google Scholar
11. Pycraft, C.J. and Howarth, P., Paper Tech. & Ind. 21,10, p. 321324 (1980).Google Scholar
12. Göttsching, L. and Sturmer, L., Trans. BPBIF Symp. “Fibre-Water Interactions in Papermaking” Vol II p. 877896, London, U.K. (1975).Google Scholar
13. Cowan, W.F., Preprints CPPA Annual Meeting, Tech. Sect. CPPA, p. A149, Montreal (1988).Google Scholar
14. Tasman, J.E., Pulp & Paper Mag. of Can. 67, 12. p. T553 (1966).Google Scholar
15. Bobalek, J.F. and Chaturvedi, M., TAPPI 72,6, p. 123125 (1989).Google Scholar
16. Van Wyk, W. and Gerischer, G., Paperi ja Puu 64,9, p. 526533 (1982).Google Scholar
17. Cildir, H. and Howarth, P., Paper Technology 13,5, p. 333335 (1972).Google Scholar
18. McKee, R.C., Paper Trade Journal, 155,21, p. 3440 (1971).Google Scholar
19. Horn, R.A., Paper Trade Journal, 159, 7/8, p. 7882 (1975).Google Scholar
20. Steadman, R.K. and Luner, P., Trans BPBIF Symp. “Papermaking Raw Materials”, Vol I, p. 311337, London, UK, (1985).Google Scholar
21. TAPPI: Official Test Method T 511 om-88.Google Scholar
22. Guest, D. and Weston, J., Preprints, TAPPI Pulping Conference, Atlanta (1986).Google Scholar
23. Bovin, A., Hartler, N. and Teder, A., Paper Technology 14,5, p. 261264 (1973).Google Scholar
24. Page, D.H., TAPPI 52, 4, p. 674681 (1969).Google Scholar
25. Lundberg, R. and de Ruvo, A., Svensk Papp. 81, 12, p. 383386.Google Scholar
26. Fellers, C., Htun, M., Kolman, M. and de Ruvo, A., Svensk Papp. 81, 14, p. 443446 (1978).Google Scholar
27. Scallan, A.M. and Tigerström, A.C., Preprints of 1st Research Forum on Recycling, Toronto, 29–31 October 1991, published by CPPA, Canada, p.149 (1991).Google Scholar
28. Back, E.L., Trans. BPBIF Symp. “Fibre-Water Interactions in Papermaking”, Vol II p. 873874, London, UK (1978).Google Scholar
29. Jayme, G., Wochenblatt für Papierfabrikation, 6, p. 187194 (1944).Google Scholar
30. Page, D.H., Svensk Papperstidning 88,3, p.R30 (1985).Google Scholar
31. Swarcsztajn, E. and Przybysz, K., Trans BPBIF Symp. “Fibre-Water Interactions in Papermaking”, Vol. II p. 857876, London, UK (1978).Google Scholar
32. “Interim Report of the Pulp Evaluation Committee”, p. 61. Tech. Sect. of Papermakers' Assoc. of Gt. Britain and Ireland, London, UK (1929).Google Scholar
33. Jayme, G., TAPPI 41,11 p. 180A–183A.Google Scholar