Hostname: page-component-7479d7b7d-jwnkl Total loading time: 0 Render date: 2024-07-08T23:11:11.111Z Has data issue: false hasContentIssue false

Opportunities for Composites from Recycled Wood Based Resources

Published online by Cambridge University Press:  15 February 2011

Theodore H. Wegner
Affiliation:
USDA, Forest Service, Forest Products Laboratory, One Gifford Pinchot Drive, Madison, WI. 53705
John A. Youngquist
Affiliation:
USDA, Forest Service, Forest Products Laboratory, One Gifford Pinchot Drive, Madison, WI. 53705
Roger M. Rowell
Affiliation:
USDA, Forest Service, Forest Products Laboratory, One Gifford Pinchot Drive, Madison, WI. 53705
Get access

Abstract

A reduction is urgently needed in the quantities of industrial and municipal solid waste materials that are currently being landfilled. Major components of municipal solid waste include waste wood, paper, agriculture wastes, and other biomass fibers. In 1990, there were approximately 80 million tons of 6,000 different paper and paperboard products and 5.8 million tons of wood in the municipal solid waste stream. There are also potential millions of tons of wood fiber in timber thinnings, industrial wood waste, demolition waste, pallets, and pulp mill sludges. These materials offer great opportunities as recycled ingredients in wood-based composites. This paper discusses possibilities for manufacturing selected composites from these materials as well as materials which coexist with the wood-based resources such as plastics, fly ash, and gypsum.

Type
Research Article
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

References Cited

1. Kovacs, W.L., Ecology Law Quarterly 15(4):537625 (1988).Google Scholar
2. EPA. Report EPA/530-SW–90–042 (1990). U.S. Environmental Protection Agency, Washington, DC.Google Scholar
3. New York Legislation Commission on Solid Waste Management. The economics of recycling municipal waste (1986).Google Scholar
4. Kokta, B.V., Maldas, D., Daneault, C., and Beland, P., Polym. Compos. 11(2):8489 (1990).CrossRefGoogle Scholar
5. Maldas, D., Kokta, B.V., Raj, R.G., and Daneault, C., Polymer. 29:12551265 (1988).Google Scholar
6. Maldas, D., Kokta, B.V., and Daneault, C., J. Appl. Polym. Sci. 37:751775 (1989).CrossRefGoogle Scholar
7. Dalvag, H., Klason, C., and Stromvall, H.-E., Intern. J. Polym. Mater. 11:938 (1985).Google Scholar
8. Klason, C., Kubat, J., and Stromvall, H.-E., Intern. J. Polym. Mater. 10:159187 (1984).Google Scholar
9. Woodhams, R.T., Thomas, G., and Rodgers, D.K., Polym. Eng. Sci. 24(15):11661171 (1984).Google Scholar
10. Woodhams, R.T., Law, S., and Balatinecz, J.J., in Wood Adhesives 1990, edited by Conner, A.H., Christinasen, A.W., Myers, G.E., River, B.H., Vick, C.B. and Spelter, H.N., (Madison, WI 1990) pp. 177182.Google Scholar
11. Kishi, H., Yoshioka, M., Yamanoi, A., and Shiraishi, N., Mokuzai Gakkaishi. 34(2):133139 (1988).Google Scholar
12. Takase, S. and Shiraishi, N., J. Appl. Polym. Sci. 37:645659 (1989).Google Scholar
13. Maiti, S.N. and Hassan, M.R., J. Appl. Polym. Sci. 37:20192032(1989).CrossRefGoogle Scholar
14. Myers, G.E., Chahyadi, I.S., Gonzalez, C., Coberly, C.A., and Ermer, D.S., Intern. J. Polym. Mater. (In Press).Google Scholar
15. Selke, S.E., Yam, K.L., Gogoi, B., and Lai, C.C., Abstract, Cellulose, Paper and Textile Div., American Chemical Society, Toronto, Canada (1988).Google Scholar
16. Yam, K., Kalyankai, S., Selke, S., and Lai, C.C., ANTEC 1988. pp. 1809–1811 (1988).Google Scholar
17. Sciaraffa, M.A., Thome, D.G., and Bogt, C.M., U.S. Patent 4,333,979. (1982).Google Scholar
18. Bither, P., in, Air-Laid and Advanced Forming Conference, (Hilton Head Island, SC 1980)Google Scholar
19. Brooks, S.H., in, Tappi Nonwovens Conference, (1990) pp. 87108.Google Scholar
20. Roberts, J.R., U.S. Patent 2,714,072 (1955).Google Scholar
21. Roberts, J.R., U.S. Patent 2,759,837 (1956).Google Scholar
22. Caron, P.E. and Allen, G.D., U.S. Patent 3,367,820 (1968).Google Scholar
23. Caron, P.E. and Grove, G.A., U.S. Patent 3,230,287 (1966).Google Scholar
24. Caron, P.E. and Grove, G.A., U.S. Patent 3,261,898 (1966).Google Scholar
25. Caron, P.E. and Grove, G.A., U.S. Patent 3,265,791 (1966).Google Scholar
26. Grove, G.A. and Caron, P.E., U.S. Patent 3,279,048 (1966).Google Scholar
27. Doererand, R.P. Karpik, J.T., U.S. Patent 4,474,846 (1984).Google Scholar
28. Brooks, S.H., U.S. Patent 3,741,863 (1973).Google Scholar
29. Youngquistand, J.A. Rowell, R.M., in International Particleboard/Composite Materials Symposium edited by Maloney, T.M. (Pullman, WA 1989) pp. 141157.Google Scholar
30. Youngquist, J.A., Muehl, J., Krzysik, A., and Xin, Tu, in Joint International Conference on Processing and Utilization of Low-Grade Hardwoods and International Trade of Forest-Related Products, edited by Wang, S.Y. and Tang, R.E., (National Taiwan University, Taiwan 1990) pp. 159162.Google Scholar
31. Krzysik, A.M. and Youngquist, J.A., Intern. J. Adhesion and Adhesives. (In Press).Google Scholar
32. Crutchfield, D.A., Wicks, G.A., and Burnside, O. C., Weed Sci 34(1):110114 (1985).Google Scholar
33. Post, H., Wood Based Panels Intern. 10(7):23 (1990).Google Scholar
34. Moslemi, A.A., in IUFRO XIX World Congress, (Montreal, Canada, 1990) pp. 299312.Google Scholar
35. Donnell, R., Panel World 31(6):511 (1990).Google Scholar