Free Access
Ann. For. Sci.
Volume 65, Number 7, October-November 2008
Article Number 701
Number of page(s) 9
Published online 20 September 2008
References of  Ann. For. Sci. 65 (2008) 701
  1. Allison F.E., 1965. Decomposition of wood and bark sawdust in soil: Nitrogen requirements and effects on plants. USDA Agr. Res. Serv. Tech. Bull. No. 1332, 58 p.
  2. American Society for Testing and Material 2005. D 1037–99. In: Standard test methods for evaluating properties of wood-based fiber and particle panel materials. ASTM Annual Book of Standards. Volume 04.10 West Conshohocken, Pa, pp.140–170.
  3. Anonymous, 2005. Données sur le problème des écorces. Ministère des Ressources Naturelles du Québec (MRNQ).
  4. ANSI, 1999. American National Standard Institute. ANSI A208.1 – 1999, Particleboard 11 p.
  5. Blanchet P., Cloutier A., and Riedl B., 2000. Particleboard made from hammer milled black spruce residues. Wood Sci. Technol. 34: 11–19 [CrossRef].
  6. Boquillon N., Elbez G., and Schonfeld U., 2004. Properties of wheat straw particleboards boned with different types of resin. J. Wood Sci. 50: 230–235.
  7. Chow P., 1976. Properties of medium-density, dry-formed fiberboard from seven hardwood residues and bark. For. Prod. J. 26(5): 48–55.
  8. Collin J., 2003. Dispositifs expérimentaux. BVG-60678. Notes de cours, Université Laval Dost W.A., 1971. Redwood bark fiber in particleboard. For. Prod. J. 21(10): 38–43.
  9. Fengel D. and Wegener G., 1989. Wood – Chemistry, Ultrastructure, Reactions. Walter de Gruyter, Berlin, New York, pp. 240–267.
  10. Gersonde M. and Deppe H.J., 1968. Möglichkeiten und Verfahren Technische Voraussetzungen einer Schutzbehandlung von Holzspanplatten gegen holzzerstörende Pilze. Holzforschung 55: 876–877.
  11. Hergert H.L., 1958. Chemical composition of cork from white fir bark. For. Prod. J. 8: 335–339.
  12. Holloway P.J., 1972. The composition of suberin from the corks of Quercus suber L. and Betula pendula Roth. Chem. Physiol. Lipids 9: 158–170 [CrossRef].
  13. Kozlowski R. and Helwig M., 1998. Lignocellulosic polymer composite. In: Prasad P.N. (Ed.), Science and Technology of Polymer and Advanced Materials, Plenum Press, New York, pp. 679–698.
  14. Lehmann W.F. and Geimer R.L. 1976. Properties of structural particleboards from Douglas-fir forest residues. For. Prod. J. 24(10): 17–25.
  15. Lundqvist E.K. and Back L.E., 1976. The use of bark for wood based panels. Critical evaluation. Swedish Forest Products Research Laboratory, Stockholm. Presented at ECE/FAO, Timber Division, Symposium on extending the use of wood residues, in Bucarest, Romania, September–October 1, 1976.
  16. Maloney T.M., 1973. Bark boards from four west coast softwood species. For. Prod. J. 23(8): 30–38.
  17. Montgomery D.C., 2005. Design and analysis of experiments. 6th ed., Arizona State University.
  18. Nemli G. and Çolakoglu G., 2005. Effects of mimosa bark usage on some properties of particleboard. Turk J. Agric. For. 29: 227–230.
  19. Nemli G., Gezer E.D., Y$\imath $ld$\imath $z S., Temiz A., and Aydin A., 2006. Evaluation of the mechanical, physical properties and decay resistance of particleboard made from particles impregnated with Pinus brutia bark extractives. Bioresour. Technol. 97: 2059–2064 [PubMed] [CrossRef].
  20. Pedieu R., Riedl B., and Pichette A., 2008. Measurement of wood and bark particles acidity and their impact on the curing of urea-formaldehyde resin during the hot pressing of mixed panels. Holz Roh- Werkst. 66: 113–117 [CrossRef].
  21. Roffael E., Schneider T., Behn C., and Pedieu R., 2004. Alternativen zu OSB-Strands aus Industrieholz. Holz-Zentralblatt : unabhängiges Organ für die Forst- und Holzwirtschaft, 130 (48): 633–634.
  22. Sampathrajan A., Vijayaraghavan N.C., and Swaminathan K.R., 1992. Mechanical and thermal properties of particleboards made from farm residues. Bioresour. Technol. 40: 249–251 [CrossRef].
  23. Schmidt L.E., Hall J.H., Gertjejansen O.R., Hermann J., and Hall H., 1978. Strength reductions in particleboard caused by fungi. For. Prod. J. 28(2): 26–31.
  24. Smith J.G.H. and Kozak A., 1967. Thickness and percentage of bark of the commercial trees of British Columbia. Faculty of forestry, University of British Columbia, Vancouver, 27 p.
  25. Swan E.P., 1968. Alkaline ethanolysis of. extractive-free western red cedar bark. Tappi 51(7): 301–304.
  26. Villeneuve E., 2004. Utilisation de l'écorce du peuplier faux-tremble pour la fabrication des panneaux de particules. Mémoire de maîtrise, département des sciences du bois et de la forêt, Université Laval, Québec.
  27. Volz K.R., 1973. Production and properties of boards from spruce, pine, and beech bark. Holz Roh- Werkst. 31: 221–229 [CrossRef].
  28. Willeitner H., 1956. Über die Mykologische Prüfung von Holzspan-platten. Materialpruf. 7: 129–134.
  29. Wisherd K.D. and Wilson J.B., 1979. Bark as supplement to wood furnish for particleboard. For. Prod. J. 29(2): 35–39.
  30. Woodson G., 1975. Effects of bark, density profile, and resin content on medium density fiberboards from southern hardwoods. For. Prod. J. 26(2):39–42.
  31. Xing C., Deng J., Zhang S.Y., Riedl B., and Cloutier A., 2006. Impact of bark content on the properties of medium density fiberboard (MDF) in four species grown in eastern Canada. For. Prod. J. 56(3): 64–69.
  32. Youngquist J.A., 1995. Unlikely partners? The marriage of wood and non-wood materials. For. Prod. J. 45(10): 25–30.
  33. Youngquist J.A., English B.E., Spelter H., and Chow P., 1993a. Agriculture fibers in composition panels, In: Maloney Thomas M. (ed.), Proceedings, 27th international particleboard/composite materials symposium, 1993 March 30–April 1, Pullman, WA, Washington State University, pp. 133–135.
  34. Youngquist J.A., Myers G.E., Muehl J.M., Krzysik A.M., and Clemens C.M., 1993b. Composites from recycled wood and plastics. Final Rep., US Environmental Protection Agency, Project IAG DW12934608–2. Madison, WI: US Department of Agriculture, Forest Service, Forest Products Laboratory.
  35. Youngquist J.A., English B.E., Scharmer R.C., Chow P., and Shook S., 1994. Literature review on use of non-wood plants fibers for building materials and panels. Gen. Tech. Rep. FPL–GTR–80. Madison, WI: US Department of Agriculture, Forest Service, Forest Products Laboratory.