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Thursday, 20 October 2016

La relation entre les propriétés des panneaux de fibres de densité moyenne et les caractéristiques du bois - Collection des mémoires et thèses à l'Université Laval


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Cave, I. D. and Walker, J. C. F. Stiffness of wood in fast-grown plantation softwoods: the influence of microfibril angle . Forest Prod. J. 44(5): 43-48; 1994.
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Cockrell, R. A. A comparison of latewood pits, fibril orientation and shrinkage of normal and compression wood of giant sequoia . Wood Sci. Tech. 6:58; 1974.
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Groom, L. H., Mott, L. and Shaler, S. M. Relationship between fiber furnish properties and the structural performance of MDF . 33rdInternational Particleboard/Composite Materials Symposium Proceedings. April 13-15, Washington State Univ., Pullman, Washington, USA. 1999.
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Harris, J. M. and Meylan, B. A. The influence of microfibril angle on longitudinal and tangential shrinkage in Pinus radiata . Holzforschung. 19(5):144-153; 1965.
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Hse, C. Y. Gluability of southern pine earlywood and latewood . Forest Prod. J. 18(12): 32-36; 1968.
Hse C. Y. Properties of flakeboards from hardwoods growing on southern pine sites . Forest Prod. J. 25(3): 48-53; 1975.
Hsu, W. E. Wood quality requirements for panel products . Proceeding of the CTIA-IUFRO international wood quality workshop, Timber management toward wood quality and end-product value. Québec City, Canada. I-7/10; 1997.
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Johns, W. E. and Niazi, K. A. Effect of pH and buffering capacity of wood on the gelation time of urea-formaldehyde resin . Wood Fiber Sci. 12(4):255-263; 1980.
Johns, W. E., Rammon, R. M. and Youngquist, J. Chemical effects of mixed hardwood furnish on panel properties . Proceedings 19thInternational Particleboard/Composite Materials Symposium, Maloney, T. M. Ed. Washington State University. Pullman, WA; Pp. 363-377; 1985.
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Kure, K. A., Sabourin, M. J., Dahlqvist, G. and Helle, T. Adjusting refining intensity by changing refiner plate design and rotation speed-effects on structural fiber properties . Proceeding 85th Annual meeting PAPTAC, B59-B65, Montreal. 1999.
Kure, K. A. and Dahlqvist, G. Development of structural fiber properties in high intensity refining . Pulp Pap. Can. 99(7): 233-237; 1998.
Lambuth, A. L. Procedure for determining the pH and buffering capacity of wood . Lab Test Method No. 142, Monsanto Company Seattle Research. 1967.
Law, K., Valade, J., Rioux, S. and Lanouette, R. Wood and paper properties of five short-rotation poplar clones grown in Quebec . October 19, 1997 pulping conference: proceedings (TAPPI): 847-856; 1997.
Leney, L. A technique for measuring fibril angle using polarized light . Wood Fiber Sci. 13(1): 13-16; 1981.
Li, M., Gertjejansen, R. O. and Ritter, D. C. Red pine thinnings as a raw material for waferboard . Forest Prod. J. 41(7/8): 41-43; 1991.
Maloney, T. M. A Technical Workshop: Juvenile Wood-What Does It Mean to Forest Management and Forest Products? Madison. Forest Products Research Society. 1986.
Maloney, T. M. Modern particleboard & dry-process fiberboard manufacturing . Updated edition. San Francisco. Miller Freeman Inc. 1993.
Manwiller, F. G. Senarmont compensation for determining fibril angles of cell wall layers . Forest Prod. J. 16(10): 26-30; 1966.
Marian, J. E., Maxey, C. W. Surface texture of wood as related to glue-joint strength . Forest Prod. J. 8(12): 345-351; 1958.
Mark, R. E. and Gillis P. P. The relationship between fiber modulus and S 2 angle . Tappi. 56: 164-167; 1973.
McMillin, C. W. Fiberboards from loblolly pine refiner groundwood: Effects of gross wood characteristics and board density . Forest Prod. J. 18(8): 51-59; 1968.
McMillin, C. W. Fiberboards from loblolly pine refiner groundwood: Aspects of fiber morphology . Forest Prod. J. 19(7): 56-61; 1969.
Megraw, R. A. Wood quality factors in loblolly pine . Tappi, Atlanta, GA. 88 pp; 1985.
Megraw, R. A., Leaf, G., Bremer, D. and Weyerhaeuser Co. Longitudinal shrinkage and microfibril angle in loblolly pine. Microfibril Angle in Wood. The Proceeding of the IAWA/IUFRO International Workshop on the Significance of Microfibril Angle to Wood Quality, Westport, New Zealand, Nov. 1998.
Meylan, B. A. Cause of high longitudinal shrinkage in wood . Forest Prod. J. 18(4):75-78; 1968.
Meylan, B. A. and Probine, M. C. Microfibril angle as a parameter in timber quality assessment . Forest Prod. J. 19(4): 30-34; 1969.
Moss, P.A., and E. Retulainen. The effect of fines on fiber bonding: cross-sectional dimensions of TMP fibers at potential bonding sites. In: Proceeding of the Int’l. Paper Physics Conference Niagara-on-the-Lake, Ontario. TAPPI: 97-101; 1995.
Myers, G. C. How fiber acidicty affected functional properties of dry-formed hardboards . USDA Forest Service Research Paper, Forest Products Laboratory, Madison. No. FPL 282, 8pp; 1977.
Myers, G. C. How adjusting fiber acidity improved strength of dry-formed hardboards . Forest Prod. J. 28(3): 48-50; 1978.
Myers, G. C. Relationships of fiber preparation and characteristics to performance of medium-density hardboards . Forest Prod. J. 33(10): 43-51; 1983.
Myers, G. C. Characterization of fiberboard pulp . Forest Prod. J. 37(2):30-36; 1987.
Mullins, E. J. and McKnight, T. S. Canadian Woods: Their Properties and Uses . University of Toronto, Toronto, Ontario. 1981.
Navi, P. Three dimensional modelling of wood microstructure for the prediction of fibre elastic properties . Proceeding of the Mechanical Behaviour of Wood. Bordeaux, France. pp70-80; 1988.
Nelson, N. D. Effects of wood and pulp properties on medium-density, dry-formed hardboard . Forest Prod. J. 23(9):72-80; 1973.
Palmer, C. L. Short-rotation culture of populus and larix: A literature review . Canada-Ontario For. Res. Dev. Agr. 65p; 1991.
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Panshin, A. J. and DeZeeuw, C. Textbook of Wood Technology . 4th ED. McGraw-Hill Book Co. New York, NY. 1980.
Peter J. J., Bender D.A., Wolcott M. P. and John J. D. Selected properties of hybrid poplar clear wood and composite panels . Forest Prod. J. 52(5): 45-54; 2002.
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Pugel, A. D., Price, E. W. and Hse, C. Y. Composites from southern pine juvenile wood. Part 1. Panel fabrication and initial properties . Forest Prod. J. 40(1): 29-33; 1989.
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Shupe, T. F., Hsu, C. Y., Choong, E. T. and Groom, L. H. Differences in some chemical properties of innerwood and outwood from five silviculturally different loblolly pine stands . Wood Fiber Sci. 29(1): 91-97; 1997.
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Snell, R., Groom, L. H. and Rials, T. G. Characterizing the surface roughness of thermomechanical pulp fibers with Atomic Force Microscopy . Holzforschung. 55(5): 511-520; 2001.
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Vallee, G. and Stipanicic, A. Growth and performance of larch plantations . Proceedings of a symposium sponsored by the Ontario Ministry of Natural Resources and the Faculty of Forestry, University of Toronto. Toronto, Ontario, Nov. 9, 1982. 1983.
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Winistorfer, P. M., Young, T. M. and Walker, E. Modeling and comparing vertical density profiles . Wood Fiber Sci. 28(1): 133-141; 1996.
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