Free access
Ann. For. Sci.
Volume 62, Number 3, April-May 2005
Page(s) 275 - 284
References of Ann. For. Sci. 62 275-284
  1. Ali M., Emsley A.M., Herman H., Heywood R.J., Spectroscopic studies of the ageing of cellulosic paper, Polymer 42 (2001) 2893-2900 [CrossRef].
  2. Borovikov A.M., Rvanina A.M., Unified method of determining the limit of hygroscopicity of wood, Lesnoi Zhurnal, USSR 16 (1973) 168-169.
  3. Burmester A., Zur Dimensionsstabilisierung von Holz, Holz Roh- Werkst. 33 (1975) 333-335.
  4. Cudinov B.S., Andreev M.D., Hygroscopicity of wood at temperatures below zero degrees centigrade. 2. The condition of the hygroscopic moisture and the equilibrium moisture content, Leipzig, VEB Fachbuchverlag, Holztechnologie 19 (1978) 147-151.
  5. Cudinov B.S., Andreev M.D., Stepanov V.I., Fink el'stein A.V., The hygroscopicity of wood at temperatures below 0 °C. I. Sorption and fibre saturation point, Holztechnologie 19 (1978) 91-94.
  6. Davis W.H., Thompson W.S., Influence of thermal treatments of short duration on the toughness and chemical composition of wood, For. Prod. J. 14 (1964) 50-356.
  7. Djolani B., Hystérèse et effets de second ordre de la sorption d'humidité dans le bois aux températures de 5, 21, 35, 50 °C, Ann. Sci. For. 29 (1972) 465-474.
  8. D'yakonov K.F., Kur'yanova T.K., Change in the hygroscopicity of Birch wood after thermal treatment and long-term storage, Lesnoi Zhurnal, USSR 6 (1975) 162-163.
  9. D'yakonov K.F., Shchekin V.A., Change in the hygroscopicity of Scots pine wood as a result of the temperature effect during cyclic heating, Lesotekh. Inst., Voronezh, USSR, Lesnoi Zhurnal 1 (1981) 65-67.
  10. Engelhardt F., Investigations on the sorption of water vapour by beech wood in the temperature range 110 to 170 °C, Inst. fur Holzforschung der Univ. Munchen, German Federal Republic, Holz Roh- Werkst. 37 (1979) 99-112.
  11. Hillis W.E., Rozsa A.N., High temperature and chemical effects on wood stability. Part 2, The effect of heat on the softening of radiata pine, Wood Sci. Technol. 19 (1985) 57-66.
  12. Hunt D.G., Gril J., Evidence of a physical ageing phenomenon in wood, J. Mater. Sci. Lett. 15 (1996) 80-82.
  13. Kollmann F., Tecnología de la Madera y sus aplicaciones. Tomo primero. Instituto Forestal de Investigaciones y experiencias y servicio de la madera, Madrid, 1959, pp. 121-195.
  14. Krutul D., Sorption and desorption of the Entandophragma sp. wood after extraction with selected organic solvents, Zeszyty naukowe, Technologia drewna, Akademia Rolnicza w. Warszawie 10 (1979) 19-33.
  15. Matejak M., Effect of wood drying on sorption isotherms, Holzforschung Holzverwertung 35 (1983) 80-84.
  16. Molinski W., Deformations of wood stretched across the grain during simultaneous moistening and re-drying in humid air, Fac. Wood Tech., Agric. Univ. Poznan, Poland 39 (1987) 116-118.
  17. Rowell R.M., Youngs R.L., Dimensional stabilization of wood in use, USDA Forest Service research note FPL, United States, Forest Products Laboratory, Jan. 1981, No. 0243, 1981.
  18. Rozsa A.N., Hillis W.E., High temperature and chemical effects on wood stability. Part 4. Testing for the stability of dried pine wood, CSIRO Div. Chem. Wood Technol. Australia 41 (1987) 115-118.
  19. Shukla K.S., Jain V.k., Bhalla H.K.L., Kumar S., Physical and mechanical properties of wood-wool boards. I. Hygroscopicity and dimensional stability, J. Timber Dev. Assoc. India 27 (1981) 41-45.
  20. Simpson W., Sorption theories applied to wood, Wood and fibre, 1980.
  21. Spiess W.E.L., Wolf W.R., The results of the COST 90 project on water activity. Physical properties of foods, Ed. R. Jowitt, London, 1983.
  22. Struik L.C.E., Physical ageing in amorphous polymers and other materials, Elsevier, Amsterdam, Oxford, New York, 1978.
  23. Victor V.J., Capillary hysteresis in wood, Indian Acad. Wood Sci. J. 2 (1971) 73-83.
  24. Volchanova M.N., Sorption hystereris of comminuted wood, Lesnoi Zhurnal, USSR 1 (1976) 118-121.