참고문헌
- Acda, M. N. 1995. Supercritical fluid impregnation of wood based composites. Ph. D. dissertation, Oregon State University. Corvallis, OR, p. 160
- Acda, M. N., J. J. Morrell, and K. L. Levien. 1997a. Effects of supercritical fluid treatments on physical and mechanical properties of wood-based composites. Wood and Fiber Science 29(2): 121-130
- Acda, M. N., J. J. Morrell, and K. L. Levien. 1997b. Effects of process variables on supercritical fluid impregnation of composites with tebuconazole. Wood and Fiber Science 29(3):282-290
- Acda, M. N., J. J. Morrell, and K. L. Levien. 2001. Supercritical fluid impregnation of selected wood species with tebuconazole. Wood Science and Technology. 35: 127-136 https://doi.org/10.1007/s002260100086
- Bolton, A. J. and P. E. Humphrey. 1994. The permeability of wood-based composite materials. Part I. A review of the literature and some unpublished work. Holzforschung 48: (Suppl.) 95-100 https://doi.org/10.1515/hfsg.1994.48.s1.95
-
Brogle, H. (1982)
$CO_2$ in solvent extraction. Chemistry and Industry (19): 385 - 390 - Denisov, O. B., P. P Anisov, and P. E. Zuban. 1975. Untersuchungen der PermeabiIitaet von Spanvliesen. Holztechnologie 14(1): 43-46
- Futo, L. P. 1970. Pruefung der Luft-, Dampf- und Wasserdurchlaessigkeit von Holzwerkstoffen (Testing the air-, steam- and water permeability of wood based materials). Holz als Roh- und Werkstoff. 28(11): 423-429 https://doi.org/10.1007/BF02621464
- Haas, G. Y., A. Steffen, and A. Fruehwald. 1998. Untersuchungen zur Permeabilitaet von Faser-, Span- und OSB-Matten fuer Gase. Holz als Rohund Werkstoff 56: 386-392 https://doi.org/10.1007/s001070050338
- Hoyle, R. J. Jr., R. Y. Itani, and J. T. Anderson. 1994. The effect of moisture cycling on creep of small glued laminated beams. Wood Fiber Sci. 26(4): 556-562
- Janssen's product information sheet, n. d. Retrieved May 1, 2002. from http://www.janssenpharmaceutica.be/pmp/Pages/database/$Evipol/$leaflets/PIS%20Evipol%20technical.pdf
- Kang, S. 2002. Supercritical fluid impregnation with biocides of wood using temperature reduction. Ph.D. Dissertation, Oregon State Univ., Corvallis, OR. p. 126
- Krukonis, Y. J. 1988. Processing with supercritical fluids: overview and applications. ACS Symposium Series. 366: 27-43. America Chemical Society, Washington D.C
- Lehmann, W. F. 1972. Moisture-stability relationship in wood-based composition boards. For. Prod. J. 22(7): 53-59
- Muin, M., A. Adachi, and K. Tsunoda. 2001. Applicability of supercritical carbon dioxide to the preservative treatment of wood-based composites. Int. Res. Group on Wood Pres. Doc. No. IRG/WP/01-40199. Stockholm, Sweden. p. 5
- Oberdorfer, Georg. 2001. Development of internal pressure during supercritical fluid impregnation of wood composites and its effect on material properties. M.S. Dissertation, University of Agricultural Science, Vienna
- Sahle-Demessie, E. 1994. Deposition of chemicals in semi-porous solids using supercritical fluid carriers. Ph.D. dissertation, Oregon State University, Corvallis, OR, p. 301
- Schneider, P. F. 1999. Pressure measurement in wood as a method to understand pressure impregnation processes: Bethell, Rueping, Lowry, and supercritical carbon dioxide. Ph.D. Dissertation, Oregon State Univ., Corvallis, OR. p. 243
- Tsunoda and Muin. 2003. Preservative treatment of wood-based composites with mixture formulation of IPBC-silafluopen using supercritical carbon dioxide as a carrier gas. Int. Res. Group on Wood Pres. Doc. No. IRG/ WP/03-40251. Stockholm, Sweden. p. 8
- United Sates Department of Agriculture (USDA). 1999. Wood Handbook: Wood as an engineering material. USDA. Washington, D.C. p. 474
- Zavala, D. and P.E. Humphrey. 1996. Hot pressing veneer-based products: the interaction of physical process. Forest Prod. J. 46(1): 69-77