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Wood Science and Technology
Erschienen in: Wood Science and Technology 6/2008

01.08.2008 | Original

Statics and kinetics of water vapor sorption of small loblolly pine samples

verfasst von: Trairat Neimsuwan, Siqun Wang, Adam M. Taylor, Timothy G. Rials

Erschienen in: Wood Science and Technology | Ausgabe 6/2008

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Abstract

A better understanding of the sorption behavior of different wood structures could be useful in protecting wood against wood deterioration and fungal attack. The purpose of this study was to investigate the effect of differences among earlywood, latewood, and tree ring location within the stem cross-section of loblolly pine (Pinus taeda) on the sorption kinetics and statics of water vapor under ambient conditions. The water vapor sorption of earlywood and latewood in different tree rings was recorded using a dynamic contact angle analyzer under relative humidity changes from 11 to 89%, as provided by saturated salt solutions. Earlywood had higher sorption rates and diffusion coefficients than latewood, while outer tree rings had higher sorption rates and diffusion coefficients than inner tree rings. The sorption isotherms of earlywood, latewood, and different tree ring locations within the stem cross-section were fitted very well by a Hailwood–Horrobin model.
Vorheriger Artikel Effect of pre-drying schedule ramping on collapse recovery and internal checking with Victorian Ash eucalypts
Nächster Artikel Dose–response relationships between wood moisture content, wood temperature and fungal decay determined for 23 European field test sites

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Literatur
American Society for Testing Materials (ASTM) (1999) Standard test methods for evaluating properties of wood-base fiber and particle panel materials. ASTM D 1037-99. ASTM, Philadelphia
Bodig J, Jayne AJ (1993) Mechanics of wood and wood composites. Van Nostrand Reinhold, New York
Choong ET (1963) Movement of moisture through a softwood in the hygroscopic range. For Prod J 13(11):489–498
Christensen GN, Kelsey KE (1958) The sorption of water vapour by the constituents of wood: determination of sorption isotherms. Austr J Appl Sci 9:265–282
Comstock LG (1963) Moisture diffusion coefficients in wood as calculated from adsorption, desorption, and steady state data. For Prod J 13(3):97–103
Downes JG, Mackay BH (1958) Sorption kinetics of water vapor in wool fibers. J Polym Sci 28:45–67CrossRef
Efremov GI (2002) Drying kinetics derived from diffusion equation with flux-type boundary condition. Drying Technol 20(1):55–66CrossRef
Fakhouri B, Mounji M, Vergnaud JM (1993) Comparison of the adsorption and desorption of water between Scots pine and spruce after submersion in water. Holzforschung 47:271–277CrossRef
Greethamma VG, Thomas S (2005) Diffusion of water and artificial seawater through coir fiber reinforced natural rubber composites. Polym Comp 26:136–143CrossRef
Hailwood AJ, Horrobin S (1946) Absorption of water by polymers: analysis in terms of simple model. Trans Faraday Soc 42B:84–102CrossRef
Hartley ID, Kamke FA, Peemoeller H (1992) Cluster theory for water sorption in wood. Wood Sci Technol 26:83–99CrossRef
Hse CY (1972) Wettability of southern pine veneer by phenol formaldehyde wood adhesives. For Prod J 22(1):51–56
Kim JW, Carlborn K, Matuana LM, Heiden PA (2006) Thermoplastic modification of urea-formaldehyde wood adhesives to improve moisture resistance. J Appl Polym Sci 101:4222–4229CrossRef
Lide DR (1994) CRC handbook of chemistry and physics, 75th edn. CRC Press, Boca Raton
Liu JY (1989) A new method for separating diffusion coefficient and surface emission coefficient. Wood Fiber Sci 21:133–141
Maldas DC, Kamdem DP (1999) Wettability of extracted southern pine. For Prod J 49(11/12):91–93
National Institute of Standards, Technology (NIST) (1993) Pine standard reference material-8493. NIST, Gaithersburg
Panshin AJ, DeZeeuw C (1980) Textbook of wood technology. McGraw-Hill, New York
Pham X, Vittadini E, Levin RE, Chinachoni P (1999) Role of water mobility on mold spore germination. J Agric Food Chem 47:4976–4983PubMedCrossRef
Shupe TE, Hse CY, Choong ET, Groom LH (1998) Effect of wood grain and veneer side of loblolly pine veneer wettability. For Prod J 46(6):95–97
Siau JF (1995) Wood: influence of moisture on physical properties. Department of Wood Science and Forest Products, Virginia Tech, Virginia
US Department of Agriculture, Forest Service (USDA Forest Service) (1974) Wood handbook: wood as an engineering material. Forest Products Laboratory, Washington DC
Uysal B (2006) Effects of the steam test on bonding strength of laminated veneer lumbers manufactured by using different adhesives. J Appl Polym Sci 99:2973–2977CrossRef
Wadso L (1993) Measurements of water vapour sorption in wood. Part 2. Results. Wood Sci Technol 28:59–65CrossRef
Wadso L (1994) A test of different methods to evaluate the diffusivity from unsteady-state sorption measurement. Drying Technol 12(8):1863–1876CrossRef
Wang SY, Liau CF (1998) Assessment of hygroscopic conditioning performance of interior decorative materials. IV. Sorption characteristics of wood under high relative humidity condition. J Wood Sci 44:260–266CrossRef
Metadaten
Titel
Statics and kinetics of water vapor sorption of small loblolly pine samples
verfasst von
Trairat Neimsuwan
Siqun Wang
Adam M. Taylor
Timothy G. Rials
Publikationsdatum
01.08.2008
Verlag
Springer-Verlag
Erschienen in
Wood Science and Technology / Ausgabe 6/2008
Print ISSN: 0043-7719
Elektronische ISSN: 1432-5225
DOI
https://doi.org/10.1007/s00226-007-0165-2

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