Ciprian Lazarescu scite author profile

This article reports on the wood shrinkage during drying in relationship with the temperature and moisture content. All tests were performed perpendicular to the grain on small clear wood specimens of green Western hemlock while drying at 40, 60, and 80 C to 17, 11, and 5% final moisture contents. Overall, wood dimensional changes and moisture loss phenomena were successfully analyzed and interpolated. The shrinkage strain followed a nonlinear pattern with the moisture loss being the driving force and exhibited good correlation with the square value of moisture content in tangential, and linear moisture values could be used to describe shrinkage in radial direction. Both shrinkage intersection points and end of capillary water values increased with temperature; the distinction between the two values could not be made at all times. A nonlinear function containing two regression coefficients (a and b) was found to be a good interpolation of the moisture loss experimental data. Further analyses revealed that b is independent of both target moisture content and temperature, whereas a appears to be influenced by both variables. The correlation between shrinkage and moisture loss rate is intended to be used as a stress prediction tool.

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Radio frequency heating pasteurization of pine wood nematode (Bursaphelenchus xylophilus) infected wood

Lazarescu

Dale²,

Uzunovic³

et al. 2010

Eur. J. Wood Prod.

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Ciprian Lazarescu

A Novel Method of Measuring Moisture Content Distribution in Timber During Drying Using CT Scanning and Image Processing Techniques

Density and Moisture Profile Evolution during Timber Drying by CT Scanning Measurements

Drying Related Strain Development in Restrained Wood

Modeling Shrinkage Response to Tensile Stresses in Wood Drying: I. Shrinkage-Moisture Interaction in Stress-Free Specimens

Radio frequency heating pasteurization of pine wood nematode (Bursaphelenchus xylophilus) infected wood

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