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Artifacts in electrical measurements on wood caused by non-uniform moisture distributions

Formally Refereed

Abstract

This paper examines how the moisture conditioning method affects the electrical conductance of wood. A widely used dataset was acquired by Stamm in 1929 who used a method of conditioning where water-saturated wood specimens were partially dried, sealed and left for a period of time for moisture to be redistributed before the electrical conductance was measured. However, more recent measurements combined conditioning above saturated salt solutions and pressure plate/pressure membrane techniques to obtain equilibrium moisture contents at constant relative humidity levels in the full moisture range. In this paper, the electrical conductance as a function of moisture content was compared for these two conditioning methods. When the specimens were conditioned to constant relative humidity levels, the data obeyed a percolation model better than when the conditioning procedure by Stamm was used. This was attributed to that Stamm's method gives moisture gradients through the specimen because of sorption hysteresis effects, even though the wood is conditioned to a steady-state moisture content. Equilibration to constant relative humidity levels thus provided more well-defined moisture states and that the data followed a percolation model indicates that the mechanism of electrical conduction in wood does not change, even at high moisture contents.

Keywords

Electrical conduction, ionic conduction, moisture content, percolation theory, wood

Citation

Fredriksson, Maria; Thybring, Emil Engelund; Zelinka, Samuel L. 2021. Artifacts in electrical measurements on wood caused by non-uniform moisture distributions. Holzforschung. 75(6): 517-525. https://doi.org/10.1515/hf-2020-0138.
Citations
https://www.fs.usda.gov/research/treesearch/62973