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Mechanical properties of spruce wood cell walls by nanoindentation
Authors:W. Gindl  H.S. Gupta  T. Schöberl  H.C. Lichtenegger  P. Fratzl
Affiliation:(1) Department of Materials Science and Process Engineering, BOKU Vienna, Gregor Mendel Strasse 33, 1180 Vienna, Austria;(2) Department of Biomaterials, Max Planck Institute of Colloids and Interfaces, 14424 Potsdam, Germany;(3) Erich Schmid Institute for Materials Science, Austrian Academy of Sciences, Jahnstrasse 12, 8700 Leoben, Austria;(4) Institute for Materials Science & Testing, Vienna University of Technology, Favoritenstrasse 9–11, 1040 Vienna, Austria
Abstract:In order to study the effects of structural variability, nanoindentation experiments were performed in Norway spruce cell walls with highly variable cellulose microfibril angle and lignin content. Contrary to hardness, which showed no statistically significant relationship with changing microfibril angle and lignin content, the elastic modulus of the secondary cell wall decreased significantly with increasing microfibril angle. While the elastic moduli of cell walls with large microfibril angle agreed well with published values, the elastic moduli of cell walls with small microfibril angle were clearly underestimated in nanoindentation measurements. Hardness measurements in the cell corner middle lamella allowed us to estimate the yield stress of the cell-wall matrix to be 0.34±0.16 GPa. Since the hardness of the secondary cell wall was statistically not different from the hardness of the cell corner middle lamella, irrespective of high variability in cellulose microfibril angle, it is proposed that compressive yielding of wood-cell walls is a matrix-dominated process. PACS 83.80.Mc
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