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Publication Date:
December 2007
ISSN:
1437-434X
DOI:
10.1515/HF.2008.011

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Holzforschung

International Journal of the Biology, Chemistry, Physics, and Technology of Wood

Editor-in-Chief: Faix, Oskar

Editorial Board Member: Daniel, Geoffrey / Militz, Holger / Rosenau, Thomas / Salmen, Lennart / Sixta, Herbert / Vuorinen, Tapani / Argyropoulos, Dimitris S. / Balakshin, Yu / Barnett, J. R. / Berry, Richard / Burgert, Ingo / Evans, Robert / Evtuguin, Dmitry V. / Frazier, Charles E. / Fukushima, Kazuhiko / Gellerstedt, Göran / Gindl-Altmutter, Wolfgang / Glasser, W. G. / Heitner, Cyril / Holmbom, Bjarne / Isogai, Akira / Kadla, John F. / Kleen, Marjatta / Koch, Gerald / Lachenal, Dominique / Mansfield, Shawn D. / Morrell, J.J. / Niemz, Peter / Pizzi, Antonio / Ragauskas, Arthur J. / Ralph, John / Rice, Robert W. / Salin, Jarl-Gunnar / Schmitt, Uwe / Schultz, Tor P. / Schwanninger, Manfred / Sipilä, Jussi / Tamminen, Tarja / Viikari, Liisa / Welling, Johannes / Willför, Stefan / Yoshihara, Hiroshi

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Increased IMPACT FACTOR 2011: 1.748
5-year IMPACT FACTOR: 1.838
Rank 2 out of 21 in category Materials Science, Paper & Wood and 10 out of 59 in category Forestry in the 2011 Thomson Reuters Journal Citation Report/Science Edition.

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The effect of (induced) dislocations on the tensile properties of individual Norway spruce fibres

Michaela Eder1 / Nasko Terziev2 / Geoffrey Daniel3 / Ingo Burgert4

1Department of Biomaterials, Max-Planck Institute of Colloids and Interfaces, Potsdam-Golm, Germany

2Department of Forest Products and Wood Science, Wood Ultrastructure Research Centre, Swedish University of Agricultural Sciences, Uppsala, Sweden

3Department of Forest Products and Wood Science, Wood Ultrastructure Research Centre, Swedish University of Agricultural Sciences, Uppsala, Sweden

4Department of Biomaterials, Max-Planck Institute of Colloids and Interfaces, Potsdam-Golm, Germany

Corresponding author. Department of Biomaterials, Max-Planck Institute of Colloids and Interfaces, Wissenschaftspark Golm, Am Mühlenberg 1, 14476 Potsdam-Golm, Germany

Citation Information: Holzforschung. Volume 62, Issue 1, Pages 77–81, ISSN (Online) 1437434X, ISSN (Print) 00183830, DOI: 10.1515/HF.2008.011, December 2007

Publication History:
Received:
2007-06-07
Accepted:
2007-08-13
Published Online:
2007-12-05

Abstract

Axial compressive stresses can cause distortion of the cellulose fibril alignment in the wood cell wall. These deformations are thought to occur in the living tree and/or to develop during wood processing and seem to adversely affect the mechanical properties of pulp and paper and other fibre-based products. To characterise the influence of dislocations on the mechanical properties of the unmodified cell wall, dislocations were artificially created by applying high compression loads to wood blocks parallel to the fibre axis. Mechanically isolated fibres containing different levels of dislocations were then subjected to tensile tests. Comparison between micromechanical properties of reference fibres and fibres that were artificially loaded in compression revealed the importance of dislocations for the mechanics of both earlywood and latewood. However, the tensile strength (decrease ∼19% for earlywood and ∼26% for latewood) was less affected than expected from structural observations of the pre-compressed zones.

Keywords: cell wall; dislocations; mechanical properties; microscopy

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