Experimental micromechanical characterization of wood cell walls - Archive ouverte HAL
Communication Dans Un Congrès Année : 2012

Experimental micromechanical characterization of wood cell walls

Michaela Eder
  • Fonction : Auteur
  • PersonId : 932113
Olivier Arnould
Joanna Hornatowska
  • Fonction : Auteur
Lennart Salmén
  • Fonction : Auteur

Résumé

Understanding the mechanical response of wood to external loads is essential to understand (and predict) the stability of living trees or equally important for the behaviour of wood when it is used for construction purposes. In general, wood is a hierarchically structured material: a sophisticated architecture at several length scales, from the mm to the nm level, allows ingenious control of various functions. This highlights the importance of studying wood at several length scales. Here we will focus on wood micromechanical data which can serve as - besides a deeper understanding of the material properties in general - important input parameters in applications such as manufacture of fibre-based products like cardboard and paper which helps this resource to be used in targeted, efficient, economic and sustainable ways. In the presentation, a brief overview of the state of the art of two frequently used methods that allow experimental characterization of mechanical properties at the cell and cell wall level, namely single fibre microtensile tests and nanoindentation, will be given. Since 1959, the year when Jayne published his paper “Mechanical properties of wood fibres” [1], the first experimental procedure describing single wood fibre testing, many different procedures have been developed. Key developments will be summarized. Nanoindentation, in comparison with tensile tests, is a rather young experimental technique that was applied on wood in 1997 by Wimmer et al. [2] for the first time. Again, key developments since then will be summarized. For both techniques sample preparation is not straightforward. Whereas single fibre tests demand the isolation of tracheids, fibre tracheids or libriform fibres, nanoindentation requires flat surfaces and an adapted indentation size compared to the cell wall thickness (i.e., correct choice of the loadingunloading conditions and measurements correction if necessary). Challenges, limitations and drawbacks will be discussed, also with respect to controlling relative humidities. Finally, examples for micromechanical properties will be given and a summarizing collection of data from literature, both for microtensile tests and nanoindentation, will be presented.
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Dates et versions

hal-00805663 , version 1 (28-03-2013)

Identifiants

  • HAL Id : hal-00805663 , version 1

Citer

Michaela Eder, Olivier Arnould, Joanna Hornatowska, John William Chapman Dunlop, Lennart Salmén. Experimental micromechanical characterization of wood cell walls. Workshop COSTFP0802: Micro-characterisation of wood materials and properties, Oct 2012, Edimbourg, United Kingdom. ⟨hal-00805663⟩
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