Modelling of anisotropic damage by microcracks: towards a discrete approach

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Authors

  • R. Bargellini Laboratoire de Mécanique et de Physique des Matériaux, Ecole Nationale Supérieure de Mécanique et d”™Aérotechnique, France
  • D. Halm Laboratoire de Mécanique et de Physique des Matériaux, Ecole Nationale Supérieure de Mécanique et d”™Aérotechnique, France
  • A. Dragon Laboratoire de Mécanique et de Physique des Matériaux (UMR 6617), ENSMA – CNRS, France

Abstract

Modelling of anisotropic damage by microcracks remains a pivotal topic of Damage Mechanics. Many models are built employing a single second-order tensor damage variable D and its spectral decomposition. However, some inconveniences are encountered such as non-uniqueness of the free energy or decomposition of the strain tensor. This paper first reconsiders the anisotropic damage definition; a discrete approach, which introduces nine microcrack densities associated with nine fixed directions, is presented. This definition permits to represent essential phenomena concerning quasi-brittle materials behaviour: the induced anisotropic degradation of elastic properties and the unilateral effect are notably described. In addition, the quoted inconveniences are avoided.