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1 LGGE - Laboratoire de glaciologie et géophysique de l-environnement 2 PIMM - Procédés et Ingénierie en Mécanique et Matériaux Paris 3 Institut fur Geowissenschaften 4 BC3 5 IUF - Institut Universitaire de France 6 Departament de Geologia 7 Materials Science and Technology Division 8 M&S - Matériaux et Structures LMA - Laboratoire de Mécanique et d-Acoustique Marseille 9 LMA - Laboratoire de Mécanique et d-Acoustique Marseille

Abstract : Understanding the flow of ice in glaciers and polar ice sheets is of increasing relevance in a time of potentially significant climate change. The flow of ice has hitherto received relatively little attention from the structural geological community. This paper aims to provide an overview of methods and results of ice deformation modeling from the single crystal to the polycrystal scale, and beyond to the scale of polar ice sheets. All through these scales, various models have been developed to understand, describe and predict the processes that operate during deformation of ice, with the aim to correctly represent ice rheology and self-induced anisotropy. Most of the modeling tools presented in this paper originate from the material science community, and are currently used and further developed for other materials and environments. We will show that this community has deeply integrated ice as a very useful -model- material to develop and validate approaches in conditions of a highly anisotropic behavior. This review, by no means exhaustive, aims at providing an overview of methods at different scales and levels of complexity.

Keywords : Fabric development Ice mechanical behavior Multiscale modeling Viscoplastic anisotropy





Author: Maurine Montagnat - O. Castelnau - P. D. Bons - S.H. Faria - O. Gagliardini - F. Gillet-Chaulet - Fanny Grennerat - A. Griera - R

Source: https://hal.archives-ouvertes.fr/



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