Characterizing short-range vs. long-range spatial correlations in dislocation distributions |
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| Authors: | Juliette Chevy Claude Fressengeas Mikhail Lebyodkin Vincent Taupin Pierre Bastie Paul Duval |
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| Affiliation: | 1. Laboratoire de Glaciologie et Géophysique de l’Environnement—CNRS, 54 rue Molière, 38402 St. Martin d’Hères, France;2. Laboratoire Science et Ingénierie des Matériaux et Procédés, Grenoble INP-CNRS-UJF, BP 75, 38402 St. Martin d’Hères Cedex, France;3. Laboratoire de Physique et Mécanique des Matériaux, Université Paul Verlaine—Metz/CNRS, Ile du Saulcy, 57045 Metz Cedex, France;4. Laboratoire de Spectrométrie Physique, BP 87, 38402 St. Martin d’Hères Cedex, France;5. Institut Laue Langevin, BP 156, 38042 Grenoble Cedex 9, France |
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| Abstract: | Hard X-ray diffraction experiments have provided evidence of a strongly heterogeneous distribution of dislocation densities along the axis of cylindrical ice single crystals oriented for basal slip in torsion creep. The dislocation arrangements showed a complex scale-invariant character, which was analyzed by means of statistical and multifractal techniques. A trend to decreasing autocorrelation of the dislocation distribution was observed as deformation proceeds. At low strain levels, long-range spatial correlations control the distribution, but short-range correlations in relation with cross-slip progressively prevail when strain increases. This trend was reproduced by a model based on field dislocation dynamics, a theory accounting for both long-range elastic interactions and short-range interactions through transport of dislocation densities. |
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