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Surface energies emerging in a microscopic, two-dimensional two-well problem

Part of: Elastic materials Phase transformations in solids

Published online by Cambridge University Press:  14 August 2017

Georgy Kitavtsev ,
Stephan Luckhaus  and
Angkana Rüland
Georgy Kitavtsev
Affiliation:
School of Mathematics, University of Bristol, University Walk, Bristol BS8 1TW, UK (georgy.kitavtsev@bristol.ac.uk)
Stephan Luckhaus
Affiliation:
Mathematical Institute, University of Leipzig, 04009 Leipzig, Germany (stephan.luckhaus@math.uni-leipzig.de)
Angkana Rüland
Affiliation:
Mathematical Institute, University of Oxford, Andrew Wiles Building, Radcliffe Observatory Quarter, Woodstock Road, Oxford OX2 6GG, UK (ruland@maths.ox.ac.uk)
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Extract

In this paper we are interested in the microscopic modelling of a two-dimensional two-well problem that arises from the square-to-rectangular transformation in (two-dimensional) shape-memory materials. In this discrete set-up, we focus on the surface energy scaling regime and further analyse the Hamiltonian that was introduced by Kitavtsev et al. in 2015. It turns out that this class of Hamiltonians allows for a direct control of the discrete second-order gradients and for a one-sided comparison with a two-dimensional spin system. Using this and relying on the ideas of Conti and Schweizer, which were developed for a continuous analogue of the model under consideration, we derive a (first-order) continuum limit. This shows the emergence of surface energy in the form of a sharp-interface limiting model as well the explicit structure of the minimizers to the latter.

Keywords

discrete-to-continuum limitsurface energiessolid–solid phase transformationgeometric rigidity theorems

MSC classification

Secondary: 74N15: Analysis of microstructure 74B20: Nonlinear elasticity
Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh Section A: Mathematics , Volume 147 , Issue 5 , October 2017 , pp. 1041 - 1089
Copyright
Copyright © Royal Society of Edinburgh 2017 

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