10.1007/s00205-019-01400-w
Fischer, Julian L
Julian L
Fischer
The choice of representative volumes in the approximation of effective properties of random materials
Springer
2019
2019-07-07T21:59:23Z
2019-07-16T14:30:19Z
journal_article
https://research-explorer.app.ist.ac.at/record/6617
https://research-explorer.app.ist.ac.at/record/6617.json
1807.00834
1377659 bytes
application/pdf
The effective large-scale properties of materials with random heterogeneities on a small scale are typically determined by the method of representative volumes: a sample of the random material is chosen—the representative volume—and its effective properties are computed by the cell formula. Intuitively, for a fixed sample size it should be possible to increase the accuracy of the method by choosing a material sample which captures the statistical properties of the material particularly well; for example, for a composite material consisting of two constituents, one would select a representative volume in which the volume fraction of the constituents matches closely with their volume fraction in the overall material. Inspired by similar attempts in materials science, Le Bris, Legoll and Minvielle have designed a selection approach for representative volumes which performs remarkably well in numerical examples of linear materials with moderate contrast. In the present work, we provide a rigorous analysis of this selection approach for representative volumes in the context of stochastic homogenization of linear elliptic equations. In particular, we prove that the method essentially never performs worse than a random selection of the material sample and may perform much better if the selection criterion for the material samples is chosen suitably.