Multiscale model for microstructure evolution in multiphase materials: Application to the growth of isolated inclusions in presence of elasticity.

Abstract

We present a multiscale model based on the classical lattice time-dependent density-functional theory to study microstructure evolution in multiphase systems. As a first test of the method, we study the static and dynamic properties of isolated inclusions. Three cases are explored: elastically homogeneous systems, elastically inhomogeneous systems with soft… (More)

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@article{Perez2006MultiscaleMF, title={Multiscale model for microstructure evolution in multiphase materials: Application to the growth of isolated inclusions in presence of elasticity.}, author={Danny Perez and L. Lewis}, journal={Physical review. E, Statistical, nonlinear, and soft matter physics}, year={2006}, volume={74 3 Pt 1}, pages={031609} }