Homogenization of a Fully Coupled Thermoelasticity Problem for a Highly Heterogeneous Medium With a Priori Known Phase Transformations

Abstract

We investigate a linear, fully coupled thermoelasticity problem for a highly heterogeneous, two-phase medium. The medium in question consists of a connected matrix with disconnected, initially periodically distributed inclusions separated by a sharp interface undergoing an a priori known interface movement due to phase transformations. After transforming the moving geometry to an -periodic, fixed reference domain, we establish the well-posedness of the model and derive a number of -independent a priori estimates. Via a two-scale convergence argument, we then show that the -dependent solutions converge to solutions of a corresponding upscaled model with distributed time-dependent microstructures.