Continuity in time of solutions of a phase-field model

Abstract

A phase field model proposed by G. Caginalp for the description of phase changes in materials is under consideration. It is assumed that the medium is located in a container with heat conductive walls that are not subjected to phase changes. Therefore, the temperature variable is defined both in the medium and wall regions, whereas the phase variable is only considered in the medium part. The case of Lipschitz domains in two and three dimensions is studied. We show that the temperature and phase variables are continuous in time functions with values in L2 and H1, respectively, provided that the initial values of them are from L2 and H1, respectively. Moreover, continuous dependence of solutions on the initial data and boundary conditions is proved.