A continuum theory for first-order phase transitions based on the balance of structure order

First-order phase transitions are modelled by a non-homogeneous, time-dependent scalar valued order parameter or phase field. The time dependence of the order parameter is viewed as arising from a balance law for the structure order. The gross motion is disregarded and hence the body is regarded merely as a heat conductor. Compatibility of the constitutive functions with thermodynamics is exploited by expressing the second law through the classical Clausius-Duhem inequality. First a model for conductors without memory is set up and the order parameter is shown to satisfy a maximum theorem. Next, heat conductors with memory are considered. Different evolution problems are established through a system of differential equations whose form is related to the way the memory property is represented.