) study the structure of a metal undergoing a heat process. The phase fractions of the metal are computed from an initial state. In specific interfaces, a thermal loading can be applied on the model, and the resulting deformation of the heat process is also available.
) resolves each phase fraction of a metal undergoing a heat process.
) resolves each phase fraction of a metal undergoing a heat process. It is typically intended to compute the resulting structure of a metal during a cooling process from an austenitic state.
) is a multiphysics coupling between a Heat Transfer in Solids interface and a Metal Phase Transformation interface. It computes both the temperature and the phase fractions of a metal during a thermal loading.
) is a multiphysics couplings between a Heat Transfer in Solids interface, a Solid Mechanics interface, and an Austenite Decomposition interface. It is typically used to compute the resulting structure and deformation of the metal during quenching.
) is intended for modeling carburization processes during heat treatment.