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Coupled diffusion and phase transition: Phase fields, constraints, and the Cahn–Hilliard equation

Fernando Pereira Duda, Adel F. Sarmiento, Eliot Fried

2021Meccanica16 citationsDOIOpen Access PDF

Abstract

Abstract We develop a constrained theory for constituent migration in bodies with microstructure described by a scalar phase field. The distinguishing features of the theory stem from a systematic treatment and characterization of the reactions needed to maintain the internal constraint given by the coincidence of the mass fraction and the phase field. We also develop boundary conditions for situations in which the interface between the body and its environment is structureless and cannot support constituent transport. In addition to yielding a new derivation of the Cahn–Hilliard equation, the theory affords an interpretation of that equation as a limiting variant of an Allen–Cahn type diffusion system arising from the unconstrained theory obtained by considering the mass fraction and the phase field as independent quantities. We corroborate that interpretation with three-dimensional numerical simulations of a recently proposed benchmark problem.

Topics & Concepts

Cahn–Hilliard equationScalar (mathematics)Statistical physicsPhase (matter)Interpretation (philosophy)Phase transitionConvection–diffusion equationConstraint (computer-aided design)Diffusion equationDiffusionBoundary value problemScalar fieldMathematicsField (mathematics)Mathematical analysisPhysicsClassical mechanicsPartial differential equationThermodynamicsComputer scienceGeometryQuantum mechanicsPure mathematicsEconomyEconomicsService (business)Programming languageSolidification and crystal growth phenomenaAdvanced Mathematical Modeling in Engineeringnanoparticles nucleation surface interactions