A kinetic model for grain growth
Copyright policy )A kinetic model for grain growth
We provide a well-posedness analysis of a kinetic model for grain growth introduced by Fradkov which is based on the von Neumann-Mullins law. The model consists of an infinite number of transport equations with a tri-diagonal coupling modelling topological changes in the grain configuration. Self-consistency of this kinetic model is achieved by introducing a coupling weight which leads to a nonlinear and nonlocal system of equations. We prove existence of solutions by approximation with finite dimensional systems. Key ingredients in passing to the limit are suitable super-solutions, a bound from below on the total mass, and a tightness estimate which ensures that no mass is transported to infinity in finite time.
24 pages
- UNIVERSITY OF OXFORD
- UNIVERSITY OF OXFORD
- University of Oxford
- Oxford University Finland
- University of Oxford United Kingdom
Mathematics - Analysis of PDEs, FOS: Mathematics, 35F25, 74A50, 35F25; 35R15; 74A50, 35R15, Analysis of PDEs (math.AP)
Mathematics - Analysis of PDEs, FOS: Mathematics, 35F25, 74A50, 35F25; 35R15; 74A50, 35R15, Analysis of PDEs (math.AP)
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