Review on some Stefan Problems for Particle Dissolution in Solid Metallic Alloys

F. J. Vermolen; C. Vuik; E.; S. van der Zwaag

doi:10.15388/NA.2005.10.3.15124

Articles

F. J. Vermolen

Delft Institute of Applied Mathematics, Netherlands

C. Vuik

Delft Institute of Applied Mathematics, Netherlands

E.

Delft Institute of Applied Mathematics, Netherlands

S. van der Zwaag

Delft University of Technology, Netherlands

Published 2005-07-25

https://doi.org/10.15388/NA.2005.10.3.15124

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Keywords

particle dissolution
Stefan problem
diffusion
moving grid method
level-set method

How to Cite

Vermolen, F.J. (2005) “Review on some Stefan Problems for Particle Dissolution in Solid Metallic Alloys”, Nonlinear Analysis: Modelling and Control, 10(3), pp. 257–292. doi:10.15388/NA.2005.10.3.15124.

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Abstract

This paper is a review of a suite of mathematical models of increasing complexity on particle dissolution in metallic alloys. This work deals with models for multi-component particle dissolution in multi-component alloys, where various chemical species diffuse simultaneously, and a two-dimensional model incorporating interfacial reactions as in the model of Nolfi [1]. The work is mathematically rigorous where asymptotic solutions and solution bounds are derived but is also of a practical nature as particle dissolution kinetics is modelled for industrially relevant conditions.

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