Thin interface limit for phase-field models of solidification with local mobility correction
Computational Physics
2019-05-09 v1
Abstract
A new approach is developed to derive an analytical form for mobility corrections in phase-field models for pure material solidification. Similar to the thin interface limit approach (Karma and Rappel, 1996) it seeks to remove systematic errors in the kinetics of phase-field models that arise due to the diffusivity of the interface. The new approach harnesses local information within the diffuse interface instead of an expansion within the interface peclet number , the ratio of diffuse interface thickness to diffusion length. Therefore it has no need for an approximation of being small. This results in a broader range of applicability of the approach for higher .
Cite
@article{arxiv.1905.02965,
title = {Thin interface limit for phase-field models of solidification with local mobility correction},
author = {Stephan Hubig and Raphael Schiedung and Ingo Steinbach},
journal= {arXiv preprint arXiv:1905.02965},
year = {2019}
}