Kastner, M., Metsch, P. and De Borst, R. (2016) Isogeometric analysis of the Cahn–Hilliard equation – a convergence study. Journal of Computational Physics, 305, pp. 360-371. (doi: 10.1016/j.jcp.2015.10.047)
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Abstract
Herein, we present a numerical convergence study of the Cahn–Hilliard phase-field model within an isogeometric finite element analysis framework. Using a manufactured solution, a mixed formulation of the Cahn–Hilliard equation and the direct discretisation of the weak form, which requires a C1-continuous approximation, are compared in terms of convergence rates. For approximations that are higher than second-order in space, the direct discretisation is found to be superior. Suboptimal convergence rates occur when splines of order p=2 are used. This is validated with a priori error estimates for linear problems. The convergence analysis is completed with an investigation of the temporal discretisation. Second-order accuracy is found for the generalised-α method. This ensures the functionality of an adaptive time stepping scheme which is required for the efficient numerical solution of the Cahn–Hilliard equation. The isogeometric finite element framework is eventually validated by two numerical examples of spinodal decomposition.
Item Type: | Articles |
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Additional Information: | The present study is funded by the German Research Foundation (DFG), Priority Programme (SPP) 1713, grant KA 3309/5-1. This support is gratefully acknowledged. M. Kästner acknowledges financial support of the German Academic Exchange Service (DAAD) during his research visit to the University of Glasgow. |
Status: | Published |
Refereed: | Yes |
Glasgow Author(s) Enlighten ID: | Kastner, Dr Markus and De Borst, Professor Rene |
Authors: | Kastner, M., Metsch, P., and De Borst, R. |
College/School: | College of Science and Engineering > School of Engineering |
Journal Name: | Journal of Computational Physics |
Publisher: | Elsevier |
ISSN: | 0021-9991 |
ISSN (Online): | 1090-2716 |
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