Author:
Cross J.T.,Masters I.,Lewis R.W.
Abstract
Object‐oriented programming, as an alternative to traditional, procedural programming methods for finite element analysis, is growing rapidly in importance as algorithms and programs become more complex. This paper reviews some of the literature and seeks to explain some of the concepts of object‐oriented thinking most useful to the finite element programmer, using as an example a C++ implementation of a heat transfer and solidification program.
Subject
Applied Mathematics,Computer Science Applications,Mechanical Engineering,Mechanics of Materials
Reference33 articles.
1. Bettig, B.P. and Han, R.P.S. (1996), “An object‐oriented framework for interactive numerical analysis in a graphical user interface environment”, International Journal for Numerical Methods in Engineering, Vol. 39, pp. 2945‐71.
2. Budge, K.G. and Peery, J.S. (1993), “RHALE – A MMALE shock physics code written in C++”, International Journal of Impact Engineering, Vol. 14, pp. 107‐20.
3. Cline, M.P. and Lomov, G.A. (1995), C++ FAQs: Frequently Asked Questions, Addison Wesley, pp. 41‐3.
4. Cross, J.T., Masters, I., Sukirman, Y. and Lewis, R.W. (1997), “Object oriented programming techniques for finite element methods in heat transfer”, 10th International Conference for Numerical Methods in Thermal Problems, Swansea, UK, July 21‐25, Pineridge Press, ISBN 0‐906674‐89‐1.
5. Dubois‐Pelerin, Y. and Zimmermann, T. (1993), “Object‐oriented finite element programming 3. An efficient implementation in C++”, Computer Methods in Applied Mechanics and Engineering, Vol. 108, pp. 165‐83.
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