FINITE ELEMENT IMPLEMENTATION OF NONLINEAR THERMO-ELASTICITY AS TYPICAL COUPLING OF DIFFUSION AND MOMENTUM BALANCE

Q3 Engineering International Journal of Mechanics and Control Pub Date : 2013-01-01 DOI:10.7494/MECH.2013.32.4.152
R. Putanowicz, J. Jaśkowiec, P. Pluciński, A. Stankiewicz
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引用次数: 2

Abstract

The formulation and algorithmic aspects of nonlinear thermo-elasticity are reviewed in the paper. The attention is focused on coupling due to thermal expansion and temperature dependence of elastic model parameters, and on the consistent linearization of the ensuing nonlinear set of equations for two-field finite elements. Non-stationary heat flow, static loading and small strains are assumed. The solutions of some benchmark examples, obtained using the developed finite element environment FEMDK, are presented. The formulation has a more general application domain in the context of arbitrary coupling of a nonstationary diffusion proces and momentum balance.
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非线性热弹性的有限元实现作为扩散与动量平衡的典型耦合
本文综述了非线性热弹性计算的公式和算法。重点是由于热膨胀引起的耦合和弹性模型参数的温度依赖性,以及随后的两场有限元非线性方程组的一致线性化。假设非定常热流、静载荷和小应变。给出了利用开发的有限元环境FEMDK得到的一些基准算例的解。该公式在非平稳扩散过程和动量平衡的任意耦合情况下具有更广泛的应用领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Mechanics and Control
International Journal of Mechanics and Control Engineering-Computational Mechanics
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2.10
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