Finite-element modelling of shape memory alloys-A comparison between small-strain and large-strain formulations

D. Christ; S. Reese

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Finite-element modelling of shape memory alloys-A comparison between small-strain and large-strain formulations

机译：形状记忆合金的有限元建模-小应变和大应变配方的比较

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In this contribution, we present a finite deformation material model for shape memory alloys (SMAs) which includes the effect of pseudoelasticity and pseudoplasticity. A special algorithm has been developed to incorporate the concept into a finite-element (FE) code. The final aim of the research work is to investigate whether FE simulations of SMA applications should be based on large-strain formulations as the transformation strain during the phase transition can reach up to 10%. If such a large-strain model was not necessary the computational cost of the numerical investigations could be reduced significantly.

机译：在此贡献中，我们提出了一种用于形状记忆合金（SMA）的有限变形材料模型，其中包括伪弹性和伪塑性的影响。已经开发出一种特殊的算法来将该概念合并到有限元（FE）代码中。研究工作的最终目的是调查SMA应用的有限元模拟是否应基于大应变公式，因为相变过程中的相变应变可以达到10％。如果不需要这样的大应变模型，则可以大大降低数值研究的计算成本。

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《Materials Science and Engineering》 |2008年第3期|343-346|共4页
作者
D. Christ; S. Reese;
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作者单位

Institute of Solid Mechanics, Braunschweig University of Technology, Schleinitzstr. 20, 38106 Braunschweig, Germany;

Institute of Solid Mechanics, Braunschweig University of Technology, Schleinitzstr. 20, 38106 Braunschweig, Germany;

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原文格式 PDF
正文语种 eng
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关键词
shape memory alloys; material modelling; large strains; FE simulation;

机译：形状记忆合金;材料建模;大菌株有限元模拟;
入库时间 2022-08-17 13:56:25

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Finite-element modelling of shape memory alloys-A comparison between small-strain and large-strain formulations

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