Twin branching in shape memory alloys: a 1D continuum model with energy dissipation effects

Stanislaw Stupkiewicz, Seyedshoja Amini, Mohsen Rezaee-Hajidehi
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Abstract

We develop a 1D continuum model of twin branching in shape memory alloys. The free energy of the branched microstructure comprises the interfacial and elastic strain energy contributions, both expressed in terms of the average twin spacing treated as a continuous function of the position. The total free energy is then minimized, and the corresponding Euler-Lagrange equation is solved numerically using the finite element method. The model can be considered as a continuum counterpart of the recent discrete model of Seiner et al. (2020), and our results show a very good agreement with that model in the entire range of physically relevant parameters. Furthermore, our continuum setting facilitates incorporation of energy dissipation into the model. The effect of rate-independent dissipation on the evolution of the branched microstructure is thus studied. The results show that significant effects on the microstructure and energy of the system are expected only for relatively small domain sizes.
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形状记忆合金中的孪生分支:具有能量耗散效应的一维连续模型
我们建立了形状记忆合金孪晶分支的一维连续模型。支化微结构的自由能包括界面能和弹性应变能,二者均以作为位置连续函数的平均孪晶间距表示。然后将总自由能最小化,并使用有限元法对相应的欧拉-拉格朗日方程进行数值求解。该模型可视为 Seiner 等人(2020 年)最新离散模型的连续对应模型,我们的结果表明,在整个物理相关参数范围内,该模型与该模型非常吻合。此外,我们的连续介质设置有助于将能量耗散纳入模型。因此,我们研究了与速率无关的耗散对支链微结构演化的影响。结果表明,只有相对较小的畴尺寸才会对系统的微观结构和能量产生重大影响。
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