A rate dependent tension-torsion constitutive model for superelastic nitinol under non-proportional loading; A departure from von Mises equivalency

Andani M.T.; Elahinia M.

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A rate dependent tension-torsion constitutive model for superelastic nitinol under non-proportional loading; A departure from von Mises equivalency

机译：非比例载荷下超弹性镍钛合金的速率依赖张力-扭转本构模型;偏离冯·米塞斯（von Mises）对等物

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In this work, a modified 3D model is presented to capture the multi-axial behavior of superelastic shape memory alloys (SMAs) under quasi-static isothermal or dynamic loading conditions. General experimental based equivalent stress and strain terms are introduced and improved flow rule and transformation surfaces are presented. The 3D constitutive equations are found for both isothermal and dynamic loading states. An extended experimental study is conducted on NiTi thin walled tubes to investigate the performance of the model. The proposed approach is shown to be able to capture the SMA response better than the original model in tension-torsion loading conditions.

机译：在这项工作中，提出了一种改进的3D模型来捕获准静态等温或动态载荷条件下超弹性形状记忆合金（SMA）的多轴行为。介绍了基于一般实验的等效应力和应变项，并提出了改进的流动规律和相变表面。发现了等温和动态载荷状态的3D本构方程。在NiTi薄壁管上进行了扩展的实验研究，以研究该模型的性能。结果表明，在张力-扭转载荷条件下，所提出的方法能够比原始模型更好地捕获SMA响应。

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《Smart Materials & Structures》 |2014年第1期|共15页
作者
Andani M.T.; Elahinia M.;
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正文语种 eng
中图分类智能材料;
关键词
coupled 3D modeling; high loading rate; non-Mises behavior; non-proportional loading; shape memory alloys;

机译：耦合3D建模;高加载速率;非Mises行为;非比例加载;形状记忆合金;

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1. A rate dependent tension-torsion constitutive model for superelastic nitinol under non-proportional loading; A departure from von Mises equivalency [J] . Andani M.T., Elahinia M. Smart Materials & Structures . 2014,第1期

机译：非比例载荷下超弹性镍钛合金的速率依赖张力-扭转本构模型;偏离冯·米塞斯（von Mises）对等物
2. A New Rate-Dependent Constitutive Model of Superelastic Shape Memory Alloys and Its Simple Application in a Special Truss Moment Frame Simulation [J] . Ntina Maria I, Sophianopoulos Dimitrios S. Advances in civil engineering . 2018,第PTa8期

机译：一种新的速率依赖型本构形状记忆合金本构模型及其在特殊桁架矩框架模拟中的简单应用
3. A one-dimensional strain-rate-dependent constitutive model for superelastic shape memory alloys [J] . Ren WJ, Li HN, Song GB Smart Materials & Structures . 2007,第1期

机译：超弹性形状记忆合金的一维应变率相关本构模型
4. A Simplified Constitutive Model for Simulating the Rate-Dependent Superelastic Shape Memory Alloys in Fast Loadings [C] . R. Mirzaeifar, R. DesRoches, A. Yavari AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference . 2011

机译：用于模拟快速载荷下速率依赖型超弹性形状记忆合金的简化本构模型
5. Mechanical Characterization and Constitutive Modeling of Ratedependent Viscoelastic Brain Tissue under High Rate Loadings [D] . Hosseini Farid, Mohammad. 2019

机译：高速率载荷下速率依赖性粘弹性脑组织的力学表征和本构模型
6. Fem and Von Mises Analysis of OSSTEM ® Dental Implant Structural Components: Evaluation of Different Direction Dynamic Loads [O] . Gabriele Cervino, Umberto Romeo, Floriana Lauritano, 2018

机译：OSSTEM®种植牙结构部件的Fem和Von Mises分析：不同方向动态载荷的评估
7. A constitutive model of cyclic plasticity in non-proportional loading conditions. 2nd report Identification of material constants and material functions, and experimental evaluation of the model. [O] . Eiichi TANAKA, Sumio MURAKAMi, Masahiro OOKA 1986

机译：非比例载荷条件下循环可塑性构成模型。第2次报告鉴定材料常数和材料功能，以及模型的实验评价。

A rate dependent tension-torsion constitutive model for superelastic nitinol under non-proportional loading; A departure from von Mises equivalency

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