Constitutive modeling of elastic-visco-plastic behaviors in aluminum alloys subjected to cyclic loadings at various strain rates

Mehran Felfeli; Mohammad Azadi; Gholam Hossein Farrahi

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Constitutive modeling of elastic-visco-plastic behaviors in aluminum alloys subjected to cyclic loadings at various strain rates

机译：铝合金在不同应变率下循环载荷下的弹黏塑性行为的本构模型

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摘要

In this article, simulations of the stress-strain behavior in aluminum alloys were investigated under cyclic loadings at various strain rates. Four plasticity approaches were applied to simulate cyclic behaviors. To validate obtained results, strain-controlled tensile-compressive fatigue tests were performed in the low cycle fatigue regime. Isothermal fatigue experiments were conducted at various strain rates. Thermo-mechanical fatigue experiments were carried out at different rates of cooling and heating processes. Numerical results demonstrated a good agreement with experimental data at the mid-life cycle of the material. Material constants for different models were also presented for aluminum alloys, at various strain rates.

机译：在本文中，研究了在各种应变速率下循环载荷下铝合金的应力-应变行为模拟。四种可塑性方法被应用于模拟循环行为。为了验证获得的结果，在低周疲劳状态下进行了应变控制的拉伸压缩疲劳试验。在各种应变速率下进行了等温疲劳实验。在不同的冷却和加热过程速率下进行了热机械疲劳实验。数值结果表明，该材料在生命周期的中期与实验数据吻合良好。还给出了铝合金在不同应变速率下的不同模型的材料常数。

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来源
《The Journal of Strain Analysis for Engineering Design》 |2015年第2期|103-124|共22页
作者
Mehran Felfeli; Mohammad Azadi; Gholam Hossein Farrahi;
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作者单位

School of Mechanical Engineering, Sharif University of Technology, Tehran, Iran;

Fatigue and Wear in Materials (FWM) Workgroup, Ilrankhodro Powertrain Company (IPCO), 6th km of Karaj Makhsous Road, Tehran, Iran;

School of Mechanical Engineering, Sharif University of Technology, Tehran, Iran;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Elastic-vicsoplastic simulation; stress-strain behavior; aluminum alloys; strain rate; isothermal fatigue; thermo-mechanical fatigue;

机译：弹粘塑性模拟;应力应变行为;铝合金应变率;等温疲劳热机械疲劳;

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机译：循环热和机械载荷作用下A356.0铝合金的应力应变时变行为
2. Effects of strain rate and mean strain on cyclic behavior of aluminum alloys under isothermal and thermo-mechanical fatigue loadings [J] . Mohammad Azadi International Journal of Fatigue . 2013,第FEBa期

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3. Simple shear behavior of 2024-T351 aluminum alloy over a wide range of strain rates and temperatures: Experiments and constitutive modeling [J] . Jia Bin, Rusinek Alexis, Xiao Xinke, International journal of impact engineering . 2021,第Octa期

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8. Development of Constitutive Models for Cyclic Plasticity and Creep Behavior of Super Alloys at High Temperature [R] . Haisler, W. E. 1983

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Constitutive modeling of elastic-visco-plastic behaviors in aluminum alloys subjected to cyclic loadings at various strain rates

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