MULTIAXIAL STRESS CREEP RUPTURE MECHANISMS OF AZ31 MAGNESIUM ALLOY

S. H. KIM; H. K. KIM

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MULTIAXIAL STRESS CREEP RUPTURE MECHANISMS OF AZ31 MAGNESIUM ALLOY

机译：AZ31镁合金的多轴应力蠕变断裂机理

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The maximum principal stresses, von Mises effective stresses and principal facet stresses at the time of creep rupture were compared in uniaxial, biaxial, and triaxial stress states for AZ31 magnesium alloy. The creep rupture of this alloy was experimentally controlled by cavitation, which was the result of a low damage tolerance, X. Creep deformation could be correlated with the von Mises effective stress parameter. The failure-mechanism control parameter governing the stress state coincided with the experimental results of the rupture of the materials under multiaxial stress states. Finally, the theoretical prediction based on constrained cavity growth and continuous nucleation agreed with the experimental rupture data to within a factor of three.

机译：比较了AZ31镁合金在单轴，双轴和三轴应力状态下蠕变断裂时的最大主应力，冯·米塞斯有效应力和主刻面应力。该合金的蠕变断裂是通过空化实验控制的，这是低耐损伤性X的结果。蠕变变形可能与von Mises有效应力参数相关。控制应力状态的失效机制控制参数与材料在多轴应力状态下破裂的实验结果相吻合。最后，基于受约束的空穴生长和连续成核的理论预测与实验破裂数据相符，在三分之二以内。

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《International Journal of Automotive Technology》 |2009年第3期|共8页
作者
S. H. KIM; H. K. KIM;
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正文语种 eng
中图分类汽车工程;
关键词
AZ31 magnesium alloy; Multiaxial stress states; High-temperature rupture; Creep cavitation; Failure-mechanism control parameter;

机译：AZ31镁合金;多轴应力状态;高温断裂;蠕变空化;失效机理控制参数;

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1. MULTIAXIAL STRESS CREEP RUPTURE MECHANISMS OF AZ31 MAGNESIUM ALLOY [J] . S. H. KIM, H. K. KIM International Journal of Automotive Technology . 2009,第3期

机译：AZ31镁合金的多轴应力蠕变断裂机理
2. Creep rupture mechanisms of 5083-Al alloy under multiaxial stress states [J] . Ho-Kyung Kim, Hyun-Jun Kim Journal of Materials Science . 2008,第8期

机译：5083-铝合金在多轴应力状态下的蠕变断裂机理
3. Creep rupture mechanisms of 5083-Al alloy under multiaxial stress states [J] . Kim HK, Kim HJ Journal of Materials Science . 2008,第8期

机译：5083-铝合金在多轴应力状态下的蠕变断裂机理
4. A review of creep deformation and rupture mechanisms of low Cr-Mo alloy for the development of creep damage constitutive equations under lower stress [C] . Q. H. Xu, Q. Xu, Z. Lu, International Conference on Scientific Computing . 2013

机译：低Cr-Mo合金蠕变变形及破裂机制述评下应力下蠕变损伤组成方程的发展
5. Fatigue behavior and structural stress analysis of coach-peel and lap-shear friction stir welded joints of AZ31 magnesium alloy. [D] . Sheikh, Mohammed Haroon. 2014

机译：AZ31镁合金马车削皮和搭剪摩擦搅拌焊接接头的疲劳行为和结构应力分析。
6. In vitro corrosion resistance of a Ta2O5 nanofilm on MAO coated magnesium alloy AZ31 by atomic layer deposition [O] . Chang-Yang Li, Chi Yu, Rong-Chang Zeng, 2020

机译：通过原子层沉积法对MAO涂层镁合金AZ31上Ta2O5纳米膜的体外耐蚀性
7. Special issue "Magnesium and magnesium alloys". Effect of stressing direction on the creep characteristics of an extruded Mg-3molAl solid solution alloy. [O] . Hiroyuki SATO, Takahiro HAMADA, Hiroshi OIKAWA 1992

机译：特别问题“镁和镁合金”。应力方向对挤出Mg-3mol％Al固溶合金蠕变特性的影响。
8. Creep/Stress Rupture Behavior and Failure Mechanisms of Full CVI and Full PIP SiC/SiC Composites at Elevated Temperatures in Air. [R] . Bhatt, R. T., Kiser, J. D. 2017

机译：空气中高温下全CVI和全pIp siC / siC复合材料的蠕变/应力断裂行为及失效机理。

MULTIAXIAL STRESS CREEP RUPTURE MECHANISMS OF AZ31 MAGNESIUM ALLOY

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