Fracture Behavior and Grain Boundary Sliding During High-Temperature Low-Stress Deformation of AZ31 Magnesium Alloy

机译：AZ31镁合金高温低应力变形过程中的断裂行为和晶界滑动

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Low-stress high-temperature tensile-creep behavior of AZ31 Mg alloy was investigated to characterize microstructure evolution, uncover dominant creep mechanism and find a correlation with common creep models. The stress exponent, inverse grain size exponent and activation energy value were evaluated. Cavity nucleation from stress concentration sites, types of fracture surfaces and microstructural evidence of grain migrations were observed in crept samples that are indicative of Rachinger mechanism of grain boundary sliding (GBS). Experimental data reveal a reasonable correlation with Langdon's model. Further analysis on fracture behavior of this alloy in a wider range of stresses show that they follow Monkman-Grant model in predicting the fracture time.

机译：研究了AZ31 Mg合金的低应力高温拉伸蠕变行为，以表征组织演变，揭示主导蠕变机理并发现与常见蠕变模型的相关性。评估了应力指数，反粒度指数和活化能值。在蠕变样品中观察到了应力集中部位的空洞形核，断裂表面的类型以及晶粒迁移的微观结构证据，这些迹象表明晶界滑动（GBS）的Rachinger机理。实验数据揭示了与兰登模型的合理关联。对该合金在更大应力范围内的断裂行为的进一步分析表明，它们遵循Monkman-Grant模型预测断裂时间。

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来源
《Mechanical and creep behavior of advanced materials》|2017年|279-287|共9页
会议地点 San Diego(US)
作者
Peiman Shahbeigi Roodposhti; Korukonda L. Murty;
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作者单位

University of Connecticut, Starrs, CT 06269, USA;

North Carolina State University, Raleigh, NC 27695, USA;

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原文格式 PDF
正文语种 eng
中图分类
关键词
AZ31; Creep; GBS; Fracture analysis; Monkman-Grant;

机译：AZ31;蠕变; GBS；断裂分析；蒙克曼·格兰特;

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专利

1. Compressive deformation and fracture behaviors of AZ31 magnesium alloys with equiaxed grains or bimodal grains [J] . Xinfeng Li, Jin Zhang, Dewen Hou, Materials Science and Engineering . 2018,第JUNa27期

机译：等轴晶粒或双峰晶粒的AZ31镁合金的压缩变形和断裂行为
2. Hot tensile deformation and fracture behavior of ultrafine-grained AZ31 magnesium alloy processed by severe plastic deformation [J] . A. Fata, G. Faraji, M.M. Mashhadi, Materials Science and Engineering . 2016,第SEPa30期

机译：塑性变形严重的超细晶粒AZ31镁合金的热拉伸变形和断裂行为
3. Mechanism of grain boundary serration during hot deformation of AZ31 alloy: Role of grain boundary dislocations and grain boundary sliding [J] . International Journal of Plasticity . 2020,第期

机译：AZ31合金热变形过程中晶界序列的机理：晶界脱位和晶界滑动的作用
4. Fracture Behavior and Grain Boundary Sliding During High-Temperature Low-Stress Deformation of AZ31 Magnesium Alloy [C] . Peiman Shahbeigi Roodposhti, Korukonda L. Murty SMD Symposium on Mechanical and Creep Behavior of Advanced Materials . 2017

机译：AZ31镁合金高温低应力变形期间的断裂行为和晶界滑动
5. Structure of grain boundaries and aspects of deformation behavior in nickel-aluminum alloys. [D] . Kerans, Ronald James. 1988

机译：镍铝合金中晶界的结构和变形行为的方面。
6. A cross-shear deformation for optimizing the strength and ductility of AZ31 magnesium alloys [O] . Kotiba Hamad, Young Gun Ko -1

机译：交叉剪切变形可优化AZ31镁合金的强度和延展性
7. Grain-Boundary Sliding in AZ31 Magnesium Alloys at Room Temperature to 523K [O] . J. Koike, R. Ohyama, T. Kobayashi, 2002

机译：aZ31镁合金在室温至523K时的晶界滑移
8. Grain-Boundary Sliding and Deformation Mechanisms During High-Temperature Creep. Final Report [R] . Langdon, T. G. 1981

机译：高温蠕变过程中的晶界滑移和变形机制。总结报告

Fracture Behavior and Grain Boundary Sliding During High-Temperature Low-Stress Deformation of AZ31 Magnesium Alloy

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