Effects of Strain Rate and Temperature on Yield Locus for AZ31 Magnesium Alloy Sheet

机译：应变速率和温度对AZ31镁合金薄板屈服点的影响

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The yield locus of type AZ31 magnesium alloy sheet was obtained by performing biaxial tensile tests, using cruciform specimens, at temperatures of 100, 150, 200, 250 and 300 ℃ at strain rates of 10~(-2), 10~(-3) and 10~(-4) s~(-1) . Based on the experimental results, the effects of strain-rate and temperature on the yield locus was discussed. The size of yield locus drastically decreased with increasing temperature and decreased with decreasing strain-rate. Neither von Mises's criterion or Hill's can well predict the shape of the yield locus of this sheet metal. Instead of these quadratic yield functions, the yield criterion of Logan-Hosford or Barlat is a better choice for the accurate description of biaxial stress-strain responses at high temperature.

机译：通过使用十字形试样在100、150、200、250和300℃的温度下以10〜（-2），10〜（-3）的应变速率进行双轴拉伸试验，获得了AZ31型镁合金薄板的屈服点）和10〜（-4）s〜（-1）。根据实验结果，讨论了应变速率和温度对屈服位点的影响。产量位点的大小随着温度的升高而急剧减小，并且随着应变率的降低而减小。冯·米塞斯（von Mises）的判据或希尔氏（Hill）都无法很好地预测这种板材的屈服轨迹的形状。代替这些二次屈服函数，Logan-Hosford或Barlat的屈服准则是准确描述高温下双轴应力-应变响应的更好选择。

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来源
《Asia-Pacific Symposium on Engineering Plasticity and Its Applications(AEPA 2006); 20060925-29; Nagoya(JP)》|2006年|P.119-124|共6页
会议地点 Nagoya(JP)
作者
Tetsuo Naka; Masanori Hayakashi; Yasuhide Nakayama; Takeshi Uemori; Masahide Kohzu; Kenji Higashi; Fusahito Yoshida;
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作者单位

Yuge National College of Maritime Technology 1000, Yuge, Kamijima-Cho, Ochi-Gun, Ehime 794-2593, Japan;

Department of Mechanical System Engineering, Hiroshima University 1-4-1, Kagamiyama, Higashi-Hiroshima, Hiroshima 793-8527, Japan;

Department of Materia;

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原文格式 PDF
正文语种 eng
中图分类塑料;
关键词
Mg alloy sheet; strain rate; temperature; warm press forming; yield locus; biaxial tensile test; yield criterion;

机译：镁合金板；应变速率；温度；热压成型；屈服轨迹；双轴拉伸试验；屈服准则;

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1. 温度和应变速率对双辊铸轧、轧制和热处理态AZ31镁合金流动应力行为的影响 [J] . F BERGE, L KRGER, H OUAZIZ, 中国有色金属学报（英文版） . 2015,第001期
2. 温度和应变速率对双辊铸轧、轧制和热处理态AZ31镁合金流动应力行为的影响 [J] . F.BERGE, L.KRüGER, H.OUAZIZ, 中国有色金属学报：英文版 . 2015,第001期
3. Effects of strain rate, temperature and sheet thickness on yield locus of AZ31 magnesium alloy sheet [J] . Tetsuo Naka, Takeshi Uemori, Ryutaro Hino, Journal of Materials Processing Technology . 2008,第1a3期

机译：应变速率，温度和板厚对AZ31镁合金板屈服轨迹的影响
4. Effects of Strain Rate and Temperature on Yield Locus for AZ31 Magnesium Alloy Sheet [J] . Tetsuo Naka, Masanori Hayakashi, Yasuhide Nakayama, Key Engineering Materials . 2007,第Pt1期

机译：应变速率和温度对AZ31镁合金薄板屈服点的影响
5. Effect of temperature on the anisotropy of AZ31 magnesium alloy rolling sheet under high strain rate deformation [J] . Liu Yanyu, Mao Pingli, Zhang Feng, Philosophical magazine: structure and properties of condensed matter . 2018,第7a12期

机译：高应变率变形下AZ31镁合金轧制板各向异性的影响
6. Effects of Strain Rate and Temperature on Yield Locus for AZ31 Magnesium Alloy Sheet [C] . Tetsuo Naka, Masanori Hayakashi, Yasuhide Nakayama Asia-Pacific Symposium on Engineering Plasticity and Its Applications . 2007

机译：应变速率和温度对AZ31镁合金板材产座的影响
7. Mechanical Response, Texture Evolution, and Fracture of a Rare-earth-containing Magnesium Alloy Sheet, Zek100, at Different Strain Rates and Temperatures: Experiments and Modeling [D] . Habib, Saadi A. 2019

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9. ANISOTROPY AND STRAIN RATE DEPENDENCE OF TENSILE PROPERTIES ON AZ31 MAGNESIUM ALLOY SHEETS AT HIGH TEMPERATURE [O] . 青柳成俊, AOYAGI Naritoshi 2008

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10. Effect of Strain Rate on the Yield Behavior of Iron-Base LRO Alloys at Elevated Temperatures [R] . Lin, H. T. , Wilcox, R. C. , Chin, B. A. 1987

机译：应变速率对铁基LRO合金高温屈服行为的影响

Effects of Strain Rate and Temperature on Yield Locus for AZ31 Magnesium Alloy Sheet

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