peak flow stress 流变应力
flow stress model 流动应力模型
flow stress equation 流变应力方程
flow-stress 流动应力
high temperature flow stress 高温流变应力
Mean Flow Stress 平均流变应力
permeable flow-stress coupled 渗流应力耦合
flow stress in reverse direction 反向流变应力
the flow stress 流动应力
The flow stress mathematical model of this material were established by modifying the Fields-Backofen equation.
对Fields and Backofen流变应力数学方程进行修正,建立该材料的流变应力数学模型。
参考来源 - 7B04The pivotal factor of predicting rolling force is flow stress.
影响轧制力的主要因素是材料的流动应力。
参考来源 - IF钢铁素体轧制工艺的计算机模拟The flow stress decreased with increasing temperature and increased with increasing strain rate.
置氢钛基复合材料的流变应力随变形温度升高而减小,随应变速率增加而增大。
参考来源 - 原位自生钛基复合材料的热氢处理研究With the increase of volume fraction of SiC particles, the flow stress of composites increases. From the compare of the experiment result and the analysis result, the constitute equation of MMCs is given.
随着SiC颗粒的体积分数的增加,复合材料流动应力相应增加,并将实验结果与理论计算结果进行了比较分析,得到反映颗粒增强金属基复合材料性能的本构方程。
参考来源 - 功能梯度材料抗侵彻性能试验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
以上来源于: WordNet
The flow stress increases with the increase of strain rates.
随着应变速率的增加,稳态流变应力增大;
Effect of strain rates on peak flow stress is relate to deformation temperature.
应变速率对峰值应力的影响与变形温度有关。
The flow stress decreases and the elongation increases with the decrease of stress rate .
随着拉伸速度的减小,合金的流变应力减小,延伸率增大。
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