1) critical strain rate
临界应变率
2) The Influence of Strain Rate
临界应变速率
3) critical strain
临界应变
1.
Mathematical model of critical strain of 37Mn5 steel;
37Mn5钢临界应变数学模型研究
2.
In order to determine the critical conditions or critical strain of initial dynamic recrystallization, the AZ31 magnesium alloy was deformed by isothermal compression in the range of deformation temperature 473~623 K at strain rate 0.
为确定AZ31镁合金初始动态再结晶的临界条件或临界应变,通过在变形温度范围473~623K、应变速率范围0。
3.
The critical strain mathematical model for high-carbon wire was established based on theory analysis and experiment data regression.
通过理论分析和实验数据回归计算,建立了高碳钢线材热轧过程中临界应变的数学模型,并开发了奥氏体组织演变模拟软件。
4) critical strain energy release rate
临界应变能释放速率
5) strain energy release rate
临界应变能释放率
1.
Measured method of nonlinearity critical strain energy release rate of frozen soil;
冻土非线性临界应变能释放率的测试方法
6) critical strain
临界应变量
1.
Influence of deformation temperature on the critical strain for completion of DEFT;
变形温度对形变强化相变完成时临界应变量的影响
2.
Based on the mechanism of deformation enhanced ferrite transformation(DEFT),the effect of carbon on the critical strain(εc) for the completion of DEFT was investigated when the undercooled austenite in two different low carbon-manganese steels was deformed at 780,750 ℃ and strain rate of 10 s-1,respectively.
利用“形变强化相变”机制研究了两种不同碳含量低碳锰钢(A钢,B钢)过冷奥氏体在780℃和750℃,以10 s-1的速率变形时,碳元素对相变完成时临界应变量cε的影响。
补充资料:临界应变
criticalstrain:于冷变形加工时所达的这样一个形变率,即达此形变率则导致一次再结晶时形成非常粗大的晶粒。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条