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1)  deformation activation energy
热变形激活能
1.
In the present study,the hot deformation activation energy is 190 kJ/mol and the st.
2,其热变形激活能Q为190kJ/mol。
2.
In the present study,the hot deformation activation energy is 183kJ·mol-1 and the stress exponent is 5 during the hot compression deformation of AZ80 magnesium alloy.
本实验条件下,AZ80镁合金热压缩变形时的应力指数n为5,其热变形激活能Q为183 kJ。
3.
The hot deformation activation energy of TiB2/6351 composites during hot deformation is 170.
33,其热变形激活能Q为170。
2)  thermal deformation activation energy
热变形激活能
3)  activation energy
热变形激活能
1.
The hot deformation activation energy Q of SAE9310 steel is 416.
1~10 s-1范围内,试验钢均会发生动态完全再结晶;测得9310钢的热变形激活能Q值为416。
2.
The hot deformation activation energy Q of AF1410 steel is 430.
当变形速率为10s-1时,其变形温度高于1373K,才会发生完全动态再结晶;AF1410钢的热变形激活能Q值为430。
4)  thermally activated deformation
热激活变形
1.
The thermally activated deformation and dynamic strain aging(DSA)of Zr-4 were investigated by stress relaxation experiments in a broad temperature range.
采用应力松弛实验研究了Zr-4合金的热激活变形与动态应变时效现象。
5)  deformation activation energy
变形激活能
1.
The deformation activation energy of 377 kJ/mol in (α+β) region and 648 kJ/mol in β region was calculated.
测试了其真应力-真应变曲线,建立了本构方程,并求出变形激活能,双相区为377kJ/mol,β相区为648kJ/mol。
2.
The hot-deformation activation energy and corresponding stress exponent were calculated.
0s-1、变形温度为150~500℃条件下的流变应力行为进行了研究,计算了变形激活能及相应的应力指数,建立了峰值流变应力方程。
3.
The deformation activation energy 132kJ/mol and the corresponding stress ex.
结果表明,合金的流变应力随应变速率的增大而增大,随温度的升高而降低;在给定的变形条件下,计算出合金的变形激活能为132kJ/mol,应力指数为6。
6)  activation energy of deformation
形变激活能
1.
The results show that the activation energy of deformation is connected with deformation condition,and it increases with the increase of strain rate.
结果表明:形变激活能与变形条件相关,随着应变速率的增加而增加;Avrami指数m同样与变形条件有关;对实验数据进行回归分析后建立的Ti微合金钢动态再结晶的特征应变、特征应力、动力学以及稳定状态晶粒尺寸的数学模型精度较高。
补充资料:大坝内部变形观测(见水工建筑物变形观测)


大坝内部变形观测(见水工建筑物变形观测)


  daba neibubianxing guanCe大坝内部变形观测见水工建筑物变形观测。
  
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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