低温形变热处理 low temperature thermomechanical treatment
低温循环变形 low temperature cyclic deformation
低温强变形 Intensive Deformation at Low Temperature
高低温下易变形 ABS
高低温下易变形、褪色 ABS
比较了传统TMCP与新型TMCP的异同,总结了目前采用的细化晶粒低温大变形方法的两种机制。
The differences between conventional TMCP and new type TMCP were compared, and two mechanisms of low temperature large deformation for fine-grained were summarized.
在研究的实验条件范围内,合金的蠕变变形机制为低温高应力下的位错粘滞滑移控制和高温低应力下的位错攀移控制;
The creep mechanisms are dislocation glide at lower testing temperatures in higher stress levels and dislocation climb at higher temperatures in lower stress levels.
计算结果表明,IF钢的延伸率、耐低温钢的无塑性变形温度预报值与实测值相当符合。
The results of computation indicate that the elongation of IF steel, the temperature of zero plastic deformation of low-temperature steel predicted are in agreement with the experimental data.
应用推荐