1) ferrite hot deformation
高温铁素体区变形
2) Ferrite Deformation
铁素体变形
1.
Model of Dynamic Recrystallization Critical Strain in Ferrite Deformation of Ti-IF Steel;
Ti-IF钢铁素体变形动态再结晶临界应变模型
2.
The dynamic models of static recrystallization for Ti-IF steels in multi-pass ferrite deformation were deduced on the basis of experiments.
在实验的基础上建立了超低碳Ti-IF钢多道次铁素体变形时静态再结晶动力学模型。
3) austenite-ferrite-repeating deformation
奥氏体-铁素体区循环形变
1.
The effects of deformation temperature in ferrite and austenite zones,stress rate and cooling rate on the mechanical properties of X60 pipeline steel were investigated by adjusting austenite-ferrite-repeating deformation parameters.
通过调整奥氏体-铁素体区循环形变参数,研究了铁素体区变形温度、奥氏体区变形温度、变形速率、冷却速度对X60管线钢力学性能的影响规律。
4) deformation induced transformation ferrite
形变诱导铁素体
1.
The deformation characters and the evolution of deformation induced transformation ferrite of low carbon steel were studied.
在Gleeble-3500型热模拟试验机上对Q235钢进行了单向压缩试验,研究了不同温度下低碳钢的变形特征以及形变诱导铁素体的演变行为和在保温过程中的变化。
2.
The deformation character and evolution of deformation induced transformation ferrite of low carbon steel were studied.
研究了不同温度下低碳钢变形特征以及形变诱导铁素体演变行为和在保温过程中的变化。
5) deformation induced ferrite
形变诱导铁素体
1.
Phase Transformation Mechanism,Structure and Property of Pro-eutectoid Ferrite and Deformation Induced Ferrite of Low Carbon Steel;
低碳钢先共析铁素体和形变诱导铁素体的相变机制、组织和性能
2.
The results show that deformation induced ferrite(DIF) can be obtained through suitable deformation for medium carbon steel as deformation raises the transformation temperature from austenite to ferrite.
结果表明,中碳钢通过形变可获得形变诱导铁素体(DIF);形变提高奥氏体向铁素体转变温度,随着形变温度的降低,DIF含量呈反“S”形增加,即先缓慢增加,随后快速增加,当DIF量超过平衡态铁素体量时,其增加趋势趋缓。
3.
The results show that the formation of ultra-fine grains is resulting from the common effect of dynamic recrystallization and deformation induced ferrite (DIF).
结果表明:超细晶铁素体的获得主要是形变诱导铁素体和铁素体动态再结晶两种机制共同作用的结果在87O-760℃低温80%变形可以获得的等轴均匀超细品铁素体。
6) Fe-base wrought super alloy
铁基变形高温合金
补充资料:高温岩体发电
利用地表深层高温干岩体所含的热量发电(见高温岩体电站)。
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