共查询到17条相似文献,搜索用时 171 毫秒
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设计了不同间隔时间的双道次压缩实验,模拟热轧条件下5%Ni低温压力容器钢07Ni5DR的变形过程,实测了实验钢的应力-应变曲线。根据应力-应变曲线计算软化率,绘制出软化率-时间曲线,确定实验钢在不同变形温度变形后不同保持时间内的静态软化率。此外,分析静态再结晶动力学过程,为制定合理的轧制工艺提供了实验和理论依据。研究表明,5%Ni低温钢的静态再结晶软化率随变形温度的升高和道次间隔时间的延长而增大,其静态再结晶激活能为233.97 kJ/mol。此外,建立了5%Ni低温钢的静态再结晶动力学方程。 相似文献
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设计了不同间隔时间的双道次压缩实验,模拟热轧条件下5%Ni低温压力容器钢07Ni5DR的变形过程,实测了实验钢的应力-应变曲线。根据应力-应变曲线计算软化率,绘制出软化率-时间曲线,确定实验钢在不同变形温度变形后不同保持时间内的静态软化率。此外,分析静态再结晶动力学过程,为制定合理的轧制工艺提供了实验和理论依据。研究表明,5%Ni低温钢的静态再结晶软化率随变形温度的升高和道次间隔时间的延长而增大,其静态再结晶激活能为233.97 kJ/mol。此外,建立了5%Ni低温钢的静态再结晶动力学方程。 相似文献
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对含有Ti,Nb,Ti—Nb的三种无间隙原子钢(IF钢),利用多道次扭转试验,研究了它们总的精轧变形量(从2.1~3.2)和精轧开轧温度(从990~930℃)的影响。这些试验的应变速率为2s~-1。在精轧中,静态再结晶是造成早期轧制阶段轧制间隙期间高度软化的原因。在后来的轧制阶段,动态再结晶的出现取决于钢的化学成分、精轧总变形量和精轧温度。lF钢的临界温度是模拟粗轧工艺确定的。以相同的轧制工艺为条件.Nb固定钢晶粒最细,反之,Ti固定钢铁素体晶拉最大。由于精轧的间隙时间(1~2s)比粗轧的间隙时间要短得多,所以精轧时IF钢呈现出高的未再结晶温度。 相似文献
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Static Recrystallization Kinetics Model After Hot Deformation of Low-Alloy Steel Q345B 总被引:2,自引:0,他引:2
The static recrystallization behavior of low-alloy steel Q345B during double-pass hot compression deformation tests was investigated in the temperature range of 900-1000 ℃,the true strain range of 0.15-0.25 and the interpass time range of 0.5-50 s on Gleeble-3500 thermo-simulation machine.The results show that static recrystallization during the interpass time is observed.As the deformation temperature and strain increase,softening caused by static recrystallization is obvious.According to the analysis and calculation of thermo-simulation data,the static recrystallization activation energy was obtained and static recrystallization kinetics model was built.Finally,the error analysis of static recrystallization kinetics model proved that the model had good accuracy.Therefore,this model provides a theoretical basis for static recrystallization(SRX)and will contribute to the development of multipass hot rolling process,in order to control the rolling process more accurately. 相似文献
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采用不同的生产工艺制度,E32级船板钢在工业试制过程中的-40℃纵向冲击功波动较大,对此现象的研究表明,在采用两阶段轧制时,由于中间坯的厚度较大,对未再结晶区的变形温度产生影响,易发生在部分再结晶区轧制时,钢板出现混晶,从而造成钢板低温冲击值较低。 相似文献
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Dynamic and Static Recrystallization Behavior of Low Carbon High Niobium Microalloyed Steel 总被引:2,自引:0,他引:2
The recrystallization behavior of a low carbon high Nb microalloyed steel was investigated using Continuous and interrupted hot compression tests. The results showed that the onset of dynamic recrystallization (DRX) could be detected from inflection in the plot of the strain hardening rate θ against stress σ regardless of whether the stress peak appears or not. According to Zener-Hollomon parameter the activity energy of DRX (Qdef) was obtained, and a new modified expression calculating Qdef was proposed in consideration of the chemical composition of experimental steel. Applying the 2% offset method the static softening fraction was determined. The graphic representation of the softening fraction vs. interrupt time gave the information of the non-static recrystallization temperature (about 1000℃)and the relationship of precipitation-time-temperature. Static recrystallization kinetics follow Avrami’s law in high deformation temperature, and different values of the exponent n were given to illustrate the different effects of Nb element on static recrystallization at different deformation temperature. 相似文献