摘要
通过单道次和双道次热模拟实验,研究了变形量20%~50%在980、1000、1020℃变形温度、1000℃下不同变形量(25%~40%)以及1000℃变形后间隔不同时间(1~20 s)的再结晶区的轧制过程。结合金相检测、电子背散衍射(EBSD)及X-射线衍射(XRD)等检测方法表征和分析了变形过程中的间隔时间、变形温度和变形量对晶粒尺寸、解理单元尺寸以及织构的影响。结果表明,随着再结晶间隔时间的减少、再结晶区变形温度的降低和变形量的增加,组织晶粒尺寸和解理单元尺寸均细化显著。当变形温度降低至980℃时,可获得更多的{110}滑移面,使得韧性提高。
Through single pass and two pass thermal simulation experiment,the rolling process in recrystallization zone with deformation 20% ~ 50% at deformation temperature 980,1 000,1 020℃,and with defferent deformation 25%~40% at 1 000 ℃,and interval time(1 ~20 s) after deformed at 1 000 ℃ is studied.And the affect of deformation process interval time,deformation temperature and deformation quantity on grain size,cleavage unit size and texture are characterized and analyzed through metallographic examination,EBSD(Electron Backscattering Diffraction) and X-ray deffraction(XRD).The results show that microstructure grain size and cleavage unit size greatly refine with recrystallization interval time decreasing,deformation temperature decreasing in recrystallization zone and deformation increasing.When deformation temperature decreases to 980 ℃,more {110} glide plane can be obtained,thereby increasing toughness.
作者
叶晓瑜
黄贞益
李拔
陈述
贾书君
左军
Ye Xiaoyu;Huang Zhenyi;Li Ba;Chen Shu;Jia Shujun;Zuo Jun(School of Metallugy Engineering,Anhui Polytechnical University,Ma'anshan 243002;State Key Lab of Vanadium and Titanium Resources Comprehesive Uitilization,Pangang Group Resear Institute Co Ltd,Panzhihua 617000;Institute of Engineering Steel,Central Iron and Steel Institute,Beijing 100081)
出处
《特殊钢》
2021年第4期12-16,共5页
Special Steel
关键词
再结晶区
变形间隔时间
变形温度
变形量
组织
织构
Recrystallization
Deformation Interval Time
Deformation Temperature
Deformation Quantity
Microstructure
Texture