Dynamic Recrystallization Behavior of Microalloyed Forged Steel 被引量：7

Dynamic Recrystallization Behavior of Microalloyed Forged Steel

导出

摘要 The dynamic recrystallization behavior of microalloyed forged steel was investigated with a compression test in the temperature range of 1 223-1 473 K and a strain rate of 0. 01-5 s^-1. Activation energy was calculated to be 305.9 kJ/mol by regression analysis. Modeling equations were developed to represent the dynamic recrystallization volume fraction and grain size. Parameters of the modeling equations were determined as a function of the Zener-Hollomon parameter. The developed modeling equation will be combined with finite element modeling to predict microstructural change during the hot forging processing. The dynamic recrystallization behavior of microalloyed forged steel was investigated with a compression test in the temperature range of 1 223-1 473 K and a strain rate of 0. 01-5 s^-1. Activation energy was calculated to be 305.9 kJ/mol by regression analysis. Modeling equations were developed to represent the dynamic recrystallization volume fraction and grain size. Parameters of the modeling equations were determined as a function of the Zener-Hollomon parameter. The developed modeling equation will be combined with finite element modeling to predict microstructural change during the hot forging processing.

作者 WANG Jin CHEN Jun ZHAO Zhen RUAN Xue-yu

机构地区 National Die and Mold CAD Engineering Research Center

出处《Journal of Iron and Steel Research(International)》 SCIE EI CAS CSCD 2008年第3期78-81,91,共5页 钢铁研究学报（英文版）

基金 National Natural Science Foundation of China (50275094)

关键词 microalloyed forged steel dynamic recrystallization flow stress microalloyed forged steel dynamic recrystallization flow stress

分类号 TG13 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献11

1A. Laasraoui,J. J. Jonas.Prediction of steel flow stresses at high temperatures and strain rates[J].Metallurgical Transactions A.1991(7)
2Serajzadeh S,,Kari mi Taheri A.An Investigation on the Effect of Carbon and Silicon on Flow Behavior of Steel[].Materials and Design.2002
3Sellars C M,WhitemanJ A.Recrystallization and Grain Growthin Hot Rolling[].Metal Science.1979
4Ki mS I,Lee Y,Byon S M.Study on Constitutive Relation of Aisi 4140 Steel Subject to Large Strain at Elevated Tempera- tures[].Journal of Materials.2003
5Naylor DJ.Microalloyed Forging Steels[].Journal of Materials Science.1998
6Gonzalez-Baquet I,Kaspar R,Richter J ,et al.Microalloyingand a New Post Forging Treat ment of Medium Carbon Steels[].Journal of Materials Science.1998
7DeArdo AJ.Microalloyed Strip Steels for the 21st Century[].Journal of Materials Science.1998
8Sellars C M,McTegart WJ.On the Mechanismof Hot De- formation[].Acta Metallurgica.1966
9A. Laasaraoui,,J.J. Jonas.Prediction of Steel Flow stresses at high Temperatures and Strain Rates[].Metallurgical Transactions A.1991
10Serajzadeh S,Taheri A K.Prediction of flow stress at hot working condition[].Mechanics Research Communications.2003

同被引文献51

1王匀,孙日文,许桢英,董培龙,袁国定,蔡兰.微塑性成形中的摩擦研究[J].润滑与密封,2008,33(2):13-16. 被引量：2
2严巍,陈国学.轴对称压缩流动应力-应变曲线有限元修正方法的研究[J].塑性工程学报,2004,11(4):19-21. 被引量：8
3杨洪根,崔庆红.非调质钢在工程机械上的运用及评价[J].工程设计学报,2004,11(4):228-230. 被引量：11
4许树勤,陈志英,张善元.镦粗试验中鼓度与摩擦的相关性研究[J].锻压技术,2004,29(5):46-48. 被引量：15
5先智伟,谢箴.世界LNG装置现状及发展[J].天然气与石油,2005,23(2):6-9. 被引量：17
6王进,陈军,赵震,阮雪榆.非调质钢F40MnV高温流动应力模型研究[J].塑性工程学报,2005,12(5):54-57. 被引量：10
7朱华,吴国友,张青龙.纳米级堇青石晶胞参数的计算与研究[J].矿业研究与开发,2006,26(1):40-43. 被引量：1
8刘瑞宁,王福明.汽车用微合金化非调质钢的进展[J].特殊钢,2006,27(3):39-43. 被引量：28
9陈伟昌,党紫九.热轧过程的物理模拟[J].特殊钢,1996,17(3):27-35. 被引量：12
10孙兰,贾成厂,曹瑞军.纳米粉末烧结的研究现状与前景[J].粉末冶金技术,2006,24(2):146-150. 被引量：12

引证文献7

1周滨,申昱,陈军,崔振山.Cr9Mo钢热压缩试验结果的标定及验证[J].塑性工程学报,2009,16(5):90-95. 被引量：1
2王进,褚忠,陈军.非调质钢奥氏体动态再结晶研究[J].材料导报,2010,24(22):116-118. 被引量：3
3吴晋彬,刘国权,王承阳,许磊,王浩.钒氮微合金钢动态再结晶动力学及影响因素[J].材料科学与工艺,2011,19(1):85-90. 被引量：5
4LEI Xiao-rong,DING Qing-feng,CHEN Yuan-yuan,RUI Xiao-long,LI Shu-rui,WANG Qing-feng.Effect of Niobium on Dynamic Recrystallization Behavior of 5%Ni Steel[J].Journal of Iron and Steel Research(International),2013,20(6):38-44.
5田键,周昱,黄红旗,彭能.氮化钒形成机制中热动力学及活化能研究[J].兵器材料科学与工程,2016,39(5):1-4. 被引量：3
6田键,周昱,叶斌,潘皇宇,黄志林.纳米级氮化钒最佳纳米化尺度的计算研究[J].粉末冶金工业,2017,27(6):13-17. 被引量：2
7王敏婷,李学通,刘晓东,杜凤山.非调质钢40MnV热变形后冷却相变动力学[J].材料热处理学报,2014,35(9):49-54. 被引量：5

二级引证文献19

1陈俊,唐帅,周砚磊,刘振宇,王国栋,杨颖,陈军平.低碳Q690qENH高强桥梁钢的动态再结晶行为[J].材料研究学报,2012,26(2):199-205. 被引量：16
2翟月雯,钟志平,金泉林.P91合金钢热变形力学行为的实验[J].塑性工程学报,2012,19(3):88-93. 被引量：4
3董应虎,张英建,魏晓晓,周贤良,叶志国,周浪.控轧控冷工艺对F40MnV非调质钢组织及性能的影响[J].材料热处理学报,2012,33(7):94-99. 被引量：9
4李冬勤,徐磊,黄兴民,戴光泽.7A04铝合金动态再结晶的临界应变研究[J].材料工程,2013,41(4):23-27. 被引量：10
5闫永明,刘雅政,周乐育,徐盛.23CrNi3Mo钢动态再结晶行为和组织演变研究[J].材料科学与工艺,2014,22(1):42-47. 被引量：4
6冯耀耀,王庆娟,杜忠泽,周民.工艺参数对汽车用49MnVS3钢组织和硬度的影响[J].钢铁研究学报,2018,30(11):900-905. 被引量：1
7满廷慧,高鹏,杨红新,周湛,雍岐龙,包耀宗.Nb-V-Ti微合金化0.37C-1.45Mn非调质钢动态再结晶行为[J].特殊钢,2014,35(4):66-68. 被引量：2
8于辉,刘利刚,王秀琳,黄洪涛,冯庆.核岛用P280GH钢的冷却相变过程及数值模拟[J].钢铁,2016,51(12):58-64. 被引量：2
9周蕾,魏刚武,高延祥,孙华.30MnVS非调质钢的开发[J].钢铁,2017,52(3):76-81. 被引量：8
10朱军,张驰,刘新运,程国鹏,郑建伟.钒氮合金生产工艺对比分析[J].铁合金,2017,48(9):9-13.

1王向成.微量合金成分对钢的高温变形抗力的影响[J].武钢技术,1996,34(6):36-41.
2刘炳,米旦力甫.用微量合金变质试制低铬铸铁磨球[J].热加工工艺,1997,26(2):40-42. 被引量：3
3柴增田,李明.生产球磨机衬板的新型低合金耐磨钢[J].铸造技术,2012,33(3):289-293. 被引量：5
4张毅,刘平,田保红,贾淑果.微量合金元素对Cu-Ni-Si合金组织和性能的影响[J].热加工工艺,2011,40(6):11-14. 被引量：6
5司乃潮,马得勇,吴勤方,孙少纯,刘光磊,华雄飞.合金元素对Al-Si合金力学性能及组织的影响[J].有色金属（冶炼部分）,2011(9):47-51. 被引量：1
6许福兰.浅谈CuCr合金制备工艺[J].职业,2012(8):151-151.
7CFHI to build world-class cast and forged steel base[J].China Foundry,2011,8(3):366-366.
8黄晓锋,梁艳,谢锐,王韬,曹喜娟,朱凯,田载友.新型镁合金研究进展[J].热处理技术与装备,2009,30(3):3-8. 被引量：8
9邹克武,柴增田,李卫权.生产球磨机衬板的新型抗磨材料[J].铸造技术,2013,34(11):1458-1461. 被引量：4
10王红英.P460NL1钢焊接热裂纹初探[J].洪都科技,1996(3):33-38.

Journal of Iron and Steel Research(International)

2008年第3期

浏览历史

内容加载中请稍等...

Dynamic Recrystallization Behavior of Microalloyed Forged Steel 被引量：7

参考文献11

同被引文献51

引证文献7

二级引证文献19

相关作者

相关机构

相关主题

浏览历史