第9期 吴圣杰等：铌含量对低碳微合金钢回复再结晶行为的影响 .1149. The 7th China Iron and Steel Annual Conference.Bei-[10]Miao C L.Study on Physical Metallurgical Phenomenon jing:Metallurgical Industry Press,2009:243 and Processing Principle for Advanced Pipeline Steel [Dis- (付俊岩，尚成嘉，刘清友.中国高等级管线钢的研究及其 sertation].Beijing:University Science and Technology 工业化实践/第七届中国钢铁年会论文集，北京：治金工 Beijing,2011 业出版社，2009：243) (缪成亮.高级别管线钢的物理冶金现象及工艺原理研究 [3]Palmiere E J,Garcia C I,DeArdo A J.The influence [学位论文].北京：北京科技大学，2011) of niobium supersaturation in austenite on the static re- [11]Miao C L,Shang C J.The softening behavior of higher crystallization behavior of low carbon microalloyed steels. niobium content X80 pipeline steel.Int J Mod Phys B. Metall Mater Trans A,1996,27(4):951 2009,23(6/7):1751 [4]Zhang Z H,Liu Y N,Liang X K,et al.The effect of Nb [12]Miao C L,Shang C J,Zurob H S,et al.Recrystallization on recrystallization behavior of a Nb micro-alloyed steel. precipitation behaviors,and refinement of austenite grains Metall Mater Trans A,2008,474(1/2):254 in high Mn,high Nb steel.Metall Mater Trans A,2012, [5]Nie W J,Shang C J,Wu S J,et al.Effects of Nb on re- 43(2):665 covery of hot deformed austenite.Acta Metall Sin,2012, [13]Miao C L,Shang C J,Zhang G D,et al.Studies on soft- 48(7):776 ening kinetics of niobium microalloyed steel using stress (聂文金，尚成嘉，吴圣杰，等.Nb对奥氏体热变形后等温 relaxation technique.Front Mater Sci China,2010,4(2): 回复的影响.金属学报，2012,48(7)：776) 197 [6]Miao C L,Shang C J,Zhang G D,et al.Recrystalliza- [14]Zurob H S,Hutchinson C R.Brechet Y.et al.Modeling tion and strain accumulation behaviors of high Nb-bearing recrystallization of microalloyed austenite:effect of cou- line pipe steel in plate and strip rolling.Mater Sci Eng pling recovery,precipitation and recrystallization.Acta A,2010.527(18/19):4985 Mater,2002,50(12):3077 [7]Nie W J,Xin W F,Xu T M,et al.Enhancing the tough- 15 Zurob H S.Effect of Precipitation,Recovery and Recrys- ness of heavy thick x80 pipeline steel plates by microstruc- tallization on the Microstructure Evolution of Microal- ture control.Adv Mater Res,2011,194-196:1183 loyed Austenite Dissertation].Hamilton:McMaster Uni- [8 Karjalainan L P,Perttula J.Characteristics of static and versity,2003 metadynamic recrystallization and strain accumulation in 16]Cahn J W.The impurity-drag effect in grain boundary hot-deformed austenite as revealed by the stress relaxation motion.Acta Metall,1962,10(9):789 method.ISIJ Int,1996,36(6):729 [17]Gomez M,Medina S F,Valles P.Determination of driving [9]Liu W J,Jonas JJ.A stress relaxation method for follow- and pinning forces for static recrystallization during hot ing carbonitride precipitation in austenite at hot working rolling of a niobium microalloyed steel.ISIJ Int,2005, temperatures.Metall Trans A,1988,19(6):1403 45(11):1711第 9 期 吴圣杰等：铌含量对低碳微合金钢回复再结晶行为的影响 1149 ·· The 7th China Iron and Steel Annual Conference. Bei￾jing: Metallurgical Industry Press, 2009: 243 (付俊岩, 尚成嘉, 刘清友. 中国高等级管线钢的研究及其 工业化实践 // 第七届中国钢铁年会论文集, 北京: 冶金工 业出版社, 2009: 243) [3] Palmiere E J, Garcia C I, DeArdo A J. The influence of niobium supersaturation in austenite on the static re￾crystallization behavior of low carbon microalloyed steels. Metall Mater Trans A, 1996, 27(4): 951 [4] Zhang Z H, Liu Y N, Liang X K, et al. The effect of Nb on recrystallization behavior of a Nb micro-alloyed steel. Metall Mater Trans A, 2008, 474(1/2): 254 [5] Nie W J, Shang C J, Wu S J, et al. Effects of Nb on re￾covery of hot deformed austenite. Acta Metall Sin, 2012, 48(7): 776 (聂文金, 尚成嘉, 吴圣杰, 等. Nb 对奥氏体热变形后等温 回复的影响. 金属学报, 2012, 48(7): 776) [6] Miao C L, Shang C J, Zhang G D, et al. Recrystalliza￾tion and strain accumulation behaviors of high Nb-bearing line pipe steel in plate and strip rolling. Mater Sci Eng A, 2010, 527(18/19): 4985 [7] Nie W J, Xin W F, Xu T M, et al. Enhancing the tough￾ness of heavy thick x80 pipeline steel plates by microstruc￾ture control. Adv Mater Res, 2011, 194-196: 1183 [8] Karjalainan L P, Perttula J. Characteristics of static and metadynamic recrystallization and strain accumulation in hot-deformed austenite as revealed by the stress relaxation method. ISIJ Int, 1996, 36(6): 729 [9] Liu W J, Jonas J J. A stress relaxation method for follow￾ing carbonitride precipitation in austenite at hot working temperatures. Metall Trans A, 1988, 19(6): 1403 [10] Miao C L. Study on Physical Metallurgical Phenomenon and Processing Principle for Advanced Pipeline Steel [Dis￾sertation]. Beijing: University Science and Technology Beijing, 2011 (缪成亮. 高级别管线钢的物理冶金现象及工艺原理研究 [学位论文]. 北京: 北京科技大学, 2011) [11] Miao C L, Shang C J. The softening behavior of higher niobium content X80 pipeline steel. Int J Mod Phys B, 2009, 23(6/7): 1751 [12] Miao C L, Shang C J, Zurob H S, et al. Recrystallization, precipitation behaviors, and refinement of austenite grains in high Mn, high Nb steel. Metall Mater Trans A, 2012, 43(2): 665 [13] Miao C L, Shang C J, Zhang G D, et al. Studies on soft￾ening kinetics of niobium microalloyed steel using stress relaxation technique. Front Mater Sci China, 2010, 4(2): 197 [14] Zurob H S, Hutchinson C R, Brechet Y, et al. Modeling recrystallization of microalloyed austenite: effect of cou￾pling recovery, precipitation and recrystallization. Acta Mater, 2002, 50(12): 3077 [15] Zurob H S. Effect of Precipitation, Recovery and Recrys￾tallization on the Microstructure Evolution of Microal￾loyed Austenite [Dissertation]. Hamilton: McMaster Uni￾versity, 2003 [16] Cahn J W. The impurity-drag effect in grain boundary motion. Acta Metall, 1962, 10(9): 789 [17] G´omez M, Medina S F, Valles P. Determination of driving and pinning forces for static recrystallization during hot rolling of a niobium microalloyed steel. ISIJ Int, 2005, 45(11): 1711