第11期 曹佳丽等：超细晶中锰钢温轧强化增塑机理 ·1471· ment of steels through M3 structure control.Iron Steel, 59(10):4002 2010,45(7):1 [10]De Moor E,Matlock D K,Speer J G,et al.Austenite sta- (董瀚，王毛球，翁宇庆.高性能钢的M3组织调控理论与 bilization through manganese enrichment.Scripta Mater, 技术.钢铁，2010,45(7)：1) 2011,64(2):185 [3]Shi J,Sun X J,Wang M Q,et al.Enhanced work- [11]Xiong Z L,Cai Q W,Jiang H T,et al.Research on me- hardening behavior and mechanical properties in ultrafine- chanical stability of austenite in TRIP steels.J Mater grained steels with large-fractioned metastable austenite Eng,2011(3):11 Scripta Mater,2010,63(8):815 (熊自柳，蔡庆伍，江海涛，等.TRIP钢中奥氏体的力学稳 [4]Li N,Shi J,Wang C Y,et al.Effect of annealing time on 定性研究.材料工程，2011(3)少：11) microstructure and mechanical properties of a cold rolled [12]Wang Y M,Chen M W,Zhou F H,et al.High tensile medium manganese steel.Trans Mate Heat Treat,2011, ductility in a nanostructured metal.Nature,2002,419: 32(8):74 912 (李楠，时捷王存宇，等.两相区退火时间对冷轧中锰钢组 [13]Park K T,Lee Y k,Shin D H,et al.Fabrication of ultra- 织和力学性能的影响.材料热处理学报，2011,32(8)：74) [5]Asoo K,Tomota Y,Harjo S,et al.Tensile behavior of fine grained ferrite/martensite dual phase steel by severe plastic deformation.ISIJ Int,2005,45(5):750 a TRIP-aided ultra-fine grained steel studied by neutron diffraction.ISIJ Int,2011,51(1):145 [14]Tian Z Q.The Research of Strengthening and Plasticity [6]Zhou Y.Material Analysis.3rd Ed.Beijing:China Ma- Mechanism and Annealing Processing of High Strength chine Press,2011 Dual Phase Steel [Dissertation].Beijing:University of (周玉.材料分析方法.3版.北京：机械工业出版社，2011) Science and Technology Beijing,2009 [7]Wang S G,Wang X,Hua L X,et al.Relationship be- (田志强。高强度双相钢的退火工艺及强塑性机理研究学 tween retained austenite and strain for Si-Mn TRIP steel. 位论文].北京：北京科技大学，2009) J Univ Sci Technol Beijing,1995,2(1):7 [15]Zhang Y G.Study on Heat Treatment and Stability of [8]He Z P,He Y L,Gao Y,et al.Mechanical stability Retained Austenite of Hot Dip Galvanized TRIP-Aided of retained austenite in low-silicon,non-aluminum and Cold-Rolled Steel [Dissertation].Beijing:University of medium-carbon TRIP steels.Trans Mater Heat Treat, Science and Technology Beijing.2010 2011,32(Suppl1):41 (张宇光.冷轧热镀锌TIP钢热处理工艺及其奥氏体稳 (何忠平，何燕霖，高毅，等.低硅无铝中碳TRP钢中残留 定性的研究[学位论文].北京：北京科技大学，2010) 奥氏体的机械稳定性.材料热处理学报，2011,32（增刊1：[16 Kuang S,Kang Y L,YuH,etal.Strain-hardening char- 41) acteristics of a cold rolled C-Si-Mn dual phase steel.J [9]Luo H W,Shi J,Wang C,et al.Experimental and numer- Mater Eng,2009(2):11 ical analysis on formation of stable austenite during the (邝霜，康永林，于浩，等.C-Si-Mn冷轧双相钢的应变硬化 intercritical annealing of 5Mn steel.Acta Mater,2011, 特性.材料工程，2009(2：11)第 11 期 曹佳丽等：超细晶中锰钢温轧强化增塑机理 1471 ·· ment of steels through M3 structure control. Iron Steel, 2010, 45(7): 1 (董瀚, 王毛球, 翁宇庆. 高性能钢的 M3 组织调控理论与 技术. 钢铁, 2010, 45(7): 1) [3] Shi J, Sun X J, Wang M Q, et al. Enhanced work￾hardening behavior and mechanical properties in ultrafine￾grained steels with large-fractioned metastable austenite. Scripta Mater, 2010, 63(8): 815 [4] Li N, Shi J, Wang C Y, et al. Effect of annealing time on microstructure and mechanical properties of a cold rolled medium manganese steel. Trans Mate Heat Treat, 2011, 32(8): 74 (李楠, 时捷, 王存宇, 等. 两相区退火时间对冷轧中锰钢组 织和力学性能的影响. 材料热处理学报, 2011, 32(8): 74) [5] Asoo K, Tomota Y, Harjo S, et al. Tensile behavior of a TRIP-aided ultra-fine grained steel studied by neutron diffraction. ISIJ Int, 2011, 51(1):145 [6] Zhou Y. Material Analysis. 3rd Ed. Beijing: China Ma￾chine Press, 2011 (周玉. 材料分析方法. 3 版. 北京: 机械工业出版社, 2011) [7] Wang S G, Wang X, Hua L X, et al. Relationship be￾tween retained austenite and strain for Si-Mn TRIP steel. J Univ Sci Technol Beijing, 1995, 2(1): 7 [8] He Z P, He Y L, Gao Y, et al. Mechanical stability of retained austenite in low-silicon, non-aluminum and medium-carbon TRIP steels. Trans Mater Heat Treat, 2011, 32(Suppl 1): 41 (何忠平, 何燕霖, 高毅, 等. 低硅无铝中碳 TRIP 钢中残留 奥氏体的机械稳定性. 材料热处理学报, 2011, 32(增刊 1): 41) [9] Luo H W, Shi J, Wang C, et al. Experimental and numer￾ical analysis on formation of stable austenite during the intercritical annealing of 5Mn steel. Acta Mater, 2011, 59(10): 4002 [10] De Moor E, Matlock D K, Speer J G, et al. Austenite sta￾bilization through manganese enrichment. Scripta Mater, 2011, 64(2): 185 [11] Xiong Z L, Cai Q W, Jiang H T, et al. Research on me￾chanical stability of austenite in TRIP steels. J Mater Eng, 2011(3): 11 (熊自柳, 蔡庆伍, 江海涛, 等. TRIP 钢中奥氏体的力学稳 定性研究. 材料工程, 2011(3): 11) [12] Wang Y M, Chen M W, Zhou F H, et al. High tensile ductility in a nanostructured metal. Nature, 2002, 419: 912 [13] Park K T, Lee Y k, Shin D H, et al. Fabrication of ultra- fine grained ferrite/martensite dual phase steel by severe plastic deformation. ISIJ Int, 2005, 45(5): 750 [14] Tian Z Q. The Research of Strengthening and Plasticity Mechanism and Annealing Processing of High Strength Dual Phase Steel [Dissertation]. Beijing: University of Science and Technology Beijing, 2009 (田志强. 高强度双相钢的退火工艺及强塑性机理研究 [学 位论文]. 北京: 北京科技大学, 2009) [15] Zhang Y G. Study on Heat Treatment and Stability of Retained Austenite of Hot Dip Galvanized TRIP-Aided Cold-Rolled Steel [Dissertation]. Beijing: University of Science and Technology Beijing, 2010 (张宇光. 冷轧热镀锌 TRIP 钢热处理工艺及其奥氏体稳 定性的研究 [学位论文]. 北京: 北京科技大学, 2010) [16] Kuang S, Kang Y L, Yu H, et al. Strain-hardening char￾acteristics of a cold rolled C-Si-Mn dual phase steel. J Mater Eng, 2009(2)：11 (邝霜, 康永林, 于浩, 等. C-Si-Mn 冷轧双相钢的应变硬化 特性. 材料工程, 2009(2): 11)