梁江涛等：1300MPa级Nb微合金化DH钢的组织性能 ·399 北京科技大学学报，2013,35(5)：592) 50(10):1153) [22]Nouri A,Saghafian H,Kheirandish S.Effects of silicon content [24]Seyedrezai H,Pilkey A K,Boyd J D.Effect of pre-IC annealing and intercritical annealing on manganese partitioning in dual phase treatments on the final microstructure and work hardening steels.J Iron Steel Res Int,2010,17(5):44 behavior of a dual-phase steel.Mater Sci Eng A,2014,594:178 [23]Zhao ZZ,Tong TT,Zhao A M,et al.Microstructure,mechanical [25]Schemmann L,Zaefferer S,Raabe D,et al.Alloying effects on properties and work hardening behavior of 1300 MPa grade microstructure formation of dual phase steels.Acta Mater,2015, 0.14C-2.72Mn-1.3Si steel.Acta Metall Sin,2014,50(10):1153 95:386 (赵征志，佟婷婷，赵爱民，等.1300MPa级0.14C-2.72Mn-1.3Si [26]Sodjit S,Uthaisangsuk V.Microstructure based prediction of strain 钢的显微组织和力学性能及加工硬化行为，金属学报，2014， hardening behavior of dual phase steels.Mater Des,2012,41:370北京科技大学学报, 2013, 35（5）：592） Nouri A, Saghafian H, Kheirandish S. Effects of silicon content and intercritical annealing on manganese partitioning in dual phase steels. J Iron Steel Res Int, 2010, 17（5）: 44 [22] Zhao Z Z, Tong T T, Zhao A M, et al. Microstructure, mechanical properties and work hardening behavior of 1300 MPa grade 0.14C–2.72Mn–1.3Si steel. Acta Metall Sin, 2014, 50（10）: 1153 （赵征志, 佟婷婷, 赵爱民, 等. 1300 MPa级0.14C–2.72Mn–1.3Si 钢的显微组织和力学性能及加工硬化行为. 金属学报, 2014, [23] 50（10）：1153） Seyedrezai H, Pilkey A K, Boyd J D. Effect of pre-IC annealing treatments on the final microstructure and work hardening behavior of a dual-phase steel. Mater Sci Eng A, 2014, 594: 178 [24] Schemmann L, Zaefferer S, Raabe D, et al. Alloying effects on microstructure formation of dual phase steels. Acta Mater, 2015, 95: 386 [25] Sodjit S, Uthaisangsuk V. Microstructure based prediction of strain hardening behavior of dual phase steels. Mater Des, 2012, 41: 370 [26] 梁江涛等： 1300 MPa 级 Nb 微合金化 DH 钢的组织性能 · 399 ·