·110· 工程科学学报，第41卷，第1期 2011 perature.Heat Treat Met,2015,40(1):27 (张驰.超纯21%C:铁素体不锈钢热轧粘辊机理及组织织构 (王海燕，毛卫民，谭啸，等.不同终冷温度下管线钢热轧板 控制[学位论文].沈阳：东北大学，2011) 的组织与织构演变.金属热处理，2015,40(1)：27) [3]Yu F Y.The Study on Microstructures and Textures of Ferritic Hot- [9]Wang X Y,Hua Y X,Xiang L,et al.Effect of V and Ti content Rolled High Strength IF Steels Dissertation ]Dalian:Dalian on texture of grain oriented silicon steel hot-rolled plates.Hot Work University of Technology,2006 Technol,2015,44(5):1 (于凤云.铁素体区热轧高强F钢微观组织及织构的研究[学 (王新宇，花艳侠，项利，等.钒钛含量对取向硅钢热轧板织 位论文].大连：大连理工大学，2006) 构的影响.热加工工艺，2015,44(5)：1) [4]Lii Q G,Li C M,Ni A J,et al.Evolvement of non-1111 tex- [10]Sun Q,LiZC,MiZL,et al.Effect of chemical composition on tures along processing steps of micro-carbon deep drawing steel reerystallized microstructure and texture of hot rolled non-oriented sheet.Mater Heat Treat,2009,38(18):37 electrical steel.Trans Mater Heat Treat,2016,37(4):82 (吕庆功，李成明，倪爱娟，等.形变参量和形变温度对微碳 (孙强，李志超，米振莉，等.化学成分对无取向硅钢热轧组 深冲钢板织构特征的影响.热加工工艺，2009,38(18)：37) 织及织构的影响.材料热处理学报，2016,37(4)：82) [5]Lu Q G,Li C M,Ni A J.Evolvement of non-111 textures in [11]Wang X Y.Research of Microstructure and Texture of Grain Orien- micro-earbon deep drawing steel sheet along processing steps.Ma- ted Silicon Steel with V and Ti Dissertation].Xi'an:Xi'an Uni ter Sci Technol,2010,18(1):31 versity of Architecture and Technology,2015 (吕庆功，李成明，倪爱娟.微碳深冲钢板中非111织构的 (王新宇.含钒钛取向硅钢的组织及织构研究[学位论文] 工序演变.材料科学与工艺，2010,18(1)：31) 西安：西安建筑科技大学，2015) [6]Chen W.Study on the Pipeline Hot-Rolled Textures and Anisotropy [12]JonasJJ,Wittridge N J.The role of in-plane dislocation reac [Dissertation].Kunming:Kunming University of Science and tions during the transformation of hot rolled austenite /Proceed- Technology Dissertation],2010 ings of the Twelfth International Conference on Textures of Materi- (陈文.管线钢的热轧织构与钢板各向异性的研究[学位论 als.Montreal,1999:1049 文].昆明：昆明理工大学，2010) [13]Jia M X.Study of Hot Rolling Process of a IF Steel on the Evolu- [7]Liu Y D,Yang Y Q,Bi H Y,et al.Effect of hot rolling tempera- tion of the Microstructure and Texture Dissertation ]Taian: ture on the texture evolution of 436 ferritic stainless steel.J fron Shandong Agricultural University,2014 Steel Res,2011,23(3):35 (贾明霞.热轧工艺对F钢组织和织构影响机制的研究[学 (刘沿东，杨一俏，毕洪运，等.热轧温度对436不锈钢热轧 位论文].泰安：山东农业大学，2014) 织构的彩响.钢铁研究学报，2011,23(3)：35) [14]Toth L S,Molinari A,Raabe D.Modeling of rolling texture de- [8]Wang H Y,Mao W M,Tan X,et al.Microstructure and texture velopment in a ferritic chromium steel.Metall Mater Trans A, evolution of hot rolled pipeline steel at different final cooling tem- 1997,28(11):2343工程科学学报,第 41 卷,第 1 期 2011 (张驰. 超纯 21% Cr 铁素体不锈钢热轧粘辊机理及组织织构 控制[学位论文]. 沈阳: 东北大学, 2011) [3] Yu F Y. The Study on Microstructures and Textures of Ferritic Hot鄄 Rolled High Strength IF Steels [ Dissertation ]. Dalian: Dalian University of Technology, 2006 (于凤云. 铁素体区热轧高强 IF 钢微观组织及织构的研究[学 位论文]. 大连: 大连理工大学, 2006) [4] L俟 Q G, Li C M, Ni A J, et al. Evolvement of non鄄{111} tex鄄 tures along processing steps of micro鄄carbon deep drawing steel sheet. Mater Heat Treat, 2009, 38(18): 37 (吕庆功, 李成明, 倪爱娟, 等. 形变参量和形变温度对微碳 深冲钢板织构特征的影响. 热加工工艺, 2009, 38(18): 37) [5] L俟 Q G, Li C M, Ni A J. Evolvement of non鄄{111} textures in micro鄄carbon deep drawing steel sheet along processing steps. Ma鄄 ter Sci Technol, 2010, 18(1): 31 (吕庆功, 李成明, 倪爱娟. 微碳深冲钢板中非{111}织构的 工序演变. 材料科学与工艺, 2010, 18(1): 31) [6] Chen W. Study on the Pipeline Hot鄄Rolled Textures and Anisotropy [Dissertation ]. Kunming: Kunming University of Science and Technology [Dissertation], 2010 (陈文. 管线钢的热轧织构与钢板各向异性的研究[学位论 文]. 昆明: 昆明理工大学, 2010) [7] Liu Y D, Yang Y Q, Bi H Y, et al. Effect of hot rolling tempera鄄 ture on the texture evolution of 436 ferritic stainless steel. J Iron Steel Res, 2011, 23(3): 35 (刘沿东, 杨一俏, 毕洪运, 等. 热轧温度对 436 不锈钢热轧 织构的影响. 钢铁研究学报, 2011, 23(3): 35) [8] Wang H Y, Mao W M, Tan X, et al. Microstructure and texture evolution of hot rolled pipeline steel at different final cooling tem鄄 perature. Heat Treat Met, 2015, 40(1): 27 (王海燕, 毛卫民, 谭啸, 等. 不同终冷温度下管线钢热轧板 的组织与织构演变. 金属热处理, 2015, 40(1): 27) [9] Wang X Y, Hua Y X, Xiang L, et al. Effect of V and Ti content on texture of grain oriented silicon steel hot鄄rolled plates. Hot Work Technol, 2015, 44(5): 1 (王新宇, 花艳侠, 项利, 等. 钒钛含量对取向硅钢热轧板织 构的影响. 热加工工艺, 2015, 44(5): 1) [10] Sun Q, Li Z C, Mi Z L, et al. Effect of chemical composition on recrystallized microstructure and texture of hot rolled non鄄oriented electrical steel. Trans Mater Heat Treat, 2016, 37(4): 82 (孙强, 李志超, 米振莉, 等. 化学成分对无取向硅钢热轧组 织及织构的影响. 材料热处理学报, 2016, 37(4): 82) [11] Wang X Y. Research of Microstructure and Texture of Grain Orien鄄 ted Silicon Steel with V and Ti [Dissertation]. Xi蒺an: Xi蒺an Uni鄄 versity of Architecture and Technology, 2015 (王新宇. 含钒钛取向硅钢的组织及织构研究[学位论文]. 西安: 西安建筑科技大学, 2015) [12] Jonas J J, Wittridge N J. The role of in鄄plane dislocation reac鄄 tions during the transformation of hot rolled austenite / / Proceed鄄 ings of the Twelfth International Conference on Textures of Materi鄄 als. Montreal, 1999: 1049 [13] Jia M X. Study of Hot Rolling Process of a IF Steel on the Evolu鄄 tion of the Microstructure and Texture [ Dissertation ]. Taian: Shandong Agricultural University, 2014 (贾明霞. 热轧工艺对 IF 钢组织和织构影响机制的研究[学 位论文]. 泰安: 山东农业大学, 2014) [14] T佼th L S, Molinari A, Raabe D. Modeling of rolling texture de鄄 velopment in a ferritic chromium steel. Metall Mater Trans A, 1997, 28(11): 2343 ·110·