第11期 霍向东等：卷取温度对Ti微合金化高强钢力学性能的影响机理 ·1477· [2]Yi H L,Du L X,Wang G D,et al.Development of a [8]Taylor K A.Solubility products for titanium-,vanadium-, hot-rolled low carbon steel with high yield strength.ISIJ and niobium-carbide in ferrite.Scripta Metall Mater mt,2006,46(5:754 1995,32(1):7 [3]Lou YZ,Liu D L,Mao X P,et al.Titanium carbonitrides [9]Kestenbach H J,Gallego J.On dispersion hardening of in Ti-microalloyed steels produced by CSP process.Iron microalloyed hot strip steels by carbonitride precipitation Steel,.2010,45(2):70 in austenite.Scripta Mater,2001,44(5):791 (娄艳芝，柳得橹，毛新平，等.CSP工艺钛微合金钢中的 [10]Charleux M,Poole W J,Militzer M,et al.Precipita- 碳氮化钛析出相.钢铁，2010,45(2)：70) tion behavior and its effect on strengthening of an HSLA- [4]Mao X P,Huo X D,Sun X J,et al.Study on the Ti Nb/Ti steel.Metall Mater Trans A,2001,32(7):1635 micro-alloyed ultra-high strength steel produced by thin [11]Kestenbach H J,Campos SS,Gallego J,et al.Discussion slab casting and direct rolling.J fron Steel Res Int,2009, of "precipitation behavior and its effect on strengthening 16(Suppl1):354 of an HSLA-Nb/Ti steel".Metall Mater Trans A,2003, [5]Mao X P,Huo X D,Sun X J,et al.Strengthening mech- 34(4):1013 anisms of a new 700MPa hot rolled Ti-microalloyed steel produced by compact strip production.J Mater Process [12]Chen C Y,Yen H W,Kao F H,et al.Precipitation hard- ening of high-strength low-alloy steels by nanometer-sized Technol,2010,210(12):1660 carbides.Mater Sci Eng A,2009,499(1):162 [6]Huo X D,Mao X P,Lii S X,et al.Nanocarbides in Ti- microalloyed high strength steel produced by CSP process. [13 Wang T P,Kao F H,Wang S H,et al.Isothermal J Univ Sci Technol Beijing,2011,33(8):941 treatment influence on nanometer-size carbide precipita- (霍向东，毛新平，吕盛夏，等.CSP生产Ti微合金化高强 tion of titanium-bearing low carbon steel.Mater Lett, 钢中纳米碳化物.北京科技大学学报，2011,33(8)：941) 2011,65(2):396 [7]Lou Y Z,Li C Z,Liu D L,et al.TEM observation of [14]Gladman T,Dulieu D,Mcivor I D.Structure-property re- TiC precipitates nucleated on Ti2CS and determination lationships in high-strength microalloyed steels//Pro- of orientation relationships.J Univ Sci Technol Beijing, ceedings of Symposium on Microalloying 75.New York, 2010,32(4):438) 1976:32 (娄艳芝，李春志，柳得橹，等.TiC在Ti2CS上形核生长的 [15 Seto K,Funakawa Y,Kaneko S.Hot rolled high strength 电镜观察及其取向关系的测定.北京科技大学学报，2010， steels for suspension and chassis parts "NANOHITEN" 32(4):438) and“BHT®Steel".JFE Tech Rep,2007(10:19第 11 期 霍向东等：卷取温度对 Ti 微合金化高强钢力学性能的影响机理 1477 ·· [2] Yi H L, Du L X, Wang G D, et al. Development of a hot-rolled low carbon steel with high yield strength. ISIJ Int, 2006, 46(5): 754 [3] Lou Y Z, Liu D L, Mao X P, et al. Titanium carbonitrides in Ti-microalloyed steels produced by CSP process. Iron Steel, 2010, 45(2): 70 (娄艳芝, 柳得橹, 毛新平, 等. CSP 工艺钛微合金钢中的 碳氮化钛析出相. 钢铁，2010，45(2)：70) [4] Mao X P, Huo X D, Sun X J, et al. Study on the Ti micro-alloyed ultra-high strength steel produced by thin slab casting and direct rolling. J Iron Steel Res Int, 2009, 16(Suppl 1): 354 [5] Mao X P, Huo X D, Sun X J, et al. Strengthening mech￾anisms of a new 700MPa hot rolled Ti-microalloyed steel produced by compact strip production. J Mater Process Technol, 2010, 210(12): 1660 [6] Huo X D, Mao X P, L¨u S X, et al. Nanocarbides in Ti￾microalloyed high strength steel produced by CSP process. J Univ Sci Technol Beijing, 2011, 33(8): 941 (霍向东, 毛新平, 吕盛夏, 等.CSP 生产 Ti 微合金化高强 钢中纳米碳化物. 北京科技大学学报，2011,33(8)：941) [7] Lou Y Z, Li C Z, Liu D L, et al. TEM observation of TiC precipitates nucleated on Ti2CS and determination of orientation relationships. J Univ Sci Technol Beijing, 2010, 32(4):438) (娄艳芝，李春志，柳得橹, 等. TiC 在 Ti2CS 上形核生长的 电镜观察及其取向关系的测定. 北京科技大学学报，2010, 32(4): 438) [8] Taylor K A. Solubility products for titanium-, vanadium-, and niobium-carbide in ferrite. Scripta Metall Mater, 1995, 32(1): 7 [9] Kestenbach H J, Gallego J. On dispersion hardening of microalloyed hot strip steels by carbonitride precipitation in austenite. Scripta Mater, 2001, 44(5): 791 [10] Charleux M, Poole W J, Militzer M, et al. Precipita￾tion behavior and its effect on strengthening of an HSLA￾Nb/Ti steel. Metall Mater Trans A, 2001, 32(7): 1635 [11] Kestenbach H J, Campos S S, Gallego J, et al. Discussion of “precipitation behavior and its effect on strengthening of an HSLA-Nb/Ti steel”. Metall Mater Trans A, 2003, 34(4): 1013 [12] Chen C Y, Yen H W, Kao F H, et al. Precipitation hard￾ening of high-strength low-alloy steels by nanometer-sized carbides. Mater Sci Eng A, 2009, 499(1): 162 [13] Wang T P, Kao F H, Wang S H , et al. Isothermal treatment influence on nanometer-size carbide precipita￾tion of titanium-bearing low carbon steel. Mater Lett, 2011, 65(2): 396 [14] Gladman T, Dulieu D, Mcivor I D. Structure-property re￾lationships in high-strength microalloyed steels // Pro￾ceedings of Symposium on Microalloying 75. New York, 1976: 32 [15] Seto K, Funakawa Y, Kaneko S. Hot rolled high strength steels for suspension and chassis parts “NANOHITEN” and “BHT°R Steel”. JFE Tech Rep, 2007(10): 19