参考文献
[1] | Y L Kang.Theory and Technology of Processing and Forming for Advanced Automobile Steel Sheets[M].Metallurgical Industry Press,Beijing,2009 |
[2] | J P Chen;Y L Kang;Y M Hao;G M Liu,A M Xiong .[J].J Iron Steel Res Int,2009,16(06):33-40. |
[3] | J Z Zhao;A K De;B C Cooman .[J].Mater Lett,2000,44:374-378. |
[4] | J Z Zhao;A K De;B C Cooman .[J].ISIJ Int,2000,40:725-730. |
[5] | A K De;S Vandeputte;B C Cooman .[J].Scripta Mater,2001,44:695-700. |
[6] | Z Y Tang;H Ding;H Ding;M H Cai,L X Du .[J].J Iron Steel Res Int,2010,17(04):59-65. |
[7] | Z Y Tang;H Ding;H Ding;M H Cai,L X Du .[J].J Iron Steel Res Int,2010,17(07):68-74. |
[8] | H Wang;W Shi;Y L He;R Y Fu,L Li .[J].Acta Metall Sin,2011,47:263-268. |
[9] | H Wang;W Shi;Y L He;X G Lu,L Li .[J].J Iron Steel Res Int,2012,19(01):53-59. |
[10] | B. Soenen;A. K. De;S. Vandeputte .Competition between grain boundary segregation and Cottrell atmosphere formation during static strain aging in ultra low carbon bake hardening steels[J].Acta materialia,2004(12):3483-3492. |
[11] | V. BALLARIN;M. SOLER;A. PERLADE .Mechanisms and Modeling of Bake-Hardening Steels: Part I. Uniaxial Tension[J].Metallurgical and Materials Transactions. A, physical metallurgy and materials science,2009(6):1367-1374. |
[12] | H Alihosseini;K Dehghani .[J].Mater Sci Eng A,2012,549:157-162. |
[13] | K. Dehghani;A. Shafiei .Predicting the bake hardenability of steels using neural network modeling[J].Materials Letters,2008(2):173-178. |
[14] | J Wang;J Li;X F Wang;J J Tian,C H Zhang,S G Zhang .[J].J Iron Steel Res Int,2010,17(11):54-61. |
[15] | J Wang;J Li;X C Mi;S G Zhang,A A Volinsky .[J].Metals Mater Int,2012,18:531-535. |
[16] | A K De;K Blauwe;S Vandeputte;B C Cooman .[J].J Alloy Compd,2000,310:405-410. |
[17] | L.J. Baker;J.D. Parker;S.R. Daniel .Mechanism of bake hardening in ultralow carbon steel containing niobium and titanium additions[J].Materials Science and Technology: MST: A publication of the Institute of Metals,2002(5):541-547. |
[18] | S. Berbenni;V. Favier;X. Lemoine;M. Berveiller .A micromechanical approach to model the bake hardening effect for low carbon steels[J].Scripta materialia,2004(4):303-308. |
[19] | E. Kozeschnik .A contribution to the increase in yield strength during the bake hardening process[J].Steel Research,1997(5):224-230. |
[20] | O Yoshihiko;O Kaneharu;F Yoshimasa;S Kazuhiro .[J].Mater Sci Forum,2012,706:2222-2227. |
[21] | Q L Yong.Secondary Phase in Steel Material[M].Metallurgical Industry Press,Beijing,2006 |
[22] | A H Cottrell;B A Bilby .[J].Proc Phys Soc A,1949,62:49-62. |
[23] | Z C Liu.Microstructure Structure and Transformation Theory of Material[M].Metallurgical Industry Press,Beijing,2006 |
[24] | Z Q Cui.Metal Science and Heat Treatment[M].Metallurgical Industry Press,Beijing,2007 |
[25] | E Christine;B Volker;H Llse.Automotive Micro-niobium Alloyed Steel[M].Metallurgical Industry Press,Beijing,2007 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%