参考文献:1. W.N. Roberts, Trans. Metall. Soc. AIME 230, 372 (1964) 2. Y.N. Dastur, W.C. Leslie, Metall. Trans. 12A, 749 (1981) CrossRef 3. A.K. Srivastava, K. Das, J. Mater. Sci. 43, 5654 (2008) CrossRef 4. J.P. Xie, W.Y. Wang, J.W. Li, A.Q. Wang, Y.R. Zhao, L.L. Li, / Wear-resistant austenitic manganese steel (Science Press, Beijing, 2008), pp. 147-50 (in Chinese) 5. F. Yang, Z.M. Ding, Locomot. Rolling Stock Technol. 06, 6 (2006) 6. R.W. Smith, A. DeMonte, W.B.F. Mackay, J. Mater. Process. Technol. 153, 589 (2004) CrossRef 7. S.S. Li, X.J. Chen, Min. Process. Equip. 03, 70 (1998) 8. P.F. Zhao, X.H. Guo, K.X. Song, Dev. Appl. Mater. 239, 85 (2008) 9. N. Jost, I. Schmidt, Wear 111, 377 (1986) CrossRef 10. Y.H. Wen, W.H. Zhang, H.T. Si, R.L. Xiong, H.B. Peng, Acta Metall. Sin. 48, 1153 (2012) (in Chinese) 11. Z.W. Lai, J.L. Wu, Y.H. Wen, N. Li, Z.C. Wang, Tribology 29, 128 (2009) 12. M.M. Atabaki, S. Jafari, H. Abdollah-pour, J. Iron Steel Res. Int. 19, 43 (2012) CrossRef 13. Y.P. Ma, X.L. Li, C.H. Wang, L. Lu, J. Iron Steel Res. Int. 19, 60 (2012) CrossRef 14. M. Abbasi, S. Kheirandish, Y. Kharrazi, J. Hejazi, Wear 268, 202 (2010) CrossRef 15. W.L. Yan, L. Fang, Z.G. Zheng, K. Sun, Y.H. Xu, Tribol. Int. 42, 634 (2009) CrossRef 16. I. Mejía, A. Bedolla-Jacuinde, J.R. Pablo, Wear 301, 590 (2013) CrossRef 17. X.Y. Feng, F.C. Zhang, Z.N. Yang, M. Zhang, Wear 305, 299 (2013) CrossRef 18. W.H. Zhang, J.L. Wu, Y.H. Wen, J.J. Ye, N. Li, J. Mater. Sci. 45, 3433 (2010) CrossRef 19. N. Bergeon, G. Guenin, C. Esnouf, Mater. Sci. Eng. A 242, 77 (1998) CrossRef 20. P.J. Brofman, G.S. Ansell, Metall. Trans. A 9, 879 (1978) CrossRef 21. X. Tian, Mater. Sci. Prog. 3, 215 (1993) 22. G.Q. Chen, Y.H. Wei, S. Li, W.L. Zhou, Univ. J. Wuhan Technol. Mater. Sci. Ed. 27, 222 (2012) CrossRef 23. J.M. Li, / Wear Metallography (Metallurgical Industry Press, Beijing, 1984), pp. 207-15 (in Chinese) 24. K.L. Hsu, T.M. Ahn, D.A. Rigney, Wear 60, 13 (1979) CrossRef
作者单位:Haitao Si (1) Renlong Xiong (1) Fan Song (1) Yuhua Wen (1) Huabei Peng (1)
1. School of Manufacturing Science and Engineering, Sichuan University, Chengdu, 610065, China
ISSN:2194-1289
文摘
To solve the problem of poor wear resistance in conventional Hadfield steels under medium and low stress, a new kind of steel with high silicon and high manganese Fe-7Mn-Si-.3C was designed and its wear resistance was studied. The results showed that it exhibited better wear resistance than conventional Hadfield steel in both dry friction and abrasive friction. The better wear resistance of the new steel with high silicon and high manganese resulted from the stress-induced γ?→?em class="a-plus-plus">ε martensitic transformation.