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Journal of Iron and Steel Research International

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17-03-2022 | Original Paper

Effect of Mg addition on TiN inclusions in GCr15 bearing steel

Authors: Lei Cao, Guo-cheng Wang, Yuan-you Xiao, Rong-guang Yang

Published in: Journal of Iron and Steel Research International | Issue 6/2022

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Abstract

Compared with the original GCr15 bearing steel, TiN inclusions are greatly reduced by the effect of Mg addition, and many different types of non-metallic Mg-containing inclusions were observed in Mg-treated GCr15 bearing steel which includes MgO, MgS·MnS, MgO–MgS·MnS, MgAl₂O₄–MgS·MnS, MgO–TiN, MgS·MnS–TiN, and MgO–MgS·MnS–TiN. The inclusion size distribution based on automatic inclusion analysis software shows that the number of inclusion with the size ranging from 1 to 3 μm increases obviously because a large amount of MgO, MgS·MnS, TiN inclusions containing Mg with smaller sizes are massively generated. In situ observation on the experimental steel by high-temperature confocal laser scanning microscopy confirms that MgO can provide nucleation sites for TiN. In addition, the MgS·MnS and MgO–MgS·MnS inclusions can also provide positions for the nucleation of TiN. Thermodynamic calculations indicate that after Mg addition to liquid steel, a large number of fine MgO inclusions are generated in the liquid steel because of the strong reactivity of Mg and O. At the same time, MgS precedes TiN precipitates in the solid–liquid two-phase region; thus, MgO and MgS·MnS can provide sites for TiN nucleation. At last, two possible formation pathways for the above various TiN inclusions containing Mg are discussed.

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[1]

K. Hashimoto, T. Fujimatsu, N. Tsunekage, K. Hiraoka, K. Kida, E.C. Santos, Mater. Des. 32 (2011) 1605–1611.CrossRef

[2]

T. Liu, M.J. Long, D.F. Chen, H.M. Duan, L.T. Gui, S. Yu, J.S. Cao, H.B. Chen, H.L. Fan, J. Iron Steel Res. Int. 25 (2018) 1043–1053.CrossRef

[3]

T. Sakai, N. Oguma, A. Morikawa, Fatigue Fract. Eng. Mater. Struct. 38 (2015) 1305–1314.CrossRef

[4]

A. Melander, P. Olund, Mater. Sci. Technol. 15 (1999) 555–562.CrossRef

[5]

Q. Chen, E. Shao, D. Zhao, J. Guo, Z. Fan, Wear 147 (1991) 285–294.CrossRef

[6]

T. Uesugi, Tetsu-to-Hagane 28 (1988) 893–899.

[7]

T. Uesugi, Trans. ISIJ 26 (1986) 614–620.CrossRef

[8]

J. Xie, D. Zhang, Q. Yang, J. An, Z. Huang, J. Fu, Ironmak. Steelmak. 46 (2019) 564–573.CrossRef

[9]

Z.H. Jiang, C. Wang, W. Gong, H.D. Wang, Ironmak. Steelmak. 42 (2016) 371–377.

[10]

T. Zhang, C. Liu, M. Jiang, Metall. Mater. Trans. B 47 (2016) 2253–2262.CrossRef

[11]

X. Zou, D. Zhao, J. Sun, C. Wang, H. Matsuura, Metall. Mater. Trans. B 49 (2018) 481–489.CrossRef

[12]

H. Lou, C. Wang, B. Wang, Z. Wang, R.D.K. Misra, ISIJ Int. 59 (2019) 312–318.CrossRef

[13]

W. Ma, Y. Bao, M. Wang, L. Zhao, ISIJ Int. 54 (2014) 536–542.CrossRef

[14]

C. Lin, Y. Pan, W. Hwang, Y. Fang, Y. Su, G. Lin, Y. Wu, Ironmak. Steelmak. 46 (2019) 176–183.CrossRef

[15]

H. Wang, J. Li, C.B. Shi, J. Li, Ironmak. Steelmak. 44 (2017) 128–133.CrossRef

[16]

H.S. Kim, C. Chang, H. Lee, Scripta Mater. 53 (2005) 1253–1258.CrossRef

[17]

L. Xu, J. Yang, R. Wang, Y. Wang, W. Wang, Metall. Mater. Trans. A 47 (2016) 3354–3364.CrossRef

[18]

F. Chai, C.F. Yang, H. Su, Y.Q. Zhang, Z. Xu, J. Iron Steel Res. Int. 16 (2009) No. 1, 69–74.CrossRef

[19]

Z. Wu, W. Zheng, G. Li, H. Matsuura, F. Tsukihashi, Metall. Mater. Trans. B 46 (2015) 1226–1241.CrossRef

[20]

X.B. Li, Y. Min, Z. Yu, C.J. Liu, M.F. Jiang, J. Iron Steel Res. Int. 23 (2016) 415–421.CrossRef

[21]

H.J Duan, Y. Zhang, Y. Ren, L.F. Zhang, J. Iron Steel Res. Int. 26 (2019) 962–972.CrossRef

[22]

Q. Tian, G.C. Wang, Y. Zhao, J. Li, Q. Wang, Metall. Mater. Trans. B 49 (2018) 1149–1164.CrossRef

[23]

H.Y. Liu, H.L. Wang, L. Li, J.Q. Zheng, Y.H. Li, X.Y. Zeng, Ironmak. Steelmak. 38 (2011) 53–58.CrossRef

[24]

W. Ma, Y. Bao, L. Zhao, M. Wang, Int. J. Miner. Metall. Mater. 21 (2014) 234–239.CrossRef

[25]

J. Li, W. Zhang, ISIJ Int. 29 (1989) 158–164.CrossRef

[26]

M. Lee, J.H. Park, Metall. Mater. Trans. B 49 (2018) 877–893.CrossRef

[27]

Y. Liu, L.F. Zhang, H.J. Duan, Metall. Mater. Trans. A 47 (2016) 3015–3025.CrossRef

[28]

P. Chen, C. Zhu, G. Li, Y. Dong, Z. Zhang, ISIJ Int. 57 (2017) 1019–1028.CrossRef

[29]

X.G. Huang, Iron and steel metallurgy principle, 4th ed., Metallurgical Industry Press, Beijing, China, 2016.

[30]

J. Yang, K. Okumura, M. Kuwabara, M. Sano, ISIJ Int. 42 (2002) 685–693.CrossRef

[31]

J.H. Park, S.B. Lee, H.R. Gaye, Metall. Mater. Trans. B 39 (2008) 853–861.CrossRef

[32]

A. Costa e Silva, Calphad 68 (2020) 101720.

[33]

L. Yang, G. Cheng, S. Li, M. Zhao, G. Feng, ISIJ Int. 55 (2015) 1693–1698.CrossRef

[34]

S. Luo, B.Y. Wang, Z.H. Wang, D.B. Jiang, W. Wang, M.Y. Zhu, ISIJ Int. 57 (2017) 2000–2009.CrossRef

[35]

D. Chen, X.L. Ma, Y.M. Wang, L. Chen, Phys. Rev. B 69 (2004) 155401–155406.CrossRef

[36]

C.C. Jiang, T. Goto, T. Hirai, J. Alloy. Compd. 190 (1993) 197–200.CrossRef

[37]

R. Zhang, C. Kim, B. Delley, C. Stampfl, A. Soon, Phys. Chem. Chem. Phys. 14 (2012) 2462–2467.CrossRef

[38]

L. Hultman, J.E. Sundgren, J. Mater. Res. 4 (1989) 1266–1271.CrossRef

[39]

F. Magnus, A.S. Ingason, S. Olafsson, J.T. Gudmundsson, Thin Solid Films 519 (2011) 5861–5867.CrossRef

[40]

J. Fu, Y. Yu, A. Wang, B. Chen, J. Mater. Sci. Technol. 14 (1998) 53–56.CrossRef

[41]

B.L. Bramfitt, Metall. Trans. 1 (1970) 1987–1995.CrossRef

[42]

J. Yang, T. Yamasaki, M. Kuwabara, ISIJ Int. 47 (2007) 699–708.CrossRef

[43]

H. Ohta, H. Suito, ISIJ Int. 46 (2006) 480–489.CrossRef

Title: Effect of Mg addition on TiN inclusions in GCr15 bearing steel
Authors: Lei Cao
Guo-cheng Wang
Yuan-you Xiao
Rong-guang Yang
Publication date: 17-03-2022
Publisher: Springer Nature Singapore
Published in: Journal of Iron and Steel Research International / Issue 6/2022
Print ISSN: 1006-706X
Electronic ISSN: 2210-3988
DOI: https://doi.org/10.1007/s42243-022-00760-0

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Effect of Mg addition on TiN inclusions in GCr15 bearing steel

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