Mechanisms of inclusion-induced pitting of stainless steels: A review

doi:10.1016/j.jmst.2023.06.008

Abstract

Abstract: Pitting is a common type of localized corrosion in passive alloys that can cause rapid failure of material or equipment. In the case of stainless steels, non-metallic inclusions have been identified as the most susceptible sites for pitting, and have therefore garnered significant attention. This review critically examines the issue of how inclusions induce pitting, with a particular focus on three mechanisms: spontaneous dissolution of inclusions, active dissolution of Cr-depleted regions, and propagation of microcracks at the inclusion-matrix interface. While researchers have made significant strides in understanding these mechanisms over the past few decades, many gaps and controversies remain. Details such as the initial driving force of inclusion dissolution and factors affecting Cr-depleted regions require further study. Moreover, some old concepts and methods need to be revised to arrive at more credible conclusions. This review aims to delve deeply into these important issues and provide inspiration for future research.

Key words: Pitting, Inclusion, Stainless steel, Localized corrosion, MnS

Yangting Sun, Xin Tan, Rulei Lan, Guoyong Ran, Jin Li, Yiming Jiang. Mechanisms of inclusion-induced pitting of stainless steels: A review[J]. J. Mater. Sci. Technol., 2023, 168: 143-156.

References

[1] Z. Zhang, H. Jing, L. Xu, Y. Han, L. Zhao, J. Zhang, Appl. Surf. Sci. 394(2017) 297-314.
[2] M. Zhu, B. Zhao, Y. Yuan, S. Yin, S. Guo, Corros. Commun. 3(2021) 45-61.
[3] B. Shang, L. Lei, X. Wang, P. He, X. Yuan, W. Dai, J. Li, Y. Jiang, Y. Sun, Corros. Commun. 8(2022) 27-39.
[4] T. Zhao, K. Liu, Q. Li, H. Luo, Corros. Sci. 181(2021) 109242.
[5] J. Nie, L. Wei, D. Li, L. Zhao, Y. Jiang, Q. Li, Addit. Manuf. 35(2020) 101295.
[6] X. Wang, P. He, Q. Zhou, Q. Kong, C. Zheng, Y. Sun, J. Li, L. Jiang, Y. Jiang, J. Mater. Res.Technol. 24(2023) 303-317.
[7] G.S. Frankel, N. Sridhar, Mater. Today 11 (2008) 38-44.
[8] R.C. Newman, Corrosion 57 (2001) 1030-1041.
[9] Y. Zhang, X. Zhang, S. Chen, J. Liu, T. Li, L. Wang, K. Wu, Corros. Commun. 9(2023) 77-88.
[10] Z. Zhang, H. Jing, L. Xu, Y. Han, L. Zhao, X. Lv, Corros. Sci. 141(2018) 30-45.
[11] S. Amatsuka, M. Nishimoto, I. Muto, M. Kawamori, Y. Takara, Y. Sugawara, npj Mater.Degrad. 7(2023) 1-10.
[12] K. Park, H. Kwon, Electrochim. Acta 55 (2010) 3421-3427.
[13] R. Takayama, M. Nishimoto, I. Muto, Y. Sugawara, J. Electrochem. Soc. 169(2022) 111501.
[14] T. Suter, H. Bohni, Electrochim. Acta 47 (2001) 191-199.
[15] A. Chiba, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 160(2013) C511-C520.
[16] Ooi, Y. Ise, E. Tada, A. Nishikata, Mater.Trans. 62(2021) 412-419.
[17] P. He, X. Wang, K. Zheng, Y. Jiang, J. Li, Y. Sun, Corros. Sci. 219(2023) 111258.
[18] Y. Sun, X. Tan, L. Lei, J. Li, Y.-M. Jiang, Tungsten 3 (2021) 329-337.
[19] L. Lei, B. Shang, K. Zheng, X. Wang, X. Tan, J. Li, Y. Jiang, Y. Sun, Corros. Sci. 199(2022) 110176.
[20] Y. Zhao, H. Xiong, X. Li, W. Qi, J. Wang, Y. Hua, T. Zhang, F. Wang, Corros. Commun. 2(2021) 55-62.
[21] W. Li, R. Cao, L. Xu, L. Qiao, Corros. Commun. 4(2021) 23-32.
[22] A. Rossi, B. Elsener, G. Hähner, M. Textor, N.D. Spencer, Surf. Interface Anal. 29(20 0 0) 460-467.
[23] M. Pisarek, P. K ˛ edzierzawski, M.Janik-Czachor, K.J. Kurzydłowski, J. Solid State Electrochem. 13(2009) 283-291.
[24] H. Bohni, T. Suter, A. Schreyer, Electrochim. Acta 40 (1995) 1361-1368.
[25] M. Nishimoto, I. Muto, Y. Sugawara, N. Hara, Corros. Sci. 180(2021) 109222.
[26] X. Tan, Y. Jiang, Y. Chen, A. Tong, J. Li, Y. Sun, Corros. Sci. 209(2022) 110692.
[27] J.H. Park, Y. Kang, Steel Res. Int. 88(2017) 1700130.
[28] Y.S. Lim, J.S. Kim, S.J. Ahn, H.S. Kvvon, Y. Katada, Corros. Sci. 43(2001) 53-68.
[29] S.-H. Jeon, S.-T. Kim, I.-S. Lee, Y.-S. Park, Corros. Sci. 52(2010) 3537-3547.
[30] Maier, G.S. Frankel, J. Electrochem.Soc. 157(2010) C302-C312.
[31] E.A. Ferreira, R.D. Noce, C.S. Fugivara, A.V. Benedetti, J. Electrochem. Soc. 158(2011) C95-C103.
[32] Wang, R. Ma, Y. Zhou, Y. Liu, E.F. Daniel, X. Li, P. Wang, J. Dong, W. Ke, J. Mater. Sci. Technol. 93(2021) 232-243.
[33] M. Kawamori, J. Kinugasa, Y. Fukuta, M. Shimamoto, T. Sugimura, Y. Katsuki, N. Nishizawa, M. Nagao, Mater. Trans. 62(2021) 1359-1367.
[34] M. Laleh, A.E. Hughes, W. Xu, P. Cizek, M.Y. Tan, Corros. Sci. 165(2020) 108412.
[35] W. Lv, C. Pan, W. Su, Z. Wang, S. Liu, C. Wang, J. Mater. Eng.Perform. 24(2015) 2597-2604.
[36] S. Tokuda, I. Muto, Y. Sugawara, N. Hara, Corros. Sci. 183(2021) 109312.
[37] M. Smialowski, Z. Szklarsk, M. Rychcik, A. Szummer, Corros. Sci. 9(1969) 123.
[38] Y. Wu, Q. Guo, W. Lv, F. Huang, J. Mater. Eng.Perform. 29(2020) 135-142.
[39] Y. Zhang, Q. Hu, M. Dai, F. Huang, F.Y. Cheng, J. Liu, Mater. Corros.-Werkst. Korros. 71(2020) 876-886.
[40] H.Y. Ha, C.J. Park, H.S. Kwon, Corros. Sci. 49(2007) 1266-1275.
[41] S. Zheng, C. Li, Y. Qi, L. Chen, C. Chen, Corros. Sci. 67(2013) 20-31.
[42] Y. Hou, C. Cheng, T. Cao, X. Min, J. Zhao, Int. J. Electrochem. Sci. 13(2018) 7095-7110.
[43] J. Liu, T. Zhang, G. Meng, Y. Shao, F. Wang, Corros. Sci. 91(2015) 232-244.
[44] V. Vignal, H. Krawiec, O. Heintz, R. Oltra, Electrochim. Acta 52 (2007) 4994-5001.
[45] Muto, S. Kurokawa, N. Hara, J. Electrochem. Soc. 156(2009) C395-C399.
[46] H. Krawiec, V. Vignal, O. Heintz, R. Oltra, E. Chauveau, Metall. Mater. Trans. Phys. Metall. Mater. Sci. 37(2006) 1541-1549.
[47] M. Nishimoto, I. Muto, Y. Sugawara, N. Hara, Corros. Sci. 176(2020) 109060.
[48] S. Asano, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 165(2018) C732-C742.
[49] Y.T. Tan, T.L.S.L. Wijesinghe, G.K.L.Ng, D.J. Blackwood, Corros. Sci. 53(2011) 3950-3955.
[50] M. Baker, J.E. Castle, Corros. Sci. 34(1993) 667-682.
[51] T. Suter, H. Böhni, Electrochim. Acta 42 (1997) 3275-3280.
[52] H. Böhni, T. Suter, F. Assi, Surf. Coat. Technol. 130(20 0 0) 80-86.
[53] C.H. Paik, H.S. White, R.C. Alkire, J. Electrochem. Soc. 147(20 0 0) 4120-4124.
[54] P. Manning, D. Duquette, W. Savage, Corrosion 36 (1980) 313-319.
[55] Kovalov, C.D. Taylor, H. Heinrich, R.G. Kelly, Corros.Sci. 199(2022) 110184.
[56] E.G. Webb, T. Suter, R.C. Alkire, J. Electrochem. Soc. 148(2001) B186-B195.
[57] E.G. Webb, R.C. Alkire, J. Electrochem. Soc. 149(2002) B272-B279.
[58] R. Ke, R. Alkire, J. Electrochem. Soc. 142(1995) 4056-4062.
[59] J. Zheng, X. Hu, C. Pan, S. Fu, P. Lin, K. Chou, Mater. Corros. 69(2018) 572-579.
[60] Q. Chao, V. Cruz, S. Thomas, N. Birbilis, P. Collins, A. Taylor, P.D. Hodgson, D. Fabijanic, Scr. Mater. 141(2017) 94-98.
[61] Z. Duan, C. Man, C. Dong, Z. Cui, D. Kong, L. Wang, X. Wang, Corros. Sci. 167(2020) 108520.
[62] Y. Hou, Y. Nakamori, K. Kadoi, H. Inoue, H. Baba, Corros. Sci. 201(2022) 110278.
[63] M.B. Leban, R. Tisu, Eng. Fail. Anal. 33(2013) 430-438.
[64] S.M. Gateman, L.I. Stephens, S.C. Perry, R. Lacasse, R. Schulz, J. Mauzeroll, npj Mater.Degrad. 2(2018) 5.
[65] S.J. Zheng, Y.J. Wang, B. Zhang, Y.L. Zhu, C. Liu, P. Hu, X.L. Ma, Acta Mater. 58(2010) 5070-5085.
[66] D. Li, F. Huang, X. Lei, Y. Jin, Corros. Sci. 211(2023) 110860.
[67] H. Krawiec, V. Vignal, O. Heintz, R. Oltra, Electrochim. Acta 51 (2006) 3235-3243.
[68] J.O. Park, S. Matsch, H. Böhni, J. Electrochem. Soc. 149(2002) B34-B39.
[69] H. Krawiec, V. Vignal, O. Heintz, R. Oltra, J.-M. Olive, J.Electrochem. Soc. 152(2005) B213-B219.
[70] M. Nishimoto, I. Muto, Y. Sugawara, N. Hara, ISIJ Int. 60(2020) 196-198.
[71] A. Chiba, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 159(2012) C341-C350.
[72] N. Ida, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 164(2017) C779-C787.
[73] M. Nishimoto, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 164(2017) C901-C910.
[74] C. Liu, R.I. Revilla, X. Li, Z. Jiang, S. Yang, Z. Cui, D. Zhang, H. Terryn, X. Li, J. Mater. Sci.Technol. 124(2022) 141-149.
[75] J. Jun, K. Holguin, G.S. Frankel, Corrosion 70 (2014) 146-155.
[76] P. Liu, Q.-H. Zhang, Y.Watanabe, T. Shoji, F.-H. Cao, npj Mater. Degrad. 6(2022) 81.
[77] A.L.V. da Costa e Silva, J.Mater. Res. Technol. 7(2018) 283-299.
[78] G.S. Frankel, J. Electrochem. Soc. 145(1998) 2186-2198.
[79] T. Suter, E.G. Webb, H. Böhni, R.C. Alkire, J. Electrochem. Soc. 148(2001) B174-B185.
[80] C. Duret-Thual, D. Costa, W.P. Yang, P. Marcus, Corros. Sci. 39(1997) 913-933.
[81] N. Shimahashi, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 161(2014) C494-C500.
[82] L. Wang, J. Xin, L. Cheng, K. Zhao, B. Sun, J. Li, X. Wang, Z. Cui, Corros. Sci. 147(2019) 108-127.
[83] Y.J. Wang, P. Hu, X.L. Ma, Phys. Chem. Chem. Phys. 15(2013) 17112-17117.
[84] M. Baker, Surf. Interface Anal. 20(1993) 535-543.
[85] B. Vuillemin, X. Philippe, R. Oltra, V. Vignal, L. Coudreuse, L.C. Dufour, E. Finot, Corros. Sci. 45(2003) 1143-1159.
[86] C. Man, C. Dong, K. Xiao, Q. Yu, X. Li, Corrosion 74 (2018) 312-325.
[87] H. Krawiec, V. Vignal, R. Oltra, Electrochem. Commun. 6(2004) 655-660.
[88] C. Liu, H. Yuan, X. Li, Z. Che, S. Yang, C. Du, Metals (Basel) 12(2022) 587.
[89] J. Park, M. Verhoff, R. Alkire, Electrochim. Acta 42 (1997) 3281-3291.
[90] D. Nakhaie, M. Zakeri, M. Naghizadeh, M.H. Moayed, J. Electrochem. Soc. 162(2015) C121-C127.
[91] St. Matsch, H. Bohni, Russ.J. Electrochem. 36(20 0 0) 1122-1128.
[92] J.O. Park, T. Suter, H. Bohni, Corrosion 59 (2003) 59-67.
[93] Y. Tsutsumi, A. Nishikata, T. Tsuru, Corros. Sci. 49(2007) 1394-1407.
[94] N. Shimahashi, I. Muto, Y. Sugawara, N. Hara, J. Electrochem. Soc. 160(2013) C262-C269.
[95] M.P. Ryan, D.E. Williams, R.J. Chater, B.M. Hutton, D.S. McPhail, Nature 415 (2002) 770-774.
[96] D.E. Williams, T.F. Mohiuddin, Y.Y. Zhu, J. Electrochem. Soc. 145(1998) 2664-2672.
[97] C. Pascal, V. Parry, E. Fedorova, M. Braccini, P. Chemelle, N. Meyer, D. Oquab, D. Monceau, Y. Wouters, M. Mantel, Corros. Sci. 93(2015) 100-108.
[98] S.-H. Jeon, S.-T. Kim, M.-S. Choi, J.-S. Kim, K.-T. Kim, Y.-S. Park, Corros. Sci. 75(2013) 367-375.
[99] G.S. Eklund, J. Electrochem. Soc. 121(1974) 467-473.
[100] Y. Zhang, Q. Hu, M. Dai, F. Huang, F.Y. Cheng, J. Liu, Mater. Corros. 71(2020) 876-886.
[101] S.J. Kim, S.G. Hong, M.-S. Oh, J.Mater. Res. 32(2017) 1343-1350.
[102] J. Stewart, D.E. Williams, Corros. Sci. 33(1992) 457-474.
[103] M. Pisarek, P. Kedzierzawski, M. Janik-Czachor, K.J. Kurzydiowski, Corrosion 64 (2008) 131-137.
[104] H. Kim, Y.-D. Lee, Corrosion 57 (2001) 547-556.
[105] D. Nakhaie, M.H. Moayed, Corros. Sci. 80(2014) 290-298.
[106] Y. Hou, J. Zhao, C.-Q. Cheng, L.Zhang, J. Li, B.-J. Liu, T.-S. Cao, J. Alloy. Compd. 830(2020) 154422.
[107] S. Tokuda, I. Muto, Y. Sugawara, N. Hara, Corros. Sci. 167(2020) 108506.
[108] W. Li, D. Li, Z. Yu, Y. Xie, F. Liu, Y. Jin, J. Electroanal. Chem. 882(2021) 114977.
[109] Q. Meng, G.S. Frankel, H.O. Colijn, S.H. Goss, Corrosion 60 (2004) 346-355.
[110] M.-F. Ng, D.J. Blackwood, H. Jin, T.L. Tan, J. Phys. Chem. C 125 (2021) 24189-24195.
[111] J. Castle, R. Ke, Corros. Sci. 30(1990) 409-428.
[112] A. Chiba, S. Shibukawa, I. Muto, T. Doi, K. Kawano, Y. Sugawara, N. Hara, J. Electrochem. Soc. 162 (2015) C270-C278.
[113] Y.T. Zhou, S.J. Zheng, B. Zhang, X.L. Ma, Corros. Sci. 111(2016) 414-421.
[114] B. Zhang, J. Wang, B. Wu, Y.T. Zhou, X.L. Ma, Corros. Sci. 100(2015) 295-305.
[115] I. Muto, Y. Izumiyama, N. Hara, J. Electrochem. Soc. 154 (2007) C439-C4 4 4.
[116] A. Chiba, I. Muto, Y. Sugawara, N. Hara, Mater. Trans. 55(2014) 857-860.
[117] A. Chiba, I. Muto, Y. Sugawara, N. Hara, Corros. Sci. 106(2016) 25-34.
[118] E.G. Webb, R.C. Alkire, J. Electrochem. Soc. 149(2002) B280-B285.
[119] N.J. Laycock, J. Stewart, R.C. Newman, Corros. Sci. 39(1997) 1791-1809.
[120] E.G. Webb, R.C. Alkire, J. Electrochem. Soc. 149(2002) B286-B295.
[121] T.E. Lister, P.J. Pinhero, Electrochim. Acta 48 (2003) 2371-2378.
[122] G. Riedel, C. Voigt, H. Werner, K. Erkel, M. Gunzel, Corros. Sci. 27(1987) 533-544.
[123] S.E. Lott, R.C. Alkire, J. Electrochem. Soc. 136(1989) 973-979.
[124] J.O. Park, H. Böhni, Electrochem. Solid-State Lett. 3(20 0 0) 416-417.
[125] J. Gao, Y. Jiang, B. Deng, Z. Ge, J. Li, Electrochim. Acta 55 (2010) 4 837-4 844.
[126] V. Scotto, G. Ventura, E. Traverso, Corros. Sci. 19(1979) 237-245.
[127] C. Ornek, C. Leygraf, J. Pan, Corros. Eng. Sci. Technol. 54(2019) 185-198.
[128] C. Liu, X. Li, R.I. Revilla, T. Sun, J. Zhao, D. Zhang, S. Yang, Z. Liu, X. Cheng, H. Terryn, X. Li, Corros. Sci. 179(2021) 109150.
[129] G. Li, L. Wang, H. Wu, C. Liu, X. Wang, Z. Cui, Corros. Sci. 174(2020) 108815.
[130] C. Liu, R.I. Revilla, D. Zhang, Z. Liu, A. Lutz, F. Zhang, T. Zhao, H. Ma, X. Li, H. Terryn, Corros. Sci. 138(2018) 96-104.
[131] R. Yuan, Y. Gu, H. Wu, Mater. Corros.-Werkst. Korros. 72(2021) 1774-1786.
[132] W. Xue, Z. Li, K. Xiao, W. Yu, J. Song, J. Chen, C. Dong, X. Li, Corros. Sci. 163(2020) 108232.
[133] H. Chen, L. Lu, Y. Huang, X. Li, J. Mater. Res.Technol. 13(2021) 13-24.
[134] D. Guo, C.T. Kwok, S.L.I.Chan, Surf. Coat. Technol. 350(2018) 936-948.
[135] P. Schmuki, H. Hildebrand, A. Friedrich, S. Virtanen, Corros. Sci. 47(2005) 1239-1250.
[136] M.J.K.Lodhi, A.D. Iams, E. Sikora, T.A. Palmer, Corros. Sci. 203(2022) 110354.
[137] R.B. Soares, L.F.P.Dick, S.M. Manhabosco, A.P.D.Santos, W.R.D.C. Campos, J.D. Ardisson, V.D.F.C. Lins, Mater. Res. 23(2020) e20190280.
[138] W.K. Chan, C.T. Kwok, K.H. Lo, Mater. Chem. Phys. 207(2018) 451-464.