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Home > Archive>Volume 51, Issue 9, 2022 >3524-3532. DOI:10.12442/j.issn.1002-185X.20210658
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Research progress of PVD high-entropy alloy coatings for Accident Tolerance Fuel
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1.Northwest Institute for Nonferrous Metal Research,Xi’an;2.Nuclear Power Institute of China,Chengdu

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    Abstract:

    The high entropy alloy metal coatings can be considered as the accident tolerance fuel (ATF) technologies due to their higher surface hardness, better corrosion resistance, especially superior radiation resistance. Physical vapor deposition (PVD) is an ideal technology for preparing high entropy alloy coatings on fuel assembly surface. The coatings synthesized by PVD have compact structure and high interfacial bonding strength without damaging the mechanical properties of substrate. This paper is an overview of PVD high entropy alloy coatings for ATF in recent years. The performance and potential problems of the existing PVD high entropy alloy coatings system are analyzed from the aspects of fuel assemblies’ service condition, coating’s composition design, performance analysis and failure mechanism. It is put forward that the research of PVD high entropy alloy coating for ATF should be carried out from the degradation mechanism analysis of coating under accident condition, structural component design and engineering PVD process technology, so as to obtain a high entropy alloy coating suit for ATF.

    Reference
    [1] K.A. Terrani , Journal of Nuclear Materials [J], 501 (2018) 13-30
    [2] B.A. Pint, K.A. Terrani, M.P. Brady,et al, Journal of Nuclear Materials [J], 440 (2013) 420–427
    [3] S.J. Zinkle, K.A. Terrani, J.C. Gehin, et al, Journal of Nuclear Materials [J], 448 (2014) 374–379.
    [4] B.S. Shannon, Nuclear News [J], 57(2014) 83–91.
    [5] Z. Tao, P. Wang, C. Wang et al. Journal of Alloys and Compounds [J], 859 (2021) 157805
    [6] D.H. Kam, J.H. Lee, T. Lee, et al. Annals of Nuclear Energy [J], 76 (2015) 335-342.
    [7] J. Bischoff, C. Delafoy, C. Vauglin, et al. Nuclear Engineering and Technology [J], 50 (2018) 223-228
    [8] H.G. Kim, J.H. Yang, W.J. Kim, et al. Nuclear Engineering and Technology [J], 48 (2016) 1-15.
    [9] H.-G. Kim, I.-H.Kim, Y.-I.Jung, et al, Journal of Nuclear Materials [J], 465 (2015)531-539.
    [10] C. Tang, M. Stueber, H.J. Seifert, et al. Corrosion Reviews [J], 35 (3) (2017):141-165.
    [11] X. Han, J. Xue, Sh. Peng, et al. Corrosion Science [J], 156 (2019) 117–124
    [12] L X He, Ch H Liu, J H, Lin, et al. Journal of Nuclear Materials [J], 551(2021)152966
    [13] I H Kim, Y I Jung, H G Kim,et al. Surface and Coating Technology [J], 411(2021)125915
    [14] E. Alat, A.T. Motta, R.J. Comstock, et al. Surface and Coating Technology [J], 281 (2015) 133–143.
    [15] E. Alat, A.T. Motta, R.J. Comstock, et al. Journal of Nuclear Materials [J], 478 (2016)236-244.
    [16] C. Meng, L. Yang, Y. Wu, et al. Journal of Nuclear Materials [J], 515 (2019) 354–369.
    [17] Y. Wang, W. Zhou, Q. Wen, et al. Surface Coatings Technology [J], 344 (2018) 141–148
    [18] E.B. Kashkarov, D.V. Sidelev, M.S.Syrtanov, et al.. Corrosion Science [J], 175 (2020) 108883
    [19] J. Jiang, D. Zhan, J. Lv, et al. Surface Coatings Technology [J], 409 (2021) 126812
    [20] L. Wang, J. Qiao, S. Ma, et al. Materials Science and Engnieering: A [J], 727 (2018) 208–213.
    [21] W. Zhang, R. Tang, Z.B. Yang, et al. Surface Coatings Technology [J]: 347 (2018) 13–19.
    [22] R.K. Duchaniya, U. Pandel, P. Rao. Materials Today [J], 44(2021): 4467-4473
    [23] F. Granberg, K. Nordlund, M.W. Ullah, et al. Physical Review Letters [J], 116 (2016) 135504
    [24] C. Lu, L. Niu, N. Chen, et al. Nature Communications [J], 7 (2016) 13564,
    [25] M.W. Ullah, D.S. Aidhy, Y. Zhang, et al. Acta Materialia [J], 109(2016): 17-22
    [26] L. Chen, Y. Wang, X. hao, et al., Vacuum [J], 183 (2021) 109823
    [27] K. Cheng, J. Chen, S. stadler, et al. Applied Surface Science [J], 478 (2019): 478-486.
    [28] X. Zeng, Z. Liu, G. Wu, et al. Surface Coatings Technology [J], 418(25) (2021) 127243;
    [29] M. Ma, A. Han, Z. Zhang, et al., Corrosion Science [J], 185 (2021) 109417
    [30] D.V. Sidelev, E.B. Kashkarov, M.S. Syrtanov, et al. Surface and Coatings Technology [J], 369 (2019) 69-78.,
    [31] S.J. Zinkle, K.A. Terrani, J.C. Gehin, et al. Journal of Nuclear Materials [J], 448 (2014) 374–379.
    [32] E.B. Kashkarov, D.V. Sidelev, M. Rombaeva, et al. Surface and Technology [J], 389 (2020) 125618,
    [33] J.C. Brachet, E. Rouesne, J. Ribis, et al. Corrosion Science [J], 167 (2020) 108537,
    [34]F. Chang, B. Cai, Ch. Zhang, et al. Surface and Coatings Technology [J], 359 (2019): 132-140.
    [35] Sh. Zhao, L. He, X. Fan, et al. Surface and Coatings Technology [J], 375 (2019): 215-220
    [36] F. Ye, Zh. Jiao, Sh. Yan, et al. Vacuum [J], 174(2020): 109178
    [37] B. Vishwanadh, N. Sarkar, S. Gangil, et al. Scripta materialia [J], 124 (2016) 146–150.
    [38] X. Qiu,Ch. Liu. Journal of Alloys and Compounds [J], 553(2013) 216-220.
    [39] J. Cheng, X. Liang, B.Xu. Surface and Coatings Technology [J], 240 (2019):184-190
    [40] Y. Zhuang, W. Liu, P. Xing, et al. Acta Metallurgica Sinica [J], 25(2)(2012): 124-130
    [41] X.C. Li, Z.Y. Zheng, D. Dou, et al. Materials Research [J], 19(4) (2016) 802–806.
    [42] D. Lin, N. Zhang, B. He, et al. Journal of Iron and Steel Research, International [J], 24(2), 2017: 184-189.
    [43] C. Lee, G. Song, M.C. Gao, et al. Acta Materialia [J], 160 (2018): 158-172.
    [44]S. Lin, S. Chang, Y. Huang,et al. Surface and Coating Technology [J], 206 (24) (2012) 5096–5102.
    [45] P.J. Doyle, S.S. Raiman, R. Rebak, et al. 18th Int. Conf. Environ. Degrad. Mater.Nucl. Power Syst. React. [M], Springer, 2018: 269-280.
    [46] W. Zhong, P.A. Mouche, X. Han, et al. Journal of Nuclear Materials [J], 470 (2016) 327–338
    [47] K.A. Terrani, C.M. Parish, D. Shin, et al. Journal of Nuclear Materials [J], 438 (2013) 64–71.
    [48] A.S.M. Ang, C.C. Berndt, M.L. Sesso, A. Anupam, Metallurgical and Materials Transactions A [J], 46(2) (2015) 791-800.
    [49] S. Hung, C. Wang, Y. Chen,et al. Surface and Coating Technology [J], 375 (2019) 802–809;
    [50]F. Zhao, Z.X. Song, G.F. Zhang, et al. Surface Engineering [J], 29 (2013) 778–782.
    [51] B.R. Braeckman, D. Depla, Journal of Alloys and Compounds [J], 646 (2015) 810–815;
    [52] S. Zhao, C. Liu, J. Yang, et al. Surface Coatings Technology [J], 417 (2021):127228
    [53] E. Alat, A.T. Motta, R.J. Comstock, et al. Journal of Nuclear Materials [J], 478 (2016) 236-244.
    [54] S.V. Ivanova, E.M. Glagovsky, K.Y. Nikonorov, et al. Proceeding of LWR Fuel Performance Meeting/Top Fuel [C], Charlotte, USA, 2013, pp. 334-350
    [55] W Zhang, R Tang, Z B Yang et al. Journal of Nuclear Materials [J], 512 (2018) 15-24
    [56] Z. Tao, P. Wang, C. Wang, et al. Journal of Alloys and Compounds [J], 859 (2021) 157805
    [57] Y. Li, F Meng, F Ge, et al. Corrosion Science [J], 189 (2021) 109566
    [58] R. Chen, Z. Cai, J. Pu, et al. Journal of Alloys and Compounds [J], 827 (2020) 153836
    [59] Y. Lin, Sh. Hsu, R. Song, et al. Surface and Coatings Technology [J], 403 (2020) 126417
    [60] W.H. Kao, Y. L. Su, J. H. Horng, et al. Thin Solid Films [J], 717 (2021) 138448
    [61] X. Lu, C. Zhang, C. Wang, et al. Applied Surface Science [J], 557 (2021) 149813
    [62] S.K. Bachani, C.-J. Wang, B.-S. Lou, et al. Journal of Alloys and Compounds [J], 873 (2021) 159605
    [63] Y. Tan, C. Chen, S. Li, et al. Journal of Alloys and Compounds [J], 816 (2020) 152523
    [64] J. Liu, Zh Cui, D Ma, et al. Corrosion Science [J], 175 (2020) 108896
    [65] H. Zhu, H Liu, J Zhou, et al. Corrosion Science [J], 171 (2020) 108603
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[Yanfeng Wang, Shaopeng Wang, Juanjuan Geng, Yifei Wang, Yaohua Yu, Changwei Zhang. Research progress of PVD high-entropy alloy coatings for Accident Tolerance Fuel[J]. Rare Metal Materials and Engineering,2022,51(9):3524~3532.]
DOI:10.12442/j. issn.1002-185X.20210658

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History
  • Received:July 23,2021
  • Revised:August 16,2021
  • Adopted:September 13,2021
  • Online: October 08,2022
  • Published: September 27,2022

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