+Advanced Search
Home > Archive>Volume 54, Issue 3, 2025 >791-802. DOI:10.12442/j.issn.1002-185X.20240533
PDF HTML XML Export Cite reminder
Research Progress on Effects of Rare Metals on Marine Atmospheric Corrosion Behavior of Steel
Author:
Affiliation:

1.College of Aerospace Science and Engineering, National University of Defense Technology, Changsha 410073, China;2.The No.91980 Troop of PLA, Yantai 264000, China

Clc Number:

TG172.3

  • Article
    • | |
  • Metrics
    • |
  • Reference [61]
    • |
  • Related [20]
    • | | |
  • Comments
    Abstract:

    Steel material is the main structural material of marine equipment, but its corrosion usually occurs in the marine atmosphere environment, thus affecting its service performance. Compared with general atmospheric corrosion, marine atmospheric corrosion is affected by sea salt aerosols, chloride ions and other specific factors of marine atmosphere. In addition, the marine atmospheric corrosion properties of steel materials are closely related to the alloying elements of the materials. This paper reviewed the relevant studies of worldwide scholars on the effect of rare metal doping on the marine atmospheric corrosion resistance of steel materials in recent years, and summarized the corrosion mechanism of carbon steel, stainless steel, weathering steel and other common structural steels under marine atmospheric environment. The effects of Nb, Mo, Sb, Sn, Ce, La, Y and other rare metal elements on the marine atmospheric corrosion resistance of steel materials were analyzed. For weathering steel and carbon steel, the effect of rare metal elements on the structure of rust layer was mainly discussed. For stainless steel, the effect mechanism of rare metal elements on inclusion modification and pitting behavior of stainless steel was discussed. The future research directions were prospected, in order to provide references for the application of rare metal doped steel in marine atmospheric environment and for the improvement of marine atmospheric corrosion resistance.

    Reference
    [1] Liu Liang(刘 亮), Wang Houjun(王厚军), Yue Qi(岳 奇) et al. Marine Environmental Science(海洋环境科学)[J], 2020(5): 723
    [2] Hou Baorong(侯保荣), Lu Dongzhu(路东柱). Bulletin of the Chinese Academy of Sciences(中国科学院院刊)[J], 2018, 33(6): 601
    [3] Zhou Minhui(周慧敏), Huang Xuqiang(黄须强), Kong Lingfei(孔令菲) et al. Rare Metal Materials and Engineering(稀有金属材料与工程)[J], 2024, 53(4): 1170
    [4] Alcántara J, Chico B, Díaz I et al. Corrosion Science[J], 2015, 97: 74
    [5] Liu Miaoran(刘淼然). Marine Aerosol Corrosion of Typical Metal Materials(典型金属材料海洋气溶胶腐蚀)[D].Beijing: University of Chinese Academy of Sciences, 2020
    [6] Zhao Weihang(赵苇杭). Research on the Pitting Corrosion and Inhibition Mechanism of Aerospace Aluminum Alloys Under Marine Atmospheric Thin Liquid Films(航空铝合金在海洋大气薄液膜下的点蚀与缓蚀机理研究)[D]. Wuhan: Huazhong University of Science and Technology, 2017
    [7] Huang Xin(黄 鑫), Guo Wei(郭 伟), Wen Yonghong(文永洪) et al. Corrosion and Protection(腐蚀与防护)[J], 2023, 44(12): 68
    [8] Wang Jin(王 金), Min Shaosong(闵少松), Zhou Gang(周 刚) et al. Naval Science and Technology(舰船科学技术)[J], 2022, 44(24): 1
    [9] Cui Z Y, Li X G, Xiao K et al. Journal of Materials Engineering and Performance[J], 2015, 24(1): 296
    [10] Zhan Xuhe(展旭和), Wang Hailong(王海龙), Ding Xiaoming(丁小明) et al. Materials China(中国材料进展)[J], 2023, 42(8): 662
    [11] Cui Z Y, Li X G, Xiao K et al. Corrosion Science[J], 2013, 76: 243
    [12] Vercruysse F, Celada-Casero C, Linke B M et al. Materials Science and Engineering A[J], 2021, 800: 140293
    [13] Xu Dexiang(徐德祥), Wang Ruiqian(王睿谦), Fan Zengwei(范增为) et al. Shanghai Metal(上海金属)[J], 2020, 42(6): 74
    [14] Sun M H, Pang Y J, Du C Wet al. Construction and Building Materials[J], 2021, 302: 124346
    [15] Xu X X, Wu W, Li N N et al. Corrosion Science[J], 2023, 219: 111242
    [16] Xu Linhong(徐林红), Rao Jianhua(饶建华). Metal Materials and Heat Treatment(金属材料及热处理)[M]. Wuhan: Huazhong University of Science and Technology Press, 2019: 39
    [17] Li S X, Hihara L H. Corrosion Science[J], 2016, 108: 200
    [18] NishimuraI T, Tanaka K, Shimizu Y et al. Tetsu-to-Hagane[J],1995, 81(11): 1079
    [19] Zhang Shengyuan(张晟源), Jin Jing(金 静), Deng Liang(邓 亮) et al. Thermal Processing(热加工工艺)[J], 2021, 50(18): 15
    [20] Li N, Zhang W F, Xu H et al. Materials[J], 2022, 15(2): 629
    [21] Yang Y, Cheng X Q, Zhao J B et al. Corrosion Science[J], 2021, 188: 109549
    [22] Fan Xuehua(樊学华), Yu Yong(于 勇), Zhang Ziru(张子如) et al. Surface Technology(表面技术)[J], 2020, 49(7): 287
    [23] Lu Y H, Liu X, Wang L S et al. Journal of Oceanology and Limnology[J], 2022, 40(4): 1437
    [24] Lv W Y, Pan C, Su W et al. Journal of Materials Engineering and Performance[J], 2015, 24(7): 2597
    [25] Lian Y, Zhang J, Ji P F et al. Journal of Materials Engineering and Performance[J], 2022, 31(6): 4963
    [26] Yu Yujie(余玉洁), Luo Yongqi(罗永琪), Sun Hongbin(孙洪斌) et al. Journal of Building Materials(建筑材料学报)[J], 2023, 26(12): 1271
    [27] Yang W J, Liu W, Zhang T Y et al. Journal of Materials Engineering and Performance[J], 2022, 31(10): 7795
    [28] Fan Y M, Liu W, Li S M et al. Journal of Materials Science & Technology[J], 2020, 39: 190
    [29] Morcillo M, Díaz I, Cano H et al. Construction and Building Materials[J], 2019, 213: 723
    [30] Wu W, Dai Z Y, Liu Z Y et al. Corrosion Science[J], 2021, 183: 109353
    [31] Wu W, Cheng X Q, Zhao J B et al. Corrosion Science[J], 2020, 165: 108416
    [32] Qin Huaipeng(覃怀鹏), Chen Haitao(陈海涛), Lang Yuping(郎宇平) et al. Steel(钢 铁)[J], 2015, 50(9): 81
    [33] Jia J H, Cheng X Q, Yang X J et al. Construction and Building Materials[J], 2020, 259: 119760
    [34] Li Lin(李 琳), Chen Yiqing(陈义庆), Zhong Bin(钟 彬) et al. Corrosion and Protection(腐蚀与防护)[J], 2022, 43(2): 22
    [35] Li Yan(李 岩), Shao Mingrui(邵明蕊), Zhao Zengwu(赵增武) et al. Corrosion and Protection(腐蚀与防护)[J], 2019, 40(9): 627
    [36] Wu Wei(吴 伟). Research on the Stress Corrosion Mechanism of Nb and Sb Microalloyed High Strength Steel in Polluted Marine Atmosphere(铌和锑微合金化高强钢在污染海洋大气中的应力腐蚀机理研究)[D]. Beijing: University of Science and Technology Beijing, 2020
    [37] Jiang Qi(蒋 琪), Chen Wenxiong(陈文雄), Li Yuan(李 源) et al. Special Steel Technology(特钢技术)[J], 2024, 30(1): 15
    [38] Lu Huaxing(卢华兴), Kui Jian(隗 健), Li Gaosheng(李高盛) et al. Shanghai Metal(上海金属)[J], 2023, 45(3): 75
    [39] Yan Zhikun(闫治坤), Chen Haitao(陈海涛), Lang Yuping(郎宇平) et al. Metal Heat Treatment(金属热处理)[J], 2022, 47(9): 240
    [40] Chen Y S, Lu H Z, Liang J T et al. Science[J], 2020, 367(6474): 171
    [41] Wang Q, Sun Y, Shi G H et al. Corrosion Science[J], 2020, 165: 108387
    [42] Wang N X, Gao J Z, Xu X X et al. Crystals[J], 2024, 14(2): 113
    [43] Dong B J, Liu W, Chen L J et al. Cement and Concrete Composites[J], 2022, 125: 104317
    [44] Fan Y M, Liu W, Yang W J et al. Journal of Materials Engineering and Performance[J], 2023, 32(17): 7814
    [45] Xu X X, Zhang T Y, Wu W et al. Construction and Building Materials[J], 2021, 279: 122341
    [46] Gao Z X, Niu J W, Ding G Q et al. International Journal of Electrochemical Science[J], 2024, 19(8): 100707
    [47] Niu G, Yuan R, Wang E M et al. Journal of Materials Science and Technology[J], 2024, 195: 41
    [48] Yang Ying(杨 颖),Yang Xiaojia(杨小佳), Jia Jinghuan(贾静焕) et al. Surface Technology(表面技术)[J], 2021, 50(5): 224
    [49] Wu W, Liu N Y, Chai P L et al. Materials and Corrosion[J], 2022, 73(5): 733
    [50] Zhang T Y, Li Y L, Li X et al. Corrosion Science[J], 2022, 208: 110708
    [51] Wu W, Zhu L L, Chai P L et al. International Journal of Minerals, Metallurgy and Materials[J], 2022, 29(11): 2041
    [52] Jiang C, Yang Y, Cheng X Q et al. Anti-corrosion Methods and Materials[J], 2020, 67(2): 129
    [53] Sun M H, Yang X J, Du C W et al. Journal of Materials Science & Technology[J], 2021, 81: 175
    [54] Liu C, Revilla R I, Liu Z Y et al. Corrosion Science[J], 2017, 129: 82
    [55] Wang Ting(王 婷), Che Zhiqiang(车治强), Yang Jichun(杨吉春) et al. Material Protection(材料保护)[J], 2022, 55(9): 114
    [56] Li W, Li J Y, Gu J B et al. Vacuum[J], 2021, 191: 110361
    [57] Niu G, Rui Y, Misra R D K et al. Acta Metallurgica Sinica[J], 2024, 37(2): 308
    [58] Lian X T, Zhu J N, Wang R Q et al. Metals[J], 2020, 10(9): 1174
    [59] Wang J, Tian H Y, Liu Z Q et al. Materials Letters[J], 2023, 352: 135174
    [60] Wang B, Jin Q Z, Du X C et al. Journal of Materials Research and Technology[J], 2024, 28: 2752
    [61] Zhang J, Sun Y, Zhang S K et al. Materials Today Communications[J], 2024, 39: 109185
    Cited by
    Comments
    Comments
    分享到微博
    Submit
Get Citation

[Liu Feiyang, Li Tianke, Wang Ruixin, Guo Bin, Ai Yuanlin, Tang Yu. Research Progress on Effects of Rare Metals on Marine Atmospheric Corrosion Behavior of Steel[J]. Rare Metal Materials and Engineering,2025,54(3):791~802.]
DOI:10.12442/j. issn.1002-185X.20240533

Copy
Article Metrics
  • Abstract:127
  • PDF: 272
  • HTML: 191
  • Cited by: 0
History
  • Received:August 17,2024
  • Revised:November 14,2024
  • Adopted:November 18,2024
  • Online: March 25,2025
  • Published: March 25,2025

Total visitors:12913150

Address:96 weiyanglu, xi'an,Shaanxi, P.R.China Postcode:710016 ServiceTel:0086-26-86231117

E-mail:rmme@c-nin.com

Copyright:Rare Metal Materials and Engineering ® 2025 All Rights Reserved Support:Beijing E-Tiller Technology Development Co., Ltd. ICP: