+Advanced Search
Home > Archive>Volume 52, Issue 10, 2023 >3452-3460. DOI:10.12442/j.issn.1002-185X.20230065
PDF HTML XML Export Cite reminder
Effect of doping HfO2 on the properties of micro-arc oxidation film on titanium alloy
Author:
Affiliation:

Southwest Petroleum University

Fund Project:

Supported by Sichuan Science and Technology Program ;State Key Laboratory of Vanadium and Titanium Resources Comprehensive Utilization;Supported by the Open Fund of Sichuan Provincial Engineering Research Center of Advanced Materials Manufacturing Technology for Shale Gas High-efficient Exploitation

  • Article
    • | |
  • Metrics
    • |
  • Reference [28]
    • |
  • Related [20]
    • | | |
  • Comments
    Abstract:

    The Ti-6Al-4V titanium alloy was treated with micro-arc oxidation by adding HfO2 into the electrolyte. The effect of adding HfO2 on the characteristics of the micro-arc oxidation film of titanium alloy was studied by characterizing the surface and cross-section morphology of the micro-arc oxidation film, the composition of the film and the electrochemical behavior, and measuring the thickness, hardness, roughness and other parameters of the film. The results show that after adding HfO2, the main components of the micro-arc oxidation film are Al2TiO5,TiO2 and γ-Al2O3.The appropriate concentration of HfO2 can promote the film-forming reaction, improve the microstructure of the micro-arc oxidation film, improve the thickness and hardness of the film and reduce the surface roughness. The film sample has a double-layer film structure, and the corrosion resistance of the film sample is better than the original substrate. When the concentration of HfO2 is 3.0g/L, the comprehensive performance of the micro-arc oxidation coating is the best.

    Reference
    [1] Nicoletto G,Maisano S,Antolotti M et al. Procedia Structural Integrity[J],2017,7:133-140
    [2] Hansong Li,Chuanping Gao,Guoqian Wang et al. Scientific Reports[J],2016,6(1):35013
    [3] Zhen-Zhen X U, Dong Z Q,Zhao-Hui Y U et al. Transactions of Nonferrous Metals Society of China[J],2020,30(5):1277-1289
    [4] Guo K K,Liu C S,Chen S Y et al. Transactions of Nonferrous Metals Society of China[J],2020,30(1):147-159
    [5] Craig B. Advanced Materials Processes[J],2008,166(5):33-35
    [6] Ma Wenhai(马文海),Duan Yonggang(段永刚),Wang Zhiguo(王治国) et al. Journal of Iron and Steel Research International(钢铁研究学报)[J],2015,27(8):6
    [7] Liu Qiang(刘 强),Song Shengyin(宋生印),Li Dejun(李德君) et al. Oil Field Equipment(石油矿场机械)[J],2014, 43(12):88-94
    [8] Lu Yanping(卢燕平),Yu Fuzhou(于福洲). China Machine Press(机械工业出版社)[M],1985
    [9] Tang Zhihui(汤智慧),Wang Changliang(王长亮),Gong Xingjia(贡兴嘉) et al. Journal of Aeronautical Materials(航空材料学报)[J],2012,32(04):49-52
    [10] He Lijian(何利舰),Zhang Xiaonong(张小农). Shanghai Metals(上海金属)[J].,2005(03):39-45
    [11] Liu Qiang(刘 强),Song Shengyin(宋生印),Li Dejun(李德君) et al. Oil Field Equipment(石油矿场机械)[J],2014,43(12):88-94
    [12]Song Shengyin(宋生印),Liu Qiang(刘 强),Guo Shujun(郭淑君). Shipbuilding of China(中国造船)[J],2017,58(S1):475-482
    [13] Liu Qiang(刘 强),Hui Songxiao(惠松骁),Song shengyin(宋生印) et al. Materials Reports(材料导报)[J],2019,33(05):841-853
    [14] Huang Da(黄 达),He Weifeng(何卫锋),Lv Changle(吕长乐) et al. Surface Technology(表面技术)[J],2020,49(7):184-191
    [15] Wang Ping,Wu Ting,Peng Hao, et al. Materials Letters[J],2016, 170(May1):171-174
    [16] Wang, Ping ,Pu Jun,Zhou Jiahao et al. International Journal of Electrochemical Science[J],2018,13(9):8995–9006
    [17] Qi Yuming(齐玉明),Peng Zhenjun(彭振军),Liu Baixing(刘百幸) et al. Surface Technology(表面技术)[J],2019,48(07):81-88
    [18] Li Kang(李康),Fu Songxue(付雪松),Hu Jianjun(胡建军) et al. Rare Metal Matirials and Engineering(稀有金属材料与工程)[J],2017,46(03):765-769
    [19] Chang Hai(常 海),Guo Xuegang(郭雪刚),Wen Lei(文 磊) et al. Journal of Materials Engineering(材料工程)[J],2019,47(03):109-115
    [20] Chen X,Liao D,Jiang X et al. Surface Innovations[J],2020,8(5):279-286
    [21] Guo Qiaoqin,Xu Dapeng,Yang Wei et al. Surface and Coatings Technology[J],2020,386:125454
    [22] Wu Yucheng(吴玉程),Song Zhenya(宋振亚),Yang Ye(杨 晔) et al. Rare Metals(稀有金属)[J].,2004,28(6):6
    [23] A L Yerokhin,L O Snizhko,N L Gurevina et al. Journal of Physics, D. Applied Physics: A Europhysics Journal[J], 2003,36(17)
    [24] Dunleavy C S,Golosnoy I O,Curran J A et al. Surface and Coatings Technology[J],2009,203(22):3410-3419
    [25] Cai Wenlan(才文兰),Shi Hailan(史海兰),Wang Zhenxia(王振霞) et al. Surface Technology(表面技术)[J],2019,48(7):9
    [26] Wang S,Zhao Q,Liu D, et al. Surface Coatings Technology[J], 2015,272:343-349
    [27] Wang Y,Lei T,Guo L et al. Applied Surface Science[J],2006,252(23):8113-8120
    [28]Wang Ping;Wu Ting;Peng Hao et al. Materials Letters [J],2016,Vol.170: 171-174
    Cited by
    Comments
    Comments
    分享到微博
    Submit
Get Citation

[Wang Xiangjie, Wang Ping, Liu Yi, Yang Biao, Wu Ting. Effect of doping HfO2 on the properties of micro-arc oxidation film on titanium alloy[J]. Rare Metal Materials and Engineering,2023,52(10):3452~3460.]
DOI:10.12442/j. issn.1002-185X.20230065

Copy
Article Metrics
  • Abstract:389
  • PDF: 1193
  • HTML: 0
  • Cited by: 0
History
  • Received:February 10,2023
  • Revised:April 03,2023
  • Adopted:April 10,2023
  • Online: October 27,2023
  • Published: October 24,2023

Total visitors:12783096

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: