| METALS AND METAL MATRIX COMPOSITES |
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| Progress in Preparation and Post-treatment Technology of Titanium Coating and Its Applications |
| WAN Fucheng1, LIANG Jichao1, YU Aihua1, ZHANG Jiazhen1, LU Xin1,2,3,*
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1 National Engineering Research Center for Advanced Rolling and Intelligent Manufacturing, Institute of Engineering Technology, University of Science and Technology Beijing, Beijing 100083, China
2 Beijing Advanced Innovation Center for Materials Genome Engineering, University of Science and Technology Beijing, Beijing 100083, China
3 State Key Laboratory for Advanced Metals and Materials, University of Science and Technology Beijing, Beijing 100083, China |
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Abstract Titanium (Ti) and its alloys are widely used in various fields due to their low density, high strength, and excellent corrosion resistance. However the relatively high cost of Ti limits its further application. By forming titanium coatings on the substrate, the cost can be greatly reduced, while still obtaining the desirable properties of Ti. Additionally, Ti coatings exhibit superior durability and mechanical properties compared to the conventional organic coatings, leading to the increasingly intensifying research in this field. This paper systematically clarifies the mainstream technologies for the preparation and post-treatment of Ti coatings, and summarizes worldwide researches of Ti coating with applications in the fields such as marine engineering, biomedical engineering, aerospace, etc. The paper ends with a prospective discussion about the existing challenges and the future trends with respect to the development of Ti coatings.
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Published: 25 January 2025
Online: 2025-01-21
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1 Liu C, Zhang Y H, Liu J F, et al. Ocean Engineering Equipment and Technology, 2021, 8(2), 75 (in Chinese).
刘存, 张有慧, 刘俊斐, 等.海洋工程装备与技术, 2021, 8(2), 75.
2 Tian L M, Yin Y, Bing W, et al. Journal of Bionic Engineering, 2021, 18(2), 239.
3 Li W Y, Cao C, Yin S. Progress in Materials Science, 2020, 110, 100633.
4 Meghwal A, Anupam A, Murty B S, et al. Journal of Thermal Spray Technology, 2020, 29(5), 857.
5 Liu Y N, Ding Y, Yang L J, et al. Journal of Manufacturing Processes, 2021, 66, 341.
6 Lu X. Titanium powder near net forming technology, Metallurgical Industry Press, China, 2022, pp. 1 (in Chinese).
路新. 钛粉末近净成形技术, 冶金工业出版社, 2022, pp. 1.
7 Zhao Z P. Study on the properties of Ti/steel clad plate prepared by cold spraying-rolling method. Ph.D. Thesis, University of Science and Technology of China, China, 2020 (in Chinese).
赵志坡. 冷喷涂-轧制制备钛/钢复合板及其性能研究. 博士学位论文, 中国科学技术大学, 2020.
8 Li N, Wang Q, Dong F, et al. Materials, 2022, 15(23), 8535.
9 Li R Z, Wang S H, Pu J B, et al. Corrosion Science, 2021, 192, 109838.
10 Zeng F F, Qiu L C, Wu L Y, et al. Surface Technology, 2023, 52(8), 1 (in Chinese).
曾芳芳, 邱联昌, 吴立颖, 等. 表面技术, 2023, 52(8), 1.
11 Huang S F, Zeng X L, Peng Z, et al. Special Casting & Nonferrous Alloys, 2023, 43(7), 876 (in Chinese).
黄绍服, 曾祥领, 彭振, 等. 特种铸造及有色合金, 2023, 43(7), 876.
12 Tian J J, Xu K W, Hu J H, et al. Journal of Materials Science & Techno-logy, 2021, 79, 62.
13 Qu Y P, Wang J, Wu J Y, et al. Materials Protection, 2014, 47(4), 57 (in Chinese).
曲彦平, 王建, 吴俊宇, 等. 材料保护, 2014, 47(4), 57.
14 Liao T Y, Biesiekierski A, Berndt C C, et al. Progress in Surface Science, 2022, 97(2), 100654.
15 Guo J J, Yang Y F, Zhu Q S, et al. Surface and Coatings Technology, 2018, 353, 18.
16 Ang A, Berndt C. International Materials Reviews, 2014, 59(4), 179.
17 Chen J Q, Liu M, Deng C M, et al. Heat Treatment of Metals, 2018, 43(1), 204 (in Chinese).
陈建强, 刘敏, 邓春明, 等. 金属热处理, 2018, 43(1), 204.
18 Ishikawa K, Suzuki T, Kitamura Y, et al. Journal of Thermal Spray Technology, 1999, 8(2), 273.
19 Vilardell A M, Cinca N, Garcia-Giralt N, et al. Materials Science and Engineering C, 2020, 107, 110306.
20 Zhang W X, Gu J P, Zhang C, et al. Surface and Coatings Technology, 2019, 358, 511.
21 Sun X, Li W, Huang J H, et al. Applied Surface Science, 2020, 508, 145264.
22 Zhou H X, Li C X, Li C J. China Surface Engineering, 2020, 33(2), 1 (in Chinese).
周红霞, 李成新, 李长久. 中国表面工程, 2020, 33(2), 1.
23 Gulizia S, Trentin A, Vezzù S, et al. In: Thermal Spray 2010: Procee-dings from the International Thermal Spray Conference. Singapore, 2010, pp. 80.
24 Poza P, Garrido-Maneiro M Á. Progress in Materials Science, 2022, 123, 100839.
25 Gardon M, Latorre A, Torrell M, et al. Materials Letters, 2013, 106, 97.
26 Wong W, Irissou E, Ryabinin A, et al. Journal of Thermal Spray Technology, 2011, 20(1), 213.
27 MacDonald D, Rahmati S, Jodoin B, et al. Journal of Thermal Spray Technology, 2019, 28(1), 161.
28 Li W Y, Cao C C, Wang G Q, et al. Science and Technology of Welding and Joining, 2019, 38(3), 337.
24010131-829 Pan J M, Sun Y F, Liu X H, et al. Practical surface engineering manual, China Machine Press, China, 2018, pp. 843 (in Chinese).
潘继民, 孙玉福, 刘新红, 等. 实用表面工程手册, 机械工业出版社, 2018, pp. 843.
30 Wu Z J, Wu Z J, Zeng K L, et al. Modern thermal spraying technology, China Machine Press, China, 2018, pp. 11 (in Chinese).
吴子健, 吴朝军, 曾克里, 等. 现代热喷涂技术, 机械工业出版社, 2018, pp. 11.
31 Xie Z Y, Liu C S, Wu Q, et al. Surface Technology, 2023, 52(7), 25 (in Chinese).
谢志颖, 刘常升, 吴琼, 等. 表面技术, 2023, 52(7), 25.
32 Wang C, Li J J, Wang T, et al. Surface and Coatings Technology, 2021, 416, 127137.
33 Wang P, Ye Y S. Applied Laser, 2018, 38(3), 377 (in Chinese).
王培, 叶源盛. 应用激光, 2018, 38(3), 377.
34 Ma W, Xu X, Xie Y S, et al. Surface and Coatings Technology, 2024, 477, 130383.
35 Wang Z W. Preparation process and properties of titanium and titanium alloy coatings by plasma cladding. Master's Thesis, University of Science and Technology Beijing, China, 2019 (in Chinese).
王志炜. 等离子熔覆钛及钛合金涂层制备工艺及性能研究. 硕士学位论文, 北京科技大学, 2019.
36 Zhu L D, Xue P S, Lan Q, et al. Optics & Laser Technology, 2021, 138, 106915.
37 Xiao Y, Xiong J, Guo Z X, et al. Journal of Central South University, 2020, 27(3), 721.
38 Choy K L. Progress in Materials Science, 2003, 48(2), 57.
39 Jin N, Yang Y Q, Luo X, et al. Progress in Materials Science, 2013, 58(8), 1490.
40 Deng Y, Chen W L, Li B X, et al. Ceramics International, 2020, 46, 18373.
41 Kim H J, Odoul S, Lee C H, et al. Surface and Coatings Technology, 2001, 140(3), 293.
42 Luo X T, Wei Y K, Wang Y, et al. Materials & Design, 2015, 85, 527.
43 Zhao Z P, Tariq N H, Tang J R, et al. Materials & Design, 2020, 185, 108249.
44 Li W Y, Zhang C, Guo X, et al. Advanced Engineering Materials, 2007, 9(5), 418.
45 Molak R M, Araki H, Watanabe M, et al. Journal of Thermal Spray Technology, 2015, 24(8), 1459.
46 Zhu W Y. Effect of sealing treatment on corrosion resistance of thermal sprayed metal base coatings. Master's Thesis, Yangzhou University, China, 2021 (in Chinese).
朱无言. 封孔处理对热喷涂金属涂层耐腐蚀性能影响研究. 硕士学位论文, 扬州大学, 2021.
47 Shi Z P, Wang Z B, Qiao Y X. Materials Science & Engineering Techno-logy, 2020, 51(11), 1507.
48 Deng W, Hou G L, Li S J, et al. Ultrasonics Sonochemistry, 2018, 44, 115.
49 Morończyk B, Ura-Bińczyk E, Kuroda S, et al. Surface and Coatings Technology, 2019, 363, 142.
50 Bi S Q, Xu K W, Shao G S, et al. Journal of Materials Science & Technology, 2023, 159, 125.
51 Gao Y K. Surface Engineering, 2006, 22(4), 299.
52 Liu J Y, Luo X T, Wan P, et al. Thermal Spray Technology, 2023, 15(4), 1 (in Chinese).
刘建禹, 雒晓涛, 万鹏, 等. 热喷涂技术, 2023, 15(4), 1.
53 Xiao H, Liu X, Lu Q H, et al. Journal of Materials Research and Technology, 2022, 19, 2981.
54 Faksa L, Daves W, Ecker W, et al. International Journal of Refractory Metals and Hard Materials, 2019, 82, 174.
55 Zhou H X, Li C X, Ji G, et al. Journal of Alloys and Compounds, 2018, 766, 694.
56 Xiong T Y, Wang J Q. Acta Metallurgica Sinica, 2023, 59(4), 537 (in Chinese).
熊天英, 王吉强. 金属学报, 2023, 59(4), 537.
57 Li Z M, Yang X P, Zhang J B, et al. Advanced Engineering Materials, 2016, 18(7), 1240.
58 Zhao Z P, Tang J R, Tariq N H, et al. Materials Science and Engineering A, 2020, 795, 139982.
59 Zhao Z P, Tariq N H, Tang J R, et al. Materials Science and Engineering A, 2020, 775, 138968.
60 Zhai Y J, Liu X B, Qiao S J, et al. Surface Technology, 2017, 46(6), 207 (in Chinese).
翟永杰, 刘秀波, 乔世杰, 等. 表面技术, 2017, 46(6), 207.
61 Ullah I, Siddiqui M A, Liu H, et al. ACS Biomaterials Science & Engineering, 2020, 6(3), 1355.
62 Jin H C, Tian L M, Bing W, et al. Progress in Materials Science, 2022, 124, 100889.
63 Li Z Y, Wang N, Li S H, et al. Coatings, 2023, 13(11), 1894.
64 Bai Y L, Liu X F, Wang W J, et al. Chinese Journal of Engineering, 2021, 43(1), 85 (in Chinese).
白于良, 刘雪峰, 王文静, 等. 工程科学学报, 2021, 43(1), 85.
65 Wu L K, Guo P J, Zheng L, et al. Surface Technology, 2022, 51(5), 79 (in Chinese).
伍廉奎, 郭蒲俊, 郑磊, 等. 表面技术, 2022, 51(5), 79.
66 Wang Z Z, Huang G S, Xing L K, et al. Titanium Industry Progress, 2020, 37(2), 7 (in Chinese).
王治中, 黄国胜, 邢路阔, 等. 钛工业进展, 2020, 37(2), 7.
67 鲁宏, 戴魏魏, 蒋倩, 等. 中国专利, CN115627470A, 2023.
68 Hai M N, Huang F, Wang Y M. Metal World, 2021, 37(5), 16 (in Chinese).
海敏娜, 黄帆, 王永梅. 金属世界, 2021, 37(5), 16.
69 Gu Z J, Su F T, Zhang Z G, et al. Corrosion & Protection, 1999, 20(4), 166 (in Chinese).
辜志俊, 苏方腾, 张志刚, 等. 腐蚀与防护, 1999, 20(4), 166.
70 Romeu M J, Mergulhão F. Microorganisms, 2023, 11(6), 1568.
71 Selim M S, Yang H, Wang F Q, et al. RSC Advances, 2018, 8(18), 9910.
72 Zhai X F, Ju P, Guan F, et al. Surface and Coatings Technology, 2020, 397, 125959.
73 Sha J N, Liu X, Chen R R, et al. Journal of Colloid and Interface Science, 2023, 637, 67.
74 Richards C, Slaimi A, O'Connor N, et al. International Journal of Molecular Sciences, 2020, 21(14), 5063.
75 Zhao Y, Wang C T, Hu J M, et al. Ceramics International, 2021, 47(5), 7233.
76 Yi P, Jia H Y, Yang X S, et al. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 656, 130357.
77 Yu Y, Xu N N, Zhu S Y, et al. Journal of Materials Science & Technology, 2021, 69, 48.
78 Veiga C, Davim J P, Loureiro A J R. Reviews on Advanced Materials Science, 2012, 32, 133.
79 Sonoda T, Saito T, Watazu A, et al. Surface and Interface Analysis, 2006, 38(4), 797.
80 Sun J F, Han Y, Cui K. Materials Letters, 2008, 62(21), 3623.
81 Guillem-Marti J, Cinca N, Punset M, et al. Colloids and Surfaces B: Biointerfaces, 2019, 180, 245.
82 Ren X H, Zhou M L, Zhen Z X, et al. China Medical Equipment, 2022, 19(12), 21 (in Chinese).
任旭辉, 周梦林, 郑照县, 等. 中国医学装备, 2022, 19(12), 21.
83 Zhao C L, Zhu Y B, Yuan Z W, et al. Surface and Coatings Technology, 2020, 403, 126399.
84 Krella A K. Surface and Coatings Technology, 2013, 228, 115.
85 Jin X M, Gao L Z, Liu E Q, et al. Journal of the Mechanical Behavior of Biomedical Materials, 2015, 50, 23.
86 Ji Z Y, Ma X, Liu P, et al. Materials Protection, 2023, 56(2), 1 (in Chinese).
季震宇, 马迅, 刘平, 等. 材料保护, 2023, 56(2), 1.
87 Wang Q, Tang Z L, Herout R, et al. Surfaces and Interfaces, 2024, 45, 103856.
24010131-988 Wang X, Luo X K, Yu B, et al. Aeronautical Manufacturing Technology, 2022, 65(4), 14 (in Chinese).
王欣, 罗学昆, 宇波, 等. 航空制造技术, 2022, 65(4), 14.
89 Ji M M, Zhu S Z, Ma Z. Surface Technology, 2021, 50(1), 253 (in Chinese).
姬梅梅, 朱时珍, 马壮. 表面技术, 2021, 50(1), 253.
90 Li B, Ding R D, Shen Y F, et al. Materials & Design, 2012, 35, 25.
91 Feng Y Q, Feng K, Yao C W, et al. Materials & Design, 2019, 181, 107959.
92 Cao X, He W F, Wang S G, et al. China Surface Engineering, 2021, 34(3), 120 (in Chinese).
曹鑫, 何卫锋, 汪世广, 等. 中国表面工程, 2021, 34(3), 120.
93 Yang R F, Li X, Sun Q X, et al. Heat Treatment, 2021, 36(1), 6 (in Chinese).
杨镕菲, 李想, 孙启轩, 等. 热处理, 2021, 36(1), 6.
94 Xie W L, Zhao Y M, Liao B, et al. Surface and Coatings Technology, 2022, 441, 128590.
95 Yuan F H, Zhang J P, Cheng Y X, et al. Aeronautical Manufacturing Technology, 2016(S1), 40 (in Chinese).
袁福河, 张佳平, 程玉贤, 等. 航空制造技术, 2016(S1), 40.
96 Golkovski M G, Samoylenko V V, Polyakov I A, et al. Journal of Phy-sics: Conference Series, 2018, 1115(4), 042045.
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2025, Vol. 39 
