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| Electrochemical Properties of Plasma Sprayed TiB2-coated Al Composite Electrodes |
| GUO Xiaoliang, ZHOU Shenggang, ZHANG Nengjin, ZHU Peixian, CAO Yong, LI Hongshan
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| Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093 |
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Abstract The Al electrode substrates were covered with TiB2 by plasma spraying to form a series of composite electrodes va-ried in spraying power, whose interface microstructures and phase structures were characterized by XRD and SEM. Under the same powder-feeding potential and spraying distance, the effect of spraying power on composite electrode′s electrochemical performance was analyzed. The results showed that the phase compositions of the electrodes′ surface coatings prepared by plasma spraying were TiB2. The sprayed TiB2 can evenly and densely coat on surface of Al substrate, but no interface reaction with Al occurred and binding mode is mechanical binding. When spraying power, powder-feeding potential, and spraying distance were 34 kW, 12 V and 10 cm, respectively, the sprayed electrode had the best corrosion resistance, as its interfacial resistivity 1.22×10-6 Ω·cm was the lowest (66% lower than that of Ti/Al electrode), and had a corrosion current density of 1.47×10-4 A/cm2 (81% lower than that of Ti/Al electrode) and a corrosion voltage of -0.579 V (35% higher than that of Ti/Al electrode).
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Published: 25 March 2017
Online: 2018-05-02
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1 Shon H K, Phuntsho S, Vigneswaran S, et al. Preparation of tita-nium dioxide nanoparticles from electrocoagulated sludge using sacrificial titanium electrodes[J]. Environ Sci Technol,2010,44(14):5553.
2 Simon E Moulton, Joseph N Barisci, Andrew Bath, et al. Investigation of lg.G adsorption and the effect on electrochemical responses at titanium dioxide electrode[J]. Langmuir,2005,21(1):316.
3 Kohei Uosaki, Ryu Yoneda, Hideaki Kita. Effect of platinization on the electrochemical behavior oftitanium dioxide electrode in aqueous solutions[J].J Phys Chem,1985,89(19):4042.
4 张招贤,赵国鹏,罗小军,等.钛电极学导论[M].北京:冶金工业出版社,2008.
5 Han C H,Zhu P X,Ma H Y,et al. Performance of the Ti-Al composite electrode materials prepared by the hot-pressing duffusion bonding method[J].Acta Mater Compos Sin,2012,29(6):129(in Chinese).
韩朝辉,竺培显,马会宇,等.热压扩散焊接法制备Ti-Al复合电极材料及性能[J]. 复合材料学报,2012,29(6):129.
6 Cheng H C,Li Z X,Yang W H,et al. Study on Ni-B coated TiB2 by electroless plating[J].Trans Mater Heat Treat,2006,27(6):37(in Chinese).
程汉池,栗卓新,杨伟华,等. Ni-B合金包覆TiB2粉的研究[J].材料热处理学报,2006,27(6):37.
7 Lotfil B,Sadeghian Z,et al.Microstructure and sliding wear beha-viour of Ni(Cr)-TiB2 coatings deposited by HVOF spraying of SHS powders[J].Trans Mater Heat Treat,2004,25(5):1183.
8 Cheng H C,Li Z X,Li H,et al. Research progress of thermal spraying TiB2 coatings[J]. Heat Treatment Metals,2007,32(12):17(in Chinese).
程汉池,栗卓新,李红,等. 热喷涂制备TiB2涂层的研究进展[J]. 金属热处理,2007,32(12):17.
9 Tang H X,Yu X H,Xie G. Research progress of TiB2 cathode coa-ting in aluminium electrobath[J]. Mater Rev,2011,25(S2):203(in Chinese).
唐慧鑫,俞小花,谢刚.铝电解槽阴极TiB2涂层的研究进展[J]. 材料导报,2011,25(专辑18):203.
10 Michael Reinke, Yury Kuzminykh, Patrik Hoffmann. Low temperature chemical vapor deposition using atomic layer deposition chemistry[J]. Chem Mater,2015,27(5):1604.
11 Chen M H,Liu N,Xu Y D. The current research status of metal/ceramic wettability[J]. Cemented Carbide,2002,19(4):199(in Chinese).
陈名海,刘宁,许育东. 金属/陶瓷润湿性的研究现状[J]. 硬质合金,2002,19(4):199.
12 Chen K H,Bao C Y,Liu H W. The wettability of metal/ceramic (on)[J]. Mater Sci Eng,1997,15(3):6(in Chinese).
陈康华,包崇玺,刘红卫. 金属/陶瓷润湿性(上)[J].材料科学与工程,1997,15(3):6.
13 Marc Estruga, Lianyi Chen, Hongseok Choi, et al. Ultrasonic-assisted synthesis of surface-clean TiB2 nanoparticles and their improved dispersion and capture in Al-matrix nanocomposites[J]. ACS Appl Mater Interfaces,2013,5(17):8813.
14 Brown C W. The wettability of TiB2-based cathodes in low-temperature slurry-electrolyte reduction cells[J].JOM,1998,50(5):38.
15 Fang Z,Zhang K,Lü X J,et al. Alkali metals ( K and Na) penetration and its effects on expansion of TiB2-C composite cathode during aluminum electrolysis[J]. Trans Nonferrous Metals Soc China,2013,23(6):1847.
16 Fan N J,Zhu P X,Zhou S G,et al. Performance study of Ti/Ti4O7+TiB2/PbO2 anode material prepared by plasma spraying[J]. Hot Work Technol,2016,45(4):120(in Chinese).
范农杰,竺培显,周生刚,等. 等离子喷涂法制备Ti/Ti4O7+TiB2/PbO2阳极材料的性能研究[J].热加工工艺,2016,45(4):120.
17 Chen X,Ji G C,Wang H T,et al. Influence of HVOF spraying process on properties of TiB2-50Ni coatings[J]. Trans Mater Heat Treat,2013,34(11):156(in Chinese).
陈枭,纪岗昌,王洪涛,等.超音速火焰喷涂工艺对TiB2-50Ni涂层性能的影响[J].材料热处理学报,2013,34(11):156.
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2017, Vol. 31 
