Abstract
The plasma electrolytic oxidation of the titanium alloy OT4 was studied; the characteristics of the resulting coatings were determined–thickness, breakdown potential, corrosion current density, and X-ray phase; micro-X-ray spectral analysis was performed, and the morphology of the coatings was studied by scanning electron microscopy. We studied the effect of plasma electrolytic oxidation of OT4 and additional treatment of PEO coatings on the corrosion resistance of the aluminum alloy D16 (An.Ox.nchr, anodic treatment in chromate solutions) in contact with the titanium alloy in structurally similar samples.
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REFERENCES
Kablov, E.N., Petrova, A.P., and Narskii, A.R., Istor. Nauki Tekh., 2009, no. 11, pp. 12–15.
Kablov, E.N., Vestn. RFFI, 2017, no. 3 (95), pp. 97–105. https://doi.org/10.22204/2410-4639-2017-095-03-97-105
Kablov, E.N., Nauka Zhizn, 2012, no. 11, pp. 16–21.
Kablov, E.N., Startsev, O.V., and Medvedev, I.M., Aviats. Mater. Tekhnol., 2015, no. 2, pp. 76–87. https://doi.org/10.18577/2071-9140-2015-0-2-76-87
Vinogradov, S.S., Nikiforov, A.A., Demin, S.A., and Chesnokov, D.V., Aviats. Mater. Tekhnol., 2017, no. S, pp. 242–263. https://doi.org/10.18577/2071-9140-2017-0-S-242-263
Kozlov, I.A. and Karimova, S.A., Aviats. Mater. Tekhnol., 2014, no. 2, pp. 15–20. https://doi.org/10.18577/2071-9140-2014-0-2-15-20
Zakharova, L.V., Tr. Vseross. Inst. Aviats. Mater., 2015, no. 10, p. 2. http://www.viam-works.ru. Accessed August 2, 2018. https://doi.org/10.18577/2307-6046-2015-0-10-2-2
Sibileva, S.V. and Kozlova, L.S., Aviats. Mater. Tekhnol., 2016, no. S2, pp. 3–10. https://doi.org/10.18577/2071-9140-2016-0-S2-3-10
Rudnev, V.S., Gordienko, P.S., Kurnosova, A.G., and Orlova, T.I., RF Patent 2061107, 1996.
Rybin, V.V., Ushkov, S.S., Chesnov, A.N., et al., RF Patent 2294987, 2007.
Shokouhfar, M., Dehghanian, C., and Baradaran, A., Appl. Surf. Sci., 2011, vol. 257, pp. 2617–2624.
Hussein, R.O., Nie, X., and Northwood, D.O., Mater. Chem. Phys., 2012, vol. 134, pp. 484–492.
Gordienko, P.S., Khrisanfova, O.A., and Korkosh, S.V., RF Patent 1788793, 1996.
CN Patent 102199785, 2011.
Rakoch, A.G., Strekalina, D.M., and Gladkova, A.A., Tsvetn. Met. (Moscow, Russ. Fed.), 2016, no. 2, pp. 80–84.
CN Patent 101054708, 2007.
Shimin Liu, Xianjin Yang, Zhenduo Cui, Shengli Zhu, and Qiang Wei, Mater. Lett., 2011, vol. 65, pp. 1041–1044.
Shcherbinin, V.F., Malinkina, Yu.Yu., Leonov, V.P., Chudakov, E.V., and Molchanova, N.F., RF Patent 2471021, 2012.
Shcherbinin, V.F., Malinkina, Yu.Yu., Vasil’ev, A.F., Farmakovskii, B.V., and Oryshchenko, A.S., RF Patent 2476627, 2013.
Torchenyuk, D.A., Vasil’ev, A.F., Farmakovskii, B.V., and Shcherbinin, V.F., RF Patent 2367727, 2009.
Gnedenkov, S.V., Sinebryukhov, S.L., Mashtalyar, D.V., et al., RF Patent 2478738, 2013.
Kazantsev, I.A. and Skachkov, V.S., RF Patent 2250937, 2005.
Kazantsev, I.A., Skachkov, V.S., Rozen, A.E., and Krivenkov, A.O., RF Patent 2238352, 2004.
Habazaki, H., Tsunekawa, S., Tsuji, E., and Nakayama, T., Appl. Surf. Sci., 2012, vol. 259, pp. 711–718.
Rudnev, V.S., Yarovaya, T.P., and Nedozorov, P.M., RF Patent 2263163, 2005.
Bayati, M.R., Moshfegh, A.Z., and Golestani-Fard, F., Electrochim. Acta, 2010, vol. 55, pp. 2760–2766.
Gnedenkov, S.V., Boinovich, L.B., Sinebryukhov, S.L., et al., RF Patent 2441945, 2012.
Kablov, E.N., Aviats. Mater. Tekhnol., 2015, no. 1 (34), pp. 3–33. https://doi.org/10.18577/2071-9140-2015-0-1-3-33
Gnedenkov, S.V., Sinebryukhov, S.L., Mashtalyar, D.V., et al., RF Patent 2569259, 2015.
Karimova, S.A. and Chesnokov, D.V., Nov. Materialoved. Nauka Tekh., 2013, no. 4, p. 5. http://www.materialsnews.ru. Accessed August 6, 2018.
ACKNOWLEDGMENTS
The authors are grateful to I.A. Kozlov, A.E. Kutyrev, K.E. Zakharov, Ya.Yu. Nikitin, G.G. Shapovalov, V.A. Kuznetsova, S.A. Naprienko, P.N Medvedev, and D.A. Movenko for assistance with the research.
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Sibileva, S.V., Knyazev, A.V., Leshko, S.S. et al. Plasma Electrolytic Oxidation of Titanium Alloys To Protect Adjacent Aluminum Alloys Element from Contact Corrosion. Prot Met Phys Chem Surf 56, 1239–1243 (2020). https://doi.org/10.1134/S2070205120070175
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DOI: https://doi.org/10.1134/S2070205120070175