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Microarc oxidation (MAO) method also called as plasma electrolytic oxidation (PEO) has a good proven as a way for strengthening working surfaces of parts operating at the friction in many knots of machines and mechanisms. The coatings formed in the mode of anodic-cathode microarc discharges (MAO-coating) have high hardness, strength and good resistance to wear as a pair with many materials, and with itself also, including the conditions with presence of abrasive particles, due to the content significant share of α-Al2O3 in their composition. These pairs can work either with lubrication or without it. Nevertheless, there are many friction surfaces for which a low friction coefficient is very important, because they work under low level of lubrication or without it. These conditions are characteristic, for example, for the pair "ball - seating" of shut-off valves (ball valves), and others. Tribological characteristics of working surfaces, strengthened by MAO, can be significantly improved by subsequent impregnation of coating porous system by the UHMWPE (ul-tra-high-molecular-weight-polyethylene), which melts and fills in the porous structure of the coating thus improving the contact geometry. The possibilities of MAO-method can expand also greatly when using the electrolytes-suspensions containing solid particles of different nature which are inserted into the coatings composition within the oxidation process. For wear resistance improving as these solid particles may be used different carbides, oxides, nitrides, borides of metals with different degree of dispersion. Such particles are being built into the crystal lattice of alumina and strengthen the working surface of coating significantly.
Microarc oxidation. Science and humanity. Znanie: Moscow, 1981, p. 341 in Russian].
Markov G.A., Shulepko E.K., Terleeva O.P. Method of coatings deposition on metals and alloys. Publish. Bull. Inv. 13, 1989. Copyright Certificate 1200591 C 25D 11/02 in Russian].
Markov G.A., Gizatullin B.S., Rychazhkova I.B. Method of electrolytic deposition of silicate coatings. Publish. Bull. Inv. 17, 1982. Copyright Certificate 926083 C 25 D 11/02 in Russian].
Markov G.A., Shulepko E.K., Zhukov M.F., Petshevitsky B.I. Method of metalsand alloys oxidation. Publish. Bull. Inv. 17, 1982. Copyright Certificate 926084 C 25 D 11/02 in Russian].
Markov G.A., Belevantsev V.I., Terleeva O.P., et all. Microarc oxidation. Vestn. MSTU, Ser.Machinostr. 1, 1992, 34-56 (ISSN 0236-3941) in Russian].
Markov G.A., Terleeva O.P., Shulepko E.K. Microarc and arc methods for deposition of protecting coatings. I.M.Gubkin MINKH and GP, Collection of Works, Moscow, vol.185, 1985, 54-66 in Russian].
Sluginov N.P. J. Phys. and Chem. Soc., 1880, Vol.12, Iss.1,2 Physical part, p.1933.
Guenterschulze A., Betz H. Neue Untersuchungen ueber die elektrolitische Ventilwirkung. V. Die Eigenschaften der Funken. Z. Physik.1932, V.78, 196-210.
Mc Neil W, Wick R. Effect of various polyvalent metal anion addition to an alkaline magnesium anodizing bath. J. Electrochem Soc. 1957, V. 104, ? 6, 356-359.
Mc Neil W. The preparation of cadmium niobate by an anodic spark reaction J. Electrochem Soc. 1958, V. 105, ? 9, 544-547.
Gruss L.L., Mc Neil W. Anodic Spark Reaction Products in Aluminate, Tungstate and Silicate Solutions. J. Electrochem. Technol. 1963, V.1, ? 9-10, 283-287.
Mc Neil W., Gruss L.L. Anodic film growth by anion deposition in aluminate, tungstate and phosphate solutions. J. Electrochem. Soc. 1963, V. 110, ? 8, 853-855.
Mc Neil W., Gruss L.L., Husted D.G. The anodic synthesis of CdS films. J. Electrochem. Soc. 1965, V. 112, ? 7, 713-715.
US Patent ? 2,753,952 (15.11.55.). H.A. Evangelides. HAE process.
US Patent ? 2,778,789 (22.01.57.). Mc Neil W. Cr-22 process.
US Patent ?3,293,158 (20.12.66.) Mc.Neil W., Gruss L.L. Anodic Spark Reaction Processes and Articles. C l. 204-56.
Brown S.D., Kuna K.J., Tran Bao Van. Anodic Spark Deposition from Aqueous Solutions of NaAlO2 and Na2SiO3. J. Amer. Ceram. Soc. 1971. V. 54, ? 4, 384-390.
Tran Bao Van, Brown S.D., Wirtz G. P. Mechanism of Anodic Spark Deposition. Amer. Ceram. Bull. 1977. V. 56, ? 6, 563-568.
Markov G.A., Markova G.V. Method of electrolytic condensers anode forming. Publish. Bull. Inv. 32, 1976. Copyright Certificate 526961 H 01G 9/24 in Russian].
Nikolaev A.V., Markov G.A., Petshevitsky B.I. New phenomenon in electrolysis. Izv. SB of RAS, Chemical science, 1977, Vol.5, ?12, 32-33 in Russian].
Karanik Yu.A., Markov G.A., Minin V.F., et all. Method of manufacture metallic casting form. Publish. Bull. Inv. 45, 1977. V.F. Copyright Certificate 582894 B 22 D 15/00 in Russian].
Karanik Yu.A., Markov G.A., Minin V.F., et all. Method of manufacturecastings mouldes and cores. Publish. Bull. Inv. 15, 1979. Copyright Certificate 657908 B 22 D 15/00, B 22C 9/00 in Russian].
Markov G.A., Terleeva O.P., Shulepko E.K. Electrochemical oxidation of Aluminum at the cathode polarization. Izv SB of RAS, Chemical science, 1983, Vol 3, ?7, 31-34 in Russian].
Malyshev V.N., Markov G.A., Fedorov V.A., Petrosyants A.A., et all. Features of structure and properties of coatings formed by microarc oxidation method. Chemical and oil machine industry, 1984, ?1, 26-27 in Russian].
Markov G.A., Belevantsev V.I., Slonova A.I., Terleeva O.P. Stagety in anodic-cathode microplasma processing. Electrochemie. 1989, Vol. 25, ? 11, 1473-1479 in Russian].
Mironova M.K. About film formed by anode microarc oxidation. Protection of metals. 1990, Vol.26, ?2, 320-323 in Russian].
Snizhko L.A. Beskrovny Yu.M., Nevkryty V.I., Chernenko V.I. Impulse mode for deriving silicatecoatings in spark discharge. Protection of metals. 1980, Vol.16, ?3, 365-367 in Russian].
Snizhko L.A., Tikhay L.S., Udovenko Yu.Z., Chernenko V.I. Anode-spark deposition of silicates on alternative current. Protection of metals. 1991, Vol.27, ?3, 425-430 in Russian].
Chernenko V.I., Snizhko L.A., Papanova I.I. Deriving of coatings by anode-spark electrolysis. Khimiya: Leningrad. 1991, p.128 in Russian].
Gordienko P.S., Yarovaya T.P. Definition of microarc oxidation parameters onvoltage-current characteristics. Electronnaya obrabotka materialov. 1990, ? 6, 44-48.in Russian].
Gordienko P.S., Gnedenkov S.V., Sinebrukhov S.L., Zavidnaya A.G. About growth mechanism of MAO on titanium. Electronnaya obrabotka materialov. 1991, ? 2, 42-46.in Russian].
Gordienko P.S., Gnedenkov S.V. Microarc oxidation of titanium and its alloys. Dalnauka: Vladivostok, 1997. p.186 in Russian].
Rudnev V.S., Gordienko P.S., Kurnosova A.G., Ovsyannikova A.A. Electrolyte influence on result of aluminum alloys microarc oxidation. Protection of metals. 1991, Vol.27, ?1, 106-110 in Russian].
Fedorov V.A., Velikoselskaya N.D. Phys. Chem. Mater. Treat. 1990, ?4, 57-62 in Russian].
Fedorov V.A., Belozerov V.V., Velikoselskaya N.D. Phys. Chem. Mater. Treat. 1991, ?1, 87-93 in Russian].
Malyshev V.N. Investigation of coatings service properties formed by microarc oxidation method. Protective coatings on metals. 1989, Vol.23, 85-88 in Russian].
Malyschev V.N. Neue Anwendungsmoeglichkeiten fuer Aluminium. Metalloberflaeche, 2006, ? 1-2, 28-29.
Malyschev V.N. Mikrolichtbogen-Oxidation – ein neuartiges Verfahren zur Verfestigung von Aluminiumoberflaechen. Metalloberflaeche, 1995, ? 8, 606-608.
Malyshev V.N. Features of coatings forming by anodic-cathode microarc method. Protection of metals. 1996, Vol.32, ?6, 662-667 in Russian].
Malyshev V.N. Selforganisated processing at the coatings formation by microarc oxidation method. Advanced materials. 1998, ?1, 16-21 in Russian].
Malyshev V.N. Effective Electrochemical Transformation Method of Valve Metals Surface Layer into High-tensile Ceramic Coating./Chapter 7 in Book: Chemical Reactions on Surfaces. Editor:J.I.Duncan and A.B.Klein, 2008 Nova Science Publishers, Inc.,pp. 211-262.
Petrosyants A.A., Malyshev V.N., Fedorov V.A., Markov G.A. Trenie I Iznos, 5, 1984, 350-354 (for English translation see J. Friction and Wear, ISSN 1068-2666) in Russian].
Jamada M., Mita J. Formation of Eta-Alumina by Anodic Oxidation of Aluminum. Chem. Lett. 1982, ? 5, 759-762.
Dittrich K.H., Krysmann W., Kurze P., Schneider H.G. Structure and Properties of ANOF layers. Crystal Res. And Technol. 1984. V.19. ? 1, 93-99.
Krysmann W., Kurze P., Dittrich K.-H., Schneider H.G. Process Characteristics and Parameters of Anodic Oxidation by Spark Discharge (ANOF). Crystal Res. and Technol. 1984. V19. ? 7, 973-979.
EP 0.280.886 A1.(01.02.88) C 25 D 11/02. Krysmann W., Kurze P., Berger M., Rabending K., Schreckenbach J., Schwarz T., Hartmann K.-M. Verfahren zur Herstellung dekorativer Ueberzuege auf Metallen.
Kurze P., Schreckenbach J., Schwarz Th., Krysmann W. Beschichten durch anoducsche oxidation unter Funkenentladung (ANOF). Metalloberflaeche, 1986 B.40, ? 12, 539-540.
Pat 3,812,021 USA. Inorganic Coatings for Aluminous Meals/ H.L. Graig, H.J. Coates. -1974 (21.05) (C23B 9/02).
3,832,293 USA. Process for Forming a Coating Comprising a Silicate on Valve Group Metals /R.J. Hradcovsky, S.H. Bales. 1974 (27.08) (C23B 9/02, 11/02).
4,082,626 USA. Process for Forming a Silicate Coatings /R.J. Hradcovsky. 1978 (4.04) (C25D 11/02, 11/06, 11/34).
4,620,904 USA. Method of Coating Articles of Magnesium and Electrolytic Bath therefor /O. Kozak. 1986 (4.11.) (C25D 11/00).
Timoshenko A.V., Opara B.K. Kovalev A.F. Microarc oxidation of alloy D16 on alternative current in alkali electrolyte. Protection of metals. 1991, Vol.27, ?3,.417-424 in Russian].
Kuskov V.N., Kuskov Yu.N., Kovensky I.M., Matveev N.I. Features of coatings growth at the microarc oxidation of aluminum alloy. Phys. Chem. Mater. Treat. 1996, ?6, 101-103 in Russian].
Bakovets V.V., Polyakov O.V., Dolgovesova I.P. Plasma electrolytic anode treatment of metals. Nauka: Novosibirsk, 1991, p. 168. in Russian].
Dukhin S.S., Deryagin B.V. Electrophoresis. Nauka: Moscow. 1976, p.332 in Russian].
Markov G.A., Shulepko E.K., Terleeva O.P. Unit for transformation alternating voltage in asymetric alternating. Publish. Bull. Inv. 35, 1987. Copyright Certificate 1339818 H 02M 5/257 in Russian].
Markov G.A., Shulepko E.K., Terleeva O.P. Unit for transformation alternating voltage in asymetric alternating. Publish. Bull. Inv. 26, 1989. Copyright Certificate 1451821 H 02M 5/257 in Russian].
Semenov A.P., Kovsh I.B., Petrova I.M. et all. Methods and means of details machines surfaces hardening by concentrated flows of energies. Nauka: Moscow, 1992, p. 404 in Russian].
Stafford K.N. et all. Coatings and surface treatment for protection from corrosion and wear. Metallurgy: Moscow, 1991, p.238 in Russian].
Aluminum alloys. Structure and properties of half-finished products from aluminum alloys. Handbook. Metallurgy: Moscow, 1974. p. 432. in Russian].
Khrutshev M.M., Babichev M.A. Abrasive outwearing. Nauka: Moscow, 1970, p.252 in Russian].
Malyshev V.N., Golub M.V., Kharlamenko V.I. Investigation of composite materials relative wear resistance. VNIIOENG. Machines and oil equipment, 1983, ? 4, 6-8 in Russian].
Katsheev V.N. Processes in a zone of metals friction contact. Mashinostroenie: Moscow, 1978, p.213 in Russian].
Vinorgadov Yu. M. Wear resistant materials in chemical machine industry. Handbook. Mashinostroenie: Leningrad, 1977, p. 256 in Russian].
Khebda M., Chichinadze A.V., et all. Handbook on tribotechnic. Theoretical basis. Mashinostroenie: Moscow, 1989, Vol.1, p.400 in Russian].
Fedorchenko I.M., Pugina L.I. Composite heated antifriction materials. Naukova dumka: Kiev, 1980, p.404 in Russian].
Alekhin V.P., Fedorov V.A., Bulychev S.I., Tyurpenko O.A. Features of microstructure of hardened surgace layers obtained by microarc oxidation. Phys. Chem. Treat. Mater. 1991, ? 5, 121-126 in Russian].
Yerokhin A.L., Nie X. and Leyland A. et al., Plasma electrolysis for surface engineering, Surf. Coat. Technol. 122 (1999) (2–3), pp. 73–93.
Yerokhin A.L., Snizhko L.O., Gurevina N.L., Leyland A., Pilkington A. and Matthews A. Discharge characterization in plasma electrolytic oxidation of aluminium, J.Phys.D: Appl.Phys. 36 (2003), pp. 2110-2120.
Ding, H.-y., Dai, Z.-d., Skuiry, S.C., Hui, D. Corrosion wear behaviors of micro-arc oxidation coating of Al2O3 on 2024Al in different aqueous environments at fretting contact. Tribology International, 2010, 43 (5-6) , pp. 868-875.
Sundararajan, G. and L.R. Krishna, Mechanisms Underlying the Formation of Thick Alumina Coatings through the MAO Coating Technology. Surf. Coat. Technol., 2003. 167: ?. 269-277.
A. Curran, T.W. Clyne, Porosity in plasma electrolytic oxide coatings. Acta Materialia 54, 2006.
Malyshev V.N., Volkhin A.M. Antifriction properties increasing of ceramic MAO-coatings. Proc. IMechE Part J:J Engineering Tribology, 2014, V.228(4), P.435-444.
A. Zakharov, V.A. Yuzova, N.V. Eristova, Ultra Dispersed Materials. Deriving and Properties. Interhigh School Col., Krasnoyarsk, 1990, p. 170 in Russian].
Vladimir Malyshev, " Modification of Friction Knots Work Surfaces on the Basis of Microarc Oxidation Method, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 2, Issue 4, pp.464-480, July-August-2016.

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