COMPOZITES AND MULTIPURPOSE COATING | |
ArticleName | Electrochemical and tribological properties of protective composite coatings on Mg-alloy MA8, formed by plasma electrolytic oxidation and electrophoresis precipitation methods |
DOI | 10.17580/tsm.2015.07.10 |
ArticleAuthor | Gnedenkov S. V., Sinebryukhov S. L., Mashtalyar D. V., Imshinetskiy I. M. |
ArticleAuthorData | Institute of Сhemistry of Far Eastern Branch of Russian Academy of Sciences, Vladivostok, Russia: S. V. Gnedenkov, Professor, Deputy Director for Science, Head of Department of Electrochemical Systems and Surface Modification Processes |
Abstract | For the purpose of corrosion resistance improvement and wear reduction of protective composite coatings, methods of their formation on magnesium alloys were developed using plasma electrolytic oxidation and electrophoresis precipitation of superdispersed polytetrafluoroethylene (SPTFE). There was carried out a complex investigation of electrochemical and tribological characteristics and morphological peculiarities of obtained composite coatings on the MA8 alloy (Mg – Mn – Ce system). There was made a conclusion, that polymer-containing coatings, obtained in suspension with SPTFE concentration of 30 g/l lead to decrease of corrosion current density by three orders of magnitude (Iс = 2,0·10–10 A/сm2), and increase of polarization resistance value by three orders of magnitude (RP = 2,7·108 Om·cm2), as compared to the base PEO-coating. The trend of change of phase angle maximum values to bigger values with increasing polymer concentration points to increasing of coating protection characteristics. According to the result analysis, increasing of polymeric powder concentration in solution up to 30 g/l leads to increasing resistance of both porous and non-porous coating parts. This is explained by incorporation of bigger more amount of polymer in coating surface porous layer, which allows making the polymer surface layer more homogeneous at applied thermal treatment conditions. However, introduction of more than 30 g/l of SPTFE in electrolyte composition leads to degradation of protective characteristics of composite layer. Presence of superdispersed polytetrafluoroethylene in composite coating influences positively on antifriction properties of samples. Polytetrafluoroethylene layer is used as a dry lubricant. At the same time, the best composite polymer-containing coatings decreases the wear by two orders of magnitude (1,2·10–6 mm3/N·m) in comparison with the base coating applied by plasma electrolytic oxidation. This work was carried out with the support of Russian Scientific fund (No. 14-33-00009) and the Government of Russian Federation (Federal agency of scientific organizations). |
keywords | Magnesium alloys, protective coatings, plasma electrolytic oxidation, electrophoresis, superdispersed polytetrafluorinethylene, impedance spectroscopy, corrosion, wear |
References | 1. Wang L. X., Fang G., Leeflang M. A. et al. Constitutive behavior and microstructure evolution of the as-extruded AE21 magnesium alloy during hot compression testing. Journal of Alloys and Compounds. 2015. Vol. 622. pp. 121–129. 2. Pardo A., Merino M. C., Coy A. E. et al. Corrosion behavior of magnesium/aluminium alloys in 3.5wt.% NaCl. Corrosion Science. 2008. Vol. 50, No. 3. pp. 823–834. |
Language of full-text | russian |
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