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Защитные свойства
ингибиторсодержащих композиционных покрытий на сплаве магния |
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Институт химии Дальневосточного отделения РАН, Владивосток, Россия:
С. Л. Синебрюхов, доцент, зав. лабораторией нестационарных поверхностных процессов А. С. Гнеденков, мл. науч. сотр. лаборатории нестационарных поверхностных процессов, эл. почта: asg17@mail.ru Д. В. Машталяр, ст. науч. сотр. лаборатории композиционных покрытий биомедицинского назначения С. В. Гнеденков, проф., зам. директора по научной работе, зав. отд. электрохимических систем и процессов модификации поверхности |
References |
1. Sinebryukhov S. L., Gnedenkov A. S., Mashtalyar D. V., Gnedenkov S. V. PEO-coating/substrate interface investigation by localised electrochemical impedance spectroscopy. Surface and Coatings Technology. 2010. Vol. 205. pp. 1697–1701. 2. Song G. Corrosion of magnesium alloys. UK, s.l.: Woodhead Publ., 2011. 640 p. 3. Williams G., McMurray H. N., Grace R. Inhibition of magnesium localised corrosion in chloride containing electrolyte. Electrochimica Acta. 2010. Vol. 55. pp. 7824–7833. 4. Arrabal R., Matykina E., Viejo F., Skeldon P., Thompson G. E. Corrosion resistance of WE43 and AZ91D magnesium alloys with phosphate PEO coatings Corrosion Science. 2008. Vol. 50. pp. 1744–1752. 5. Coy A. E., Viejo F., Skeldon P., Thompson G. E. Susceptibility of rare-earthmagnesium alloys to micro-galvanic corrosion. Corrosion Science. 2010. Vol. 52. pp. 3896–3906. 6. Shi Z., Liu M., Atrens A. Measurement of the corrosion rate of magnesium alloys using Tafel extrapolation. Corrosion Science. 2010. Vol. 52. pp. 579–588. 7. Fu J., Chen T., Wang M., Yang N., Li S., Wang Y., Liu X. Acid and alkaline dual stimuli-responsive mechanized hollow mesoporous silica nanoparticles as smart nanocontainers for intelligent anticorrosion coatings. ACSNANO. 2013. Vol. 7 (12). pp. 11397–11408. 8. Sidorova M. V., Sinebrukhov S. L., Khrisanfova O. A., Gnedenkov S. V. Effect of PEO-modes on the electrochemical and mechanical properties of coatings on MA8 magnesium alloy. Physics Procedia. 2012. Vol. 23. pp. 90–93. 9. Gnedenkov A. S., Sinebryukhov S. L., Mashtalyar D. V., Gnedenkov S. V. Features of the corrosion processes development at the magnesium alloys surface. Surface and Coatings Technology. 2013. Vol. 225. pp. 112–118. 10. Luo H., Cai Q., He J., Wei B. Preparation and properties of composite ceramic coating containing Al2O3–ZrO2–Y2O3 on AZ91D magnesium alloy by plasma electrolytic oxidation. Current Applied Physics. 2009. Vol. 9. pp. 1341–1346. 11. Song Y. W., Shan D. Y., Han E. H. High corrosion resistance of electroless composite plating coatings on AZ91D magnesium alloys. Electrochimica Acta. 2008. Vol. 53. pp. 2135–2143. 12. Chen F., Zhou H., Yao B., Qin Z., Zhang Q. Corrosion resistance property of the ceramic coating obtained through microarc oxidation on the AZ31 magnesium alloy surfaces. Surface and Coatings Technology. 2007. Vol. 201. pp. 4905–4908. 13. Zhao M., Liu M., Song G.-L, Atrens A. Influence of the β-phase morphology on the corrosion of the Mg alloy AZ91. Corrosion Science. 2008. Vol. 50 (7). pp. 1939–1953. 14. Zhao M. C., Schmutz P., Brunner S., Liu M., Song G., Atrens A. An exploratory study of the corrosion of Mg alloys during interrupted salt spray testing. Corrosion Science. 2009. Vol. 51. pp. 1277–1292. 15. Gnedenkov S. V., Sinebryukhov S. L., Mashtalyar D. V., Egorkin V. S., Sidorova M. V., Gnedenkov A. S. Composite polymer-containing protective coatings on magnesium alloy MA8. Corrosion Science. 2014. Vol. 85. pp. 52–59. |