CORROSION RESISTANCE OF VANADIUM-ALLOYED ZINC GALVANIZED COATINGS

The possibility of vanadium-alloyed zinc coatings electrochemical deposition from alkaline electrolyte containing 5.5 g/l Na3VO4 has been shown. Vanadium content in zinc coating depends on cathodic current density and is 1.5–4.1% under cathodic deposition current 1–3 A/dm2. The process of chemical passivation of galvanic coating have been studied in sodium vanadate solution at 20–40 °C temperature, with pH 3 kept constant by phosphoric acid. It has been shown by XRD method that conversion coatings formed consist of Zn, ZnO, V2O5, V(HPO4)2, Zn3(PO4)2. The corrosion current of passivated alloyed zinc coatings deposited at 2 A/dm2 was 4.1–12.6 times less than corrosion current of alloyed zinc in 3% NaCl solution. Conversion coatings demonstrate high protective ability when treated with lead acetate solution (50 g/dm3 ). 

1. Kazimierczak H., Ozga P., Berent K., Kot M., “Microstructure and micromechanical properties of electrodeposited Zn–Mo coatings on steel”, Journal of Alloys and Compounds, 2015, vol. 636, pp. 156–164.

2. Nalivaiko E. V., Gorovaia E. Iu., Bobrikova I. G., Selivanov V. N., “Properties of zinc-nickel alloy coatings obtained from ammonium chloride electrolytes”, Inzhenernyi vestnik Dona [Engineering Bulletin of Don], 2013, no. 1, pp. 45–54.

3. Angles R. M., “The electrodeposition of tin-zinc alloys”, Journal of the Electrodepositors’ Technical Society, 2006, vol. 21, pp. 45–64.

4. Cuthbertson J. W., Angles R. M., “The electrodeposition and properties of tin-zinc alloys”, Journal of the Electrodepositors’ Technical Society, 2008, vol. 94, pp. 73–98.

5. Fratesi R., Roventi G., Branca C., Simoncini S., “Corrosion resistance of Zn–Co alloy coatings”, Surface and Coatings Technology, 1994, vol. 63, pp. 97–103.

6. Ariga K., Kanda K., “A consideration on the corrosion resistance of Zn–Co based Co-electrogalvanized steel sheet”, Tetsu-to-Hagane, 1980, vol. 7, pp. 797–806.

7. Szczygieł B., Laszczyn´ska A., Tylus W., “Microstructure and micromechanical properties of electrodeposited Zn–Mo coatings on steel”, Surface and Coatings Technology, 2010, vol. 204, pp. 1438–1444.

8. Atrashkova V. V., Atrashkov V. K., Gerasimenko A. A., “Electrodeposition of zinc–molybdenum coatings”, Zashchita metallov [Protection of metals], 1995, no. 3, pp. 313–314.

9. Ozga P., Swiatek Z., Debski A., Influence of molybdenum on properties of Zn–Ni and Zn–Co alloy coatings, Instytut Metali Niezelaznych, Gliwice, PL, 2010.

10. Ivanova V. P., Panteleenko F. I., Vosstanovlenie detalei mashin [Reconstruction of machine parts], in Ivanov V. P. (ed.), Mashinostroenie, Moscow, RU, 2003.

11. Fedrizzi L., Ciaghi L., Bonora P.L., Fratesi R., Roventi G., “Corrosion behaviour of electrogalvanized steel in sodium chloride and ammonium sulphate solutions”, Journal of Applied Electrochemistry, 1992, vol. 22, pp. 247–254.

12. Liu D., Yang Z., Wang Z., “Synthesis and evaluation of corrosion resistance of molybdate-based conversion coatings on electroplated zinc”, Surface & Coatings Technology, 2010, vol. 205, pp. 2328–2334.

13. Magalhães A. A. O., Margarit I. C. P., Mattos O. R., “Molybdate conversion coatings on zinc surfaces”, Journal of Electroanalytical Chemistry, 2004, vol. 572, pp. 433–440.

14. Fachikov L., Ivanova D., “MoO4 2– as a soluble inhibitor for Zn in neutral and alkaline solutions”, Applied Surface Science, 2012, vol. 258, pp. 10160–10167.

15. Dikinis V., Niaura G., Rėzaitė V., Demčenko I., “Synthesis and evaluation of corrosion resistance of molybdate-based conversion coatings on electroplated zinc”, Transactions of the Institute of Metal Finishing, 2007, vol. 85, pp. 87–93.

16. Song Y. W., Shan D. Y., Chen R. S., Han E. H., “Corrosion resistance of chromium-free conversion coatings deposited on electrogalvanized steel from potassium hexafluorotitanate(IV) containing bath”, Surface & Coatings Technology, 2010, vol. 204, pp. 3182–3187.

17. Guan H., Buchheit R. G., “Corrosion Protection of Aluminum Alloy 2024-T3 by Vanadate Conversion Coatings”, Сorrosion, 2004, vol. 60, no. 3, pp. 285–296.

18. Hamdy A. S., Beccaria A. M., “A vanadium-based conversion coating as chromate replacement for electrogalvanized steel substrates”, Corrosion Prevention and Control, 2001, vol. 48, pp. 143–149.

19. Zou Z., Li N., Li D., Liu H., Mu S., “A vanadium-based conversion coating as chromate replacement for electrogalvanized steel substrates”, Journal of Alloys and Compounds, 2011, vol. 509, pp. 503–507.

20. Wang P., Dong X., Schaefer W., “Structure and water-barrier properties of vanadate-based corrosion inhibitor films”, Corrosion Science, 2010, vol. 52, pp. 943–949.

21. Semenova I. V., Khoroshilov A. V., Florianovich G. M., Korroziia i zashchita ot korrozii [Corrosion and corrosion protection], FIZMATLIT, Moscow, RU, 2002.