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Tytuł artykułu

Microstructure and Corrosion Behaviour of Co-Mo/TiO2 Nano-Composite Coatings Formed on Disk and Wire Electrodes by Electrodeposition

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The influence of the electrode geometry on the microstructure and corrosion behaviour of Co-Mo nano-crystalline coatings elaborated by electrodeposition is studied. The corrosion behaviour was determined in the Ringer’s solution at 25°C. Electrodeposition mechanisms are also discussed as a function of the electrode geometry. The electrode geometry was found to affect the growth rate and, under certain conditions, the microstructure (existence of channels and pores). It does not have influence on the corrosion behaviour.
Twórcy
autor
  • AGH-University of Science and Technology, Faculty of Foundry Engineering, Reymonta 23 Str., 30-059 Krakow, Poland
autor
  • ICB UMR 6303 CNRS – Université Bourgogne Franche-Comté, Dijon, France
  • AGH-University of Science and Technology, Faculty of Foundry Engineering, Reymonta 23 Str., 30-059 Krakow, Poland
  • ICB UMR 6303 CNRS – Université Bourgogne Franche-Comté, Dijon, France
Bibliografia
  • [1] H. Krawiec, V. Vignal, M. Latkiewicz, F. Herbst, Appli. Surf. Sci. 427 (7), 1124-1134 (2018).
  • [2] E. Gomez, E. Pellicer, X. Alcobé, J. Solid State Electrochem. 8 (7), 497-504 (2004).
  • [3] V. S. Kublanovskii, Y. S. Yapontseva, Y. N. Troshchenkov, V. A. Gromova, Russ. J. Appl. Chem. 83 (3), 440-444 (2010).
  • [4] Q. F. Zhou, L. Y. Lu, L. N. Yu, X. G. Xu, Y. Jiang, Electrochim. Acta 106, 258-263 (2013).
  • [5] Y. Messaoudi, N. Fenineche, A. Guittoum, A. Azizi, G. Schmerber, A. Dinia, J. Mater. Sci.: Mater. Electron. 24 (8), 2962-2969 (2013).
  • [6] E. Gomez, E. Pellicer, E. Valles, J. Electroanal. Chem. 556, 137-145 (2003).
  • [7] E. Pellicer, E. Gomez, E. Valles, Surf. Coat. Tech. 201 (6), 2351-2357 (2006).
  • [8] V. Q. Kinh, E. Chassaing, M. Saurat, Electrodepos. Surface Treat. 3 (3), 205-212 (1975).
  • [9] L. Anicai, S. Costovici, A. Cojocaru, A. Manea, T. Visan, Trans. IMF 93 (6), 302-312 (2015).
  • [10] E. Gomez, E. Pellicer, E. Vallés, Electrochem. Commun. 6 (8), 853-859 (2004).
  • [11] E. Gómez, E. Pellicer, E. Vallés, J. Electroanal. Chem. 568, 29-36 (2004).
  • [12] E. Gómez, E. Pellicer, E. Vallés, J. Electroanal. Chem. 517, 109-116 (2001).
  • [13] E. Gómez, E. Pellicer, E. Vallés, Surf. Coat. Tech. 197, (2-3) 238-246 (2005).
  • [14] A. Subramania, A. R. Sathiya Priya, V. S. Muralidharan, Int. J. Hydrogen Energy 32 (14), 2843-2847 (2007).
  • [15] H. Krawiec, V. Vignal and M. Latkiewicz, Mater. Chem. Phys. 183, 121-130 (2016).
  • [16] H. Krawiec, V. Vignal, A. Krystianiak, O. Heintz, M. Latkiewicz, Surf. Coat. Tech. Submitted.
  • [17] H. Krawiec, V. Vignal, A. Krystianiak, Y. Gaillard, S. Zimowski, Appl. Surf. Sci. 475, 162-174 (2019).
Uwagi
EN
1. This work was supported by the bilateral programme PHC POLONIUM (project #35214UK). The French Embassy in Poland and the Ministry of Foreign Affairs (France) are warmly acknowledged for providing a cotutelle PhD grant to M.L.
PL
2. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7372a923-8b13-4562-bb46-bdadbda57475
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