Change of configuration, morphology and roughness of metals being electrodeposited at the force influence

Authors

DOI:

https://doi.org/10.15587/1729-4061.2014.23967

Keywords:

phase formation, metal being electrodeposited, liquid state, configuration, morphology, roughness, electrochemical cell

Abstract

The aim of the work was experimental verification of validity of the phenomenon of phase formation through a stage of liquid state in metals being electrodeposited. The idea of the work was based on the known fact that the main difference between solid and liquid states of metal is the value of fluidity. Therefore, if phase formation of metal during electrodeposition passes a stage of liquid state than changes of configuration, morphology and roughness of its surface at the external force influence parallel to the crystallization front should be expected. Configuration of the formed deposit should have anisotropic form elongated in the direction of the force influence. Surface morphology of such deposit should be smoother and its surface should have lesser roughness in comparison with the deposit electrodeposited in usual conditions. To realize the idea of the work the electrochemical cell for obtaining of metals being electrodeposited at the external force influence in conditions of restrained deposit formation was developed and constructed. On the basis of model experiments the effects of formation of anisotropic configuration of the deposit of metal being electrodeposited, smoothing of morphol­ogy and decrease of roughness of its surface under the influence of the external force directed parallel to the crystallization front were established. The obtained result proves the validity of the phenom­enon of phase formation through a stage of liquid state in metals being electrodeposited. 

Author Biographies

Олег Борисович Гирин, Ukrainian State University of Chemical Technology Prospekt Gagarina, 8, Dnipropetrovsk, Ukraine 49005

Doctor of Science (Engineering), Professor, Head of the Department

Department of Materials Science

Игорь Демьянович Захаров, Ukrainian State University of Chemical Technology Prospekt Gagarina, 8, Dnipropetrovsk, Ukraine 49005

Senior Researcher

Department of Materials Science

References

  1. Girin, O. B. Phenomenon of Precipitation of Metal Being Electrodeposited, Occurring via Formation of an Undercooled Liquid Metal Phase and its Subsequent Solidification. Part 1. Experimental Detection and Theoretical Grounding [Text] / O. B. Girin // Materials Development and Processing. – Weinheim : WILEY-VCH, 2000. – Vol. 8. – P. 183–188.
  2. Girin, O. B. Phase Formation through a Stage of Liquid State in Metallic Materials being Electrodeposited: Recent Experimental Proofs [Text] / O. B. Girin // International Journal of Material Science. – 2012. – Vol. 2, №4. – P. 108–118.
  3. Смирнов, А. Н. Крупный слиток [Текст] : монография / А. Н. Смирнов, С. Л. Макулов, В. М. Сафонов, А. Ю. Цупрун. – Донецк : Донецкий НТУ, 2009. – 278 с.
  4. Гирин, О. Б. Увеличение плотности электроосаждаемых металлов под действием центробежной силы [Текст] / О. Б. Гирин, И. Д. Захаров // Восточно-Европейский журнал передовых технологий. – 2011. – Т. 5, № 5 (53). – С. 4–7.
  5. Ямпольский, А. М. Краткий справочник гальванотехника [Текст] / А. М. Ямпольский, В. А. Ильин. – Л. : Машиностроение, 1981. – 269 с.
  6. Milchev, A. Electrocrystallization. Fundamentals of Nucleation and Growth [Text] / A. Milchev. – New York : Kluwer Academic Publishers, 2002. – 265 p.
  7. Paunovic, M. Fundamentals of Electrochemical Deposition [Text] / M. Paunovic, M. Schlesinger – Hoboken : WILEY-INTER¬SCIENCE, 2006. – 375 p.
  8. Budevski, E. Electrochemical Phase Formation and Growth [Text] / E. Budevski, G. Staikov, W. J. Lorenz – Weinheim : WI¬LEY-VCH, 2008. – 408 p.
  9. Kozlov, V. M. Structure Formation During Electrocrystallization of Metal Films [Text] / V. M. Kozlov, L. P. Bicelli // Handbook of Thin Film Materials. – London : Academic Press. – 2002. – Vol. 1 – P. 559–586.
  10. Milchev, A. Electrocrystallization: Nucleation and growth of nano-clusters on solid surfaces [Text] / A. Milchev // Russian Journal of Electrochemistry. – 2008. – Vol. 44, № 6. – P. 619–645.
  11. Girin, O. B. (2000). Phenomenon of Precipitation of Metal Being Electrodeposited, Occurring via Formation of an Undercooled Liquid Metal Phase and its Subsequent Solidification. Part 1. Experimental Detection and Theoretical Grounding. Materials Development and Processing. Weinheim, Germany: WILEY-VCH, 8, 183–188.
  12. Girin, O. B. (2012). Phase Formation through a Stage of Liquid State in Metallic Materials being Electrodeposited: Recent Experimental Proofs. International Journal of Material Science, 2 (4), 108–118.
  13. Smirnov, A. N., Makulov, S. L., Safonov, V. M., Tsuprun, A. Yu. (2009). A Large Ingot. Donetsk, Ukraine: Donetsk National Techni¬cal University, 278.
  14. Girin, O. B., Zakharov, I. D. (2011). Increase of Density of Metals Being Electrodeposited Under the Influence of a Centrifugal Force. Eastern-European Journal of Enterprise Techologies, Vol. 5, №5 (53), 4–7.
  15. Yampol’skii, A. M., Il’in, V. A. (1981). Brief electroplater’s handbook. Leningrad, USSR: Engineer, 269.
  16. Milchev, A. (2002). Electrocrystallization. Fundamentals of Nucleation and Growth. New York, USA: Kluwer Academic Publishers, 265.
  17. Paunovic, M., Schlesinger, M. (2006). Fundamentals of Electrochemical Deposition. Hoboken, USA: WILEY-INTERSCIENCE, 375.
  18. Budevski, E., Staikov, G., Lorenz, W. J. (2008). Electrochemical Phase Formation and Growth. Weinheim, Germany: WILEY-VCH, 408.
  19. Kozlov, V. M., Bicelli, L. P. (2002). Structure Formation During Electrocrystallization of Metal Films. Handbook of Thin Film Materials. London, Great Britain: Academic Press, 1, 559–586.
  20. Milchev, A. (2008). Electrocrystallization: Nucleation and growth of nano-clusters on solid surfaces. Russian Journal of Electrochemistry, 44 (6), 619–645.

Published

2014-06-22

How to Cite

Гирин, О. Б., & Захаров, И. Д. (2014). Change of configuration, morphology and roughness of metals being electrodeposited at the force influence. Eastern-European Journal of Enterprise Technologies, 3(5(69), 39–43. https://doi.org/10.15587/1729-4061.2014.23967