Faraday 1st Law of Anodic Polarized Oxides as Zirconia Ceramics

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J. Padmaja; D. Anitha Ranga Sree

Faraday 1st Law of Anodic Polarized Oxides as Zirconia Ceramics

Authors: J. Padmaja, D. Anitha Ranga Sree

Unique Paper ID: 156083
PageNo: 813-815

Keywords: Anodic polarization by faraday 1st law Zirconia Ceramics Faradaic efficiency incorporated inorganic anions.

DOI: doi.org/10.64643/IJIRTV9I2-156083-459

Abstract:
Anodic polarization of biomaterial zircaloy-4 produced interference-coloured thin oxides growth involved the passage of a current observed upto the breakdown voltage, which is varied. The growth kinetics of zirconia ceramic have been studied by Faraday 1st law by inorganic electrolytes as 0.1M potassium dihydrogen orthophosphate and 0.1M cupric sulphate at a constant current density, 8mA.cm-Â² at room temperature Thickness estimates were made from capacitance data. The formation rate, faradaic efficiency and differential field were found to increase at constant current density for zirconia ceramic. Investigated the Growth kinetics of different anodization voltages shown coloured zirconia formed on the surface of entire thin oxide film by the incorporation of inorganic anions from the inorganic electrolytes, such as PO3-4 and sulphate anions ( SO2-4 ) have shown better improvement. Zirconia ceramics applicable in medical sciences as implant material is recorded for exhibiting enhanced mechanical properties as well as biocompatibility in hip orthroplasty as well as bone implants. Further research needs for betterment of human kind.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{156083,
        author = {J. Padmaja and D. Anitha Ranga Sree},
        title = {Faraday 1st Law of Anodic Polarized Oxides as Zirconia Ceramics},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {9},
        number = {2},
        pages = {813-815},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=156083},
        abstract = {Anodic polarization of biomaterial zircaloy-4 produced interference-coloured thin oxides growth involved the passage of a current observed upto the breakdown voltage, which is varied. The growth kinetics of zirconia ceramic have been studied by Faraday 1st law by inorganic electrolytes as 0.1M potassium dihydrogen orthophosphate and 0.1M cupric sulphate at a constant current density, 8mA.cm-Â² at room temperature Thickness  estimates were made from capacitance data. The formation rate, faradaic efficiency and differential field were found to increase at constant current density for zirconia ceramic. Investigated the Growth kinetics of different anodization voltages shown coloured zirconia formed on the surface of entire thin oxide film by the incorporation of inorganic anions  from the inorganic electrolytes, such as PO3-4 and sulphate anions ( SO2-4 ) have shown better improvement. Zirconia ceramics applicable in medical sciences as implant material is recorded for exhibiting enhanced mechanical properties as well as biocompatibility in hip orthroplasty as well as bone implants. Further research needs for betterment of human kind.},
        keywords = {Anodic polarization by faraday 1st law, Zirconia Ceramics, Faradaic efficiency, incorporated inorganic anions.},
        month = {November},
        }

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Cite This Article

Padmaja, J., & Sree, D. A. R. (2025). Faraday 1st Law of Anodic Polarized Oxides as Zirconia Ceramics. International Journal of Innovative Research in Technology (IJIRT). https://doi.org/doi.org/10.64643/IJIRTV9I2-156083-459

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