Research Article
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Year 2018, , 22 - 26, 01.01.2018
https://doi.org/10.31127/tuje.330672

Abstract

References

  • Ammal, P. R., Prajila, M., Joseph, A. (2017). “Physicochemical studies on the inhibitive properties of a 1,2,4-triazole Schiff’s base, HMATD, on the corrosion of mild steel in hydrochloric acid”, Egyptian Journal of Petroleum. (In press)
  • Bardal, A. (2007). Corrosion and Protection Engineering Materials and Processes. Springer Science & Business Media, USA, 315s.
  • Bhupinder, M., Manju, M. (2015). Organic Chemistry, Second Edition. PHI Learning Pvt. Ltd., Delhi, 1204s.
  • Cordas, C. M., Guerra, L. T., Xavier, C., Moura, J. J. G. (2008). “Electroactive biofilms of sulphate reducing bacteria.” Electrochimica Acta, Vol. 54, 29-34.
  • Çek, N. (2014). “Reduction of copper corrosion effect using vaseline”, 13th International Corrosion Symposium, Elazığ, Turkey, pp. 155-158.
  • Hasan, B. O. (2014). “Galvanic corrosion of carbon steel–brass couple in chloride containing water and the effect of different parameters”. Journal of Petroleum Science and Engineering, Vol. 124, 137-145.
  • Shi, X., Rock, S. E., Turk, M. C., Roy, D. (2012). “Minimizing the effects of galvanic corrosion during chemical mechanical planarization of aluminum in moderately acidic slurry solutions”, Materials Chemistry and Physics, Vol. 136, 1027-1037.
  • Song, G., Johannesson, B., Hapugoda, S., StJohn, D. (2004). “Galvanic corrosion of magnesium alloy AZ91D in contact with an aluminium alloy, steel and zinc”. Corrosion Science, Vol. 46, 955-977.
  • Cicek, V. (2017). Corrosion Engineering and Cathodic Protection Handbook: With an Extensive Question and Answer Section. John Wiley & Sons, USA, 768s.
  • Taher, N. M. and Al Jabab, A. S. (2003). “Galvanic corrosion behavior of implant suprastructure dental alloys”. Dental Materials, Vol. 19, Is. 1, 54-59.
  • Tribak, Z., Haoudi, A., Skalli, M. K., Rodi, Y. K., El Azzouzi, M., Aouniti, A., Hammouti, B., Senhaji, O. (2017). “5-Chloro-1H-indole-2,3-dione derivative as corrosion inhibitor for mild steel in 1M H3PO4: weight loss, electrochemical and SEM studies”, Journal of Materials and Environmental Sciences, Vol. 8, No. 1, 298-309.

GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL

Year 2018, , 22 - 26, 01.01.2018
https://doi.org/10.31127/tuje.330672

Abstract

Detection and control of galvanic corrosion is a critical aspect of engineering for the chemical processes used in the fabrication of metals, alloys and materials industry. Galvanic corrosion can occur when two metals having different status in the electrochemical ambient are configured in mutual interaction within the galvanic cell structure and are exposed to the ion conducting electrolyte. In this study, ion-containing water was used as an electrolyte, the zinc as the anode electrode, copper as the cathode was used as an electrode, and a galvanic cell was fabricated. The formation of corrosion products with time on zinc anode reduced the voltage and current in galvanic cell considerable and anode film layer of considerable increase. Time-dependent experiments have provided good sources of information about the performance of the zinc anode electrode and the copper cathode electrode in the galvanic cell. 

References

  • Ammal, P. R., Prajila, M., Joseph, A. (2017). “Physicochemical studies on the inhibitive properties of a 1,2,4-triazole Schiff’s base, HMATD, on the corrosion of mild steel in hydrochloric acid”, Egyptian Journal of Petroleum. (In press)
  • Bardal, A. (2007). Corrosion and Protection Engineering Materials and Processes. Springer Science & Business Media, USA, 315s.
  • Bhupinder, M., Manju, M. (2015). Organic Chemistry, Second Edition. PHI Learning Pvt. Ltd., Delhi, 1204s.
  • Cordas, C. M., Guerra, L. T., Xavier, C., Moura, J. J. G. (2008). “Electroactive biofilms of sulphate reducing bacteria.” Electrochimica Acta, Vol. 54, 29-34.
  • Çek, N. (2014). “Reduction of copper corrosion effect using vaseline”, 13th International Corrosion Symposium, Elazığ, Turkey, pp. 155-158.
  • Hasan, B. O. (2014). “Galvanic corrosion of carbon steel–brass couple in chloride containing water and the effect of different parameters”. Journal of Petroleum Science and Engineering, Vol. 124, 137-145.
  • Shi, X., Rock, S. E., Turk, M. C., Roy, D. (2012). “Minimizing the effects of galvanic corrosion during chemical mechanical planarization of aluminum in moderately acidic slurry solutions”, Materials Chemistry and Physics, Vol. 136, 1027-1037.
  • Song, G., Johannesson, B., Hapugoda, S., StJohn, D. (2004). “Galvanic corrosion of magnesium alloy AZ91D in contact with an aluminium alloy, steel and zinc”. Corrosion Science, Vol. 46, 955-977.
  • Cicek, V. (2017). Corrosion Engineering and Cathodic Protection Handbook: With an Extensive Question and Answer Section. John Wiley & Sons, USA, 768s.
  • Taher, N. M. and Al Jabab, A. S. (2003). “Galvanic corrosion behavior of implant suprastructure dental alloys”. Dental Materials, Vol. 19, Is. 1, 54-59.
  • Tribak, Z., Haoudi, A., Skalli, M. K., Rodi, Y. K., El Azzouzi, M., Aouniti, A., Hammouti, B., Senhaji, O. (2017). “5-Chloro-1H-indole-2,3-dione derivative as corrosion inhibitor for mild steel in 1M H3PO4: weight loss, electrochemical and SEM studies”, Journal of Materials and Environmental Sciences, Vol. 8, No. 1, 298-309.
There are 11 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Nurettin Çek

Publication Date January 1, 2018
Published in Issue Year 2018

Cite

APA Çek, N. (2018). GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL. Turkish Journal of Engineering, 2(1), 22-26. https://doi.org/10.31127/tuje.330672
AMA Çek N. GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL. TUJE. January 2018;2(1):22-26. doi:10.31127/tuje.330672
Chicago Çek, Nurettin. “GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL”. Turkish Journal of Engineering 2, no. 1 (January 2018): 22-26. https://doi.org/10.31127/tuje.330672.
EndNote Çek N (January 1, 2018) GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL. Turkish Journal of Engineering 2 1 22–26.
IEEE N. Çek, “GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL”, TUJE, vol. 2, no. 1, pp. 22–26, 2018, doi: 10.31127/tuje.330672.
ISNAD Çek, Nurettin. “GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL”. Turkish Journal of Engineering 2/1 (January 2018), 22-26. https://doi.org/10.31127/tuje.330672.
JAMA Çek N. GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL. TUJE. 2018;2:22–26.
MLA Çek, Nurettin. “GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL”. Turkish Journal of Engineering, vol. 2, no. 1, 2018, pp. 22-26, doi:10.31127/tuje.330672.
Vancouver Çek N. GALVANIC CORROSION OF ZINC ANODE AND COPPER CATHODE CELL. TUJE. 2018;2(1):22-6.
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