Study of metal electrodeposition by means of simulated and experimental polarization curves: Zinc deposition on steel electrodes

Zinc is one of the most used metal for galvanic coating, being applied on steel by hot dip galvanizing, electroplating or thermal spraying. The study of zinc electrodeposition is usually performed by interpreting polarization curves. Despite the efforts in investigating polarization curves, a number...

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Bibliographic Details
Published in:Electrochimica acta 2019-06, Vol.309, p.86-103
Main Authors: Ohba, M., Scarazzato, T., Espinosa, D.C.R., Panossian, Z.
Format: Article
Language:English
Subjects:
Butler-volmer equation
Computer simulation
Electrochemical cells
Electrodeposition
Electroplating
Hot dip galvanizing
Hot dipping
Immersion coating
Polarization
Polarization curves
Spraying
Underpotential deposition
Zinc
Zinc electrodeposition
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Summary:Zinc is one of the most used metal for galvanic coating, being applied on steel by hot dip galvanizing, electroplating or thermal spraying. The study of zinc electrodeposition is usually performed by interpreting polarization curves. Despite the efforts in investigating polarization curves, a number of gaps remain unfilled. This work performed a study on polarization curves for zinc deposition on steel. The experimental curves were obtained in an electrochemical cell following well-established procedures. The theoretical curves were modeled considering individual Butler-Volmer equations for each reaction. As results, qualitative and quantitative approaches of zinc deposition on zinc and on steel were established and a mechanism for interpreting the obtained polarization curves was proposed. A thermodynamic description for the occurrence of underpotential deposition was also presented. •Zinc deposition was investigated by means of polarization curves.•A thermodynamic approach for the underpotential deposition was presented.•A qualitative approach was established for zinc deposition on steel.•A quantitative approach was established for zinc deposition on zinc.•A mechanism for interpreting the obtained polarization curves was proposed.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2019.04.074