Corrosion Behavior of ZnMn Coatings Magnetoelectrodeposited

The zinc–manganese alloy coatings have been obtained without and with superimposition of a 0.3 T magnetic field in a parallel direction to the working surface electrode. The electrodeposition during 30 min, for two applied potentials (E = −1.6 V/SCE and E = −1.8 V/SCE) in an electrochemical bath wit...

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Bibliographic Details
Published in:Magnetochemistry 2022-06, Vol.8 (7), p.69
Main Authors: Allam, Lamia, Lazar, Florica S., Chopart, Jean-Paul
Format: Article
Language:English
Subjects:
Alloys
Chemical composition
Chemical Sciences
Chloride
corrosion
Corrosion potential
Corrosion resistance
Deposits
EIS
Electrochemical impedance spectroscopy
Electrodeposition
Electrodes
Fluid flow
magnetic field
Magnetic fields
Magnetohydrodynamics
Manganese base alloys
Material chemistry
MnZn3
Morphology
Plating
Protective coatings
Scanning electron microscopy
Spectrum analysis
Zinc
Zinc coatings
ZnMn alloys
η phase
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Summary:The zinc–manganese alloy coatings have been obtained without and with superimposition of a 0.3 T magnetic field in a parallel direction to the working surface electrode. The electrodeposition during 30 min, for two applied potentials (E = −1.6 V/SCE and E = −1.8 V/SCE) in an electrochemical bath with the (Zn2+)/(Mn2+) concentration ratio equal to 0.5. The structural, the morphological, and the chemical composition characteristics of the deposits have been studied. It has been found that the applied potentials modify the structural properties of the deposits, η phase-rich deposits elaborated for E = −1.6 V/SCE, and MnZn3-rich deposits elaborated for E = −1.8 V/SCE. The magnetohydrodynamic convection favors the manganese content of the deposit. The corrosion behavior of these coatings has been analyzed in 3.5% NaCl solution by free corrosion potential measurements and electrochemical impedance spectroscopy. The different results show that the corrosion resistance of these zinc–manganese alloy coatings is linked to their structure, to their composition, and to the magnetic field amplitude used during the electrodeposition process.
ISSN:2312-7481
2312-7481
DOI:10.3390/magnetochemistry8070069