Electrochemical corrosion behavior of plasma sprayed Cr2O3-25TiO2 composite coatings

Song, Q. H.; Hao, F. S.; Zhang, Y. F.; Li, Q.; Li, J. J.

doi:10.15251/djnb.2023.182.751

DJNB

2023

DOI: 10.15251/djnb.2023.182.751

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Electrochemical corrosion behavior of plasma sprayed Cr2O3-25TiO2 composite coatings

Q. H. Song¹,

F. S. Hao²,

Y. F. Zhang³

et al.

Abstract: In this paper, Cr2O3-25TiO2 composite coatings were prepared on the surface of steel structure samples by atmospheric plasma spraying. The phase composition, microstructure, microhardness and long-term immersion corrosion behavior in 3.5 wt.% NaCl solution of Cr2O3-25TiO2 composite coatings were studied. The corrosion behavior of Cr2O3-25TiO2 composite coating was analyzed by potentiodynamic polarization and electrochemical impedance spectroscopy. The impedance data were fitted into an appropriate equivalent c… Show more

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2024

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Corrosion Behaviour of a Cr2O3 Coating on Mild Steel in Synthetic Mine Water

Hango,

Cornish,

van der Merwe

et al. 2024

International Journal of Corrosion

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The Cr2O3 coating on the surface of ASTM A516 Grade 70 mild steel substrates was developed using the thermal plasma spraying process for protection against corrosion and wear. The microstructural behaviours for both coating and substrate were analysed using SEM and XRD techniques. The corrosion behaviours of the coatings and substrate in synthetic mine water with varying pH values (6, 3, and 1) were evaluated according to ASTM standards for potentiodynamic polarisation measurements. Tafel plots were drawn to determine the corrosion rates. Vickers hardness of the coatings and substrate were measured. The Cr2O3 coating exhibited cracks due to the solidification and cooling process, as well as some pores between the top and bonding layers caused by unmelted or partially melted particles. The corrosion tests revealed that a decrease in pH levels led to increased corrosion rates in both samples. The Cr2O3 coating demonstrated superior corrosion resistance, ranging from 0.036±0.003 mm/year to 0.110±0.004 mm/year, compared to the mild steel substrate, which ranged from 0.262±0.021 mm/year to 0.336±0.026 mm/year, across all pH values. Moreover, it exhibited significantly greater hardness (1260±77 HV3) than the mild steel substrate (180±14 HV3). The lower corrosion rates and higher hardness of Cr2O3 coating than the mild steel substrate make it a suitable coating in applications where corrosion resistance and high hardness properties are essential.

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Corrosion Behaviour of a Cr2O3 Coating on Mild Steel in Synthetic Mine Water

Hango,

Cornish,

van der Merwe

et al. 2024

International Journal of Corrosion

View full text Add to dashboard Cite

show abstract

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Electrochemical corrosion behavior of plasma sprayed Cr2O3-25TiO2 composite coatings

Cited by 1 publication

References 17 publications

Corrosion Behaviour of a Cr2O3 Coating on Mild Steel in Synthetic Mine Water

Corrosion Behaviour of a Cr2O3 Coating on Mild Steel in Synthetic Mine Water

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