The role of microbes in the inhibition of the atmospheric corrosion of steel caused by air pollutants

Oshin, Temitope A.; Fakinle, Bamidele Sunday; Oyewole, Olamide

doi:10.1515/corrrev-2023-0032

Corrosion Reviews

2023

DOI: 10.1515/corrrev-2023-0032

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The role of microbes in the inhibition of the atmospheric corrosion of steel caused by air pollutants

Temitope A. Oshin

Bamidele Sunday Fakinle

Olamide Oyewole

Abstract: Due to the presence of corrosive contaminants in the air, metals naturally corrode when exposed to the environment. Air pollution, in conjunction with climate conditions, may significantly deteriorate outdoor materials, especially metals and hence, the need for corrosion control. Using inhibitors is a powerful strategy that is frequently employed for corrosion prevention and control. Chemical inhibitors are often used. However, due to their low effectiveness and stringent environmental regulations, the majorit… Show more

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2024

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Corrosion of Mild Steel and Galvanized Steel in SO2 Enclosures: The Incidence of Negative Gravimetric Corrosion Rates

Oshin,

Fakinle,

Oyewole

2024

TOCENGJ

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Background Corrosion rates are frequently calculated from the weight loss of material samples, and they provide a measure of the degree of material degradation that has occurred when exposed to corrosive environments. However, some metal samples that have been exposed to corrosive environments experience negative weight loss, or more accurately, positive weight gain, which results in a negative corrosion rate. In the corpus of research on corrosion studies, there is little evidence for the occurrence of negative gravimetric corrosion rate in metals. Methods In this work, we employed gravimetric analysis to study the atmospheric corrosion of mild steel and galvanized steel in Sulphur (IV) oxide (SO2) enclosures or chambers for a period of 2 weeks and 4 weeks. The results indicated weight gain of the metals after exposure to the SO2-polluted atmospheric environment in the enclosures, thereby leading to negative corrosion rates. In seeking more insight to explain the observed phenomenon, XRF (X-Ray Fluorescence), SEM (Scanning electron microscopy) and FTIR (Fourier Transform Infrared Spectroscopy) analyses were conducted on the metal coupons. Results While the XRF results show a consistent reduction in the iron (Fe) content of the samples with a lesser percent iron composition observed with increasing exposure time, the SEM results reveal the formation of crystalline corrosion products on the metal surfaces. The FTIR results also indicated the pronounced presence of hydroxyl functional groups. Conclusion Both the XRF and SEM results indicate that the active components of the metal samples are being used up in the surface electrochemical reactions and are converted to visible corrosion products which are responsible for the weight gain. Concluding from the FTIR results, the presence of corrosion products Fe(OH)2 and Fe(OH)3 is confirmed among others.

show abstract

Corrosion of Mild Steel and Galvanized Steel in SO2 Enclosures: The Incidence of Negative Gravimetric Corrosion Rates

Oshin,

Fakinle,

Oyewole

2024

TOCENGJ

View full text Add to dashboard Cite

show abstract

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The role of microbes in the inhibition of the atmospheric corrosion of steel caused by air pollutants

Cited by 1 publication

References 56 publications

Corrosion of Mild Steel and Galvanized Steel in SO2 Enclosures: The Incidence of Negative Gravimetric Corrosion Rates

Corrosion of Mild Steel and Galvanized Steel in SO2 Enclosures: The Incidence of Negative Gravimetric Corrosion Rates

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