TY - JOUR
T1 - The impact of temperature, chlorides and sulfate-reducing bacteria on the corrosion of steel in soil
AU - Ding, Ling
AU - Poursaee, Amir
N1 - Publisher Copyright:
© 2020 ICE Publishing: All rights reserved.
PY - 2022/12/5
Y1 - 2022/12/5
N2 - This investigation aimed to study the corrosion performance of low-carbon steel in a soil environment at different temperatures. The steel specimens in the soil were treated at three temperatures: 5, 25 and 60°C. The specimens were embedded in chloride-free soil for 21 days, and then 3.5% (by weight) sodium chloride (NaCl) was added to the soil. The specimens were then kept in the chloride-contaminated soil for 54 days. The results of electrochemical experiments showed superior corrosion performance of the specimens at 60°C, which had the lowest corrosion activity, followed by the specimens at 5 and 25°C. The slow nature of the kinetics of the corrosion reactions at 5°C compared with that at ambient temperature was the reason for this improvement at 5°C. The lower number of microorganisms, including sulfate-reducing bacteria, in the soil at 60°C compared with that at the other temperatures was attributed to the lower corrosion activity of steel in the soil at 60°C compared with the corrosion activity of steel in the soil at other temperatures.
AB - This investigation aimed to study the corrosion performance of low-carbon steel in a soil environment at different temperatures. The steel specimens in the soil were treated at three temperatures: 5, 25 and 60°C. The specimens were embedded in chloride-free soil for 21 days, and then 3.5% (by weight) sodium chloride (NaCl) was added to the soil. The specimens were then kept in the chloride-contaminated soil for 54 days. The results of electrochemical experiments showed superior corrosion performance of the specimens at 60°C, which had the lowest corrosion activity, followed by the specimens at 5 and 25°C. The slow nature of the kinetics of the corrosion reactions at 5°C compared with that at ambient temperature was the reason for this improvement at 5°C. The lower number of microorganisms, including sulfate-reducing bacteria, in the soil at 60°C compared with that at the other temperatures was attributed to the lower corrosion activity of steel in the soil at 60°C compared with the corrosion activity of steel in the soil at other temperatures.
KW - fabric/structure of soils
KW - service life
KW - strength & testing of materials
UR - http://www.scopus.com/inward/record.url?scp=85119382646&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/883e89b7-f6f8-322f-a4c5-37a9419c5973/
U2 - 10.1680/jenge.20.00021
DO - 10.1680/jenge.20.00021
M3 - Article
AN - SCOPUS:85119382646
SN - 2051-803X
JO - Environmental Geotechnics
JF - Environmental Geotechnics
ER -