Author(s)

R. C. Nwokorie¹, C. O. Nweke¹, S. I. Umeh¹, F. C. Ihenetu^1*, O. R. Nlemolisa¹, U. N. Kemka¹, C. C. Obasi², C. I. Nnadi³, K. H. Uzoho¹, C. C. Ejide¹

¹Department of Microbiology, Federal University of Technology, Owerri, Nigeria.
²Department of Public Health, Imo State University, Owerri, Nigeria.
³Department of Pathology, Imo State University Teaching Hospital, Orlu, Nigeria.

The role of microbes in the corrosion of metals is due to the chemical activities (metabolism) associated with the microbial growth and reproduction. A lot of researches have shown that enormous loss of resources and even lives has been experienced in many countries of the world due to corrosion. There is therefore need to device a means of combating this menace so as to save different countries of the world including Nigeria the cost encured due to corrosion. This research has helped to determine the role of bacteria in the corrosion of high carbon steel under aerobic and anaerobic conditions was investigated using sulphate reducing bacteria and other aerobes. A sample of high carbon steel grade of chemical composition: 96% iron (Fe), 1.08% carbon (C), 0.349% silicon (Si), 0.841% manganese (Mn), 0.005% phosphorus (P) and 0.005% sulphur (S), was obtained in the form of steel plate. Eighteen (18) samples of the high carbon steel were prepared. Standard microbiological methods were used to isolate aerobic and anaerobic bacteria isolates. The microbes isolated from the soil included; aerobes (Bacillus species, Pseudomonas species) and anaerobes (Desulfovibrio species, Thiobacillus species). The role of bacteria in the corrosion of high carbon steel was estimated using the weight loss technique and the electrochemical potential measurement technique. Eighteen samples of a high carbon steel of known compositions were exposed to sulphate reducing bacteria under different environments (aerobic, anaerobic and control). The physical and chemical changes were examined and monitored on weekly basis for six weeks. It was observed that the coupons immersed in the media with sulphate reducing bacterium underwent fast activation and numerous corrosion sites were formed on the surfaces. The average corrosion rate for six weeks (42 days) period of time as determined by the weight loss method and electrochemical testing were found to be 0.0004595 mm/year, -0.712 mV in aerobic environment, 0.0005646 mm/year, -0728 mV in anaerobic environment and 0.0004458 mm/year, -0702 mV in the control or reference environment (distilled water environment). High carbon steel was found to corrode more only in the anaerobic environment. In view of this, high carbon steels were found to be relatively more corrosion resistant than mild and medium carbon steels and may be suitable for application in industries such as the petrochemical industry. Therefore, treating the environment with chlorine but with caution as solutions of chlorine gas in water is corrosive to steels while the use of bactericides or biocides to arrest the action of microbes is important.

Bacillus Species, Pseudomonas Species, Desulfovibrio Species, Thiobacillus Species, Corrosion, Steel

Nwokorie, R. , Nweke, C. , Umeh, S. , Ihenetu, F. , Nlemolisa, O. , Kemka, U. , Obasi, C. , Nnadi, C. , Uzoho, K. and Ejide, C. (2019) Corrosion of High Carbon Steel by Bacteria under Aerobic and Anaerobic Conditions. Materials Sciences and Applications, 10, 227-242. doi: 10.4236/msa.2019.103019.