Field observations and laboratory testing were used to conclude that aggressive localized corrosion of carbon steel pilings in Duluth-Superior Harbor, Minnesota and Wisconsin, is caused by the following sequence of biological, chemical, and physical events. Iron-oxidizing bacteria colonize the carbon steel sheet pilings and produce tubercles, made up of intact and/or partly degraded remains of bacterial cells mixed with amorphous hydrous ferric oxides. The reducing conditions beneath the tubercles cause copper dissolved in the water to precipitate. A galvanic couple is established between the copper layer and the iron substratum. Ice scouring breaks the tubercles. Exposure of the copper-covered iron to oxygen causes the galvanic current to increase. The result is aggressive localized corrosion.

Subject
Pits, Water, Iron oxide, Pilings, Transmission electron microscopy, Tubercles, Bacteria, Ports and harbors, Corrosion coupons, Galvanic current, Electrodes, Concentration cells, Coupons
Keywords:
bacteria, carbon steel, corrosion, Duluth-Superior Harbor, microbiologically influenced corrosion, pilings
NACE International
2009
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