Title :
Morphology of Calcareous Deposits Produced on Cathodically Protected Steel in the Deep Ocean
Author :
England, Harry ; Heidersbach, Robert
Author_Institution :
Newport Lab., Naval Underwater Syst. Center, Newport, RI, USA
Abstract :
Corrosion control of stationary offshore structures is accomplished by means of cathodic protection. The electric currents of the cathodic protection system cause the deposition of minerals on the submerged metal, and this mineral coating becomes the primary source of corrosion control. The results of a laboratory study of the effect of hydrostatic pressure on the minerology of deposits formed under cathodic protection conditions on carbon steel are presented. In deep ocean waters, the primary deposits are of magnesium minerals and calcareous deposits, if any, are secondary.
Keywords :
carbon steel; coatings; corrosion protection; magnesium; minerals; ocean chemistry; water; Mg; calcareous deposit morphology; carbon steel; cathodic protection system; cathodically protected steel; corrosion control; deep ocean waters; magnesium minerals; mineral coating; mineral deposition; primary deposits; stationary offshore structures; submerged metal; Coatings; Control systems; Corrosion; Current; Laboratories; Minerals; Morphology; Oceans; Protection; Steel;
Conference_Titel :
OCEANS 81
Conference_Location :
Boston, MA
DOI :
10.1109/OCEANS.1981.1151491
