Accession Number : AD0729252
Title : The Electrochemical Characteristics of Aluminum Galvanic-Anode Alloys in Seawater.
Descriptive Note : Interim progress rept. no. 10,
Corporate Author : NAVAL RESEARCH LAB WASHINGTON D C
Personal Author(s) : Lennox,T. J. , Jr. ; Groover,R. E. ; Peterson,M. H.
Report Date : JUN 1971
Pagination or Media Count : 38
Abstract : Aluminum anodes have a theoretical ampere-hour-per-pound capacity approximately two and one-half times that obtained from magnesium anodes and approximately three and one-half times that obtained from zinc anodes. The actual current capacities in seawater, however, are determined by the electrochemical efficiency of the individual aluminum anode alloy. The electrochemical characteristics of several types of aluminum anodes under similar service conditions are discussed in the report and are compared to similar data obtained from zinc anodes and from aluminum anodes reported previously. Aluminum anodes containing mercury-zinc have consistently demonstrated current capacities in excess of 1250 ampere hours per pound. Under some exposure conditions large sections of these anodes might be lost before attaining their complete useful service-life. The indium-zinc aluminum anodes have a minimum current capacity of 757 ampere hours per pound. When operated at nominal in-service anode current density levels, other electrochemical characteristis were essentially equivalent to those of the zinc control anode. None of the tin-zinc aluminum anodes which apparently require a proprietary heat treatment for improved electrochemical characteristics had consistently high current capacities. It was also evident from this study that even commercial-size aluminum anodes in short-term experiments at high current densities do not predict the true long-term electrochemical characteristics in seawater. (Author)
Descriptors : (*CORROSION, *ALUMINUM ALLOYS), (*ANODES, ALUMINUM ALLOYS), (*ELECTROCHEMISTRY, ALUMINUM ALLOYS), SEA WATER, MERCURY ALLOYS, ZINC ALLOYS, INDIUM ALLOYS, TIN ALLOYS, TEST METHODS
Subject Categories : Properties of Metals and Alloys
Distribution Statement : APPROVED FOR PUBLIC RELEASE