CORROSION ENGINEERING DIGEST
Online ISSN : 1884-1155
Print ISSN : 0010-9355
ISSN-L : 0010-9355
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Volume 18, Issue 6
Displaying 1-5 of 5 articles from this issue
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  • [title in Japanese]
    [in Japanese]
    1969 Volume 18 Issue 6 Pages 241-250
    Published: June 15, 1969
    Released on J-STAGE: November 25, 2009
    DOIhttps://doi.org/10.3323/jcorr1954.18.6_241
    JOURNAL FREE ACCESS
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  • Studies on Cathodic Protection for Ship Hull (III)
    Calculation of Potential Distribution in the Case of Strip Anode and Consideration of Effect of the Coating Around the Anode
    Toru Yoshii, Kenji Ueda, Yasuo Nagae, Isamu Motomura
    1969 Volume 18 Issue 6 Pages 251-260
    Published: June 15, 1969
    Released on J-STAGE: November 25, 2009
    DOIhttps://doi.org/10.3323/jcorr1954.18.6_251
    JOURNAL FREE ACCESS
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    To extend the cathodically protected area with impressed current, strip-type anode and the coating around the anode has been examined through mathematical calculation and a simulation tank experiment. The following main trends have been observed.
    1) A method for calculating the potential distribution is presented and the formula obtained has been shown reasonable by the experiment.
    2) Steel surface coated with an insulation coating around the anode gives the equivalent effect as an enlarged anode having the same area.
    3) As for a coating material around the anode, neoprene rubber lining of 1mm thickness can be adopted.
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  • Applicability of Lead-Silber Anode in the Electrolysis of Sea Water for Anti-Fouling System
    Chikatoshi Miura, Tôsuke Murai
    1969 Volume 18 Issue 6 Pages 261-265
    Published: June 15, 1969
    Released on J-STAGE: November 25, 2009
    DOIhttps://doi.org/10.3323/jcorr1954.18.6_261
    JOURNAL FREE ACCESS
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    Injection of electrolytically produced chlorine into sea water is one of the effective means to prevent heat-exchangers and pipelines from fouling with marine organisms.
    This paper relates mainly to the chlorine evolution efficiency on a Pb-2.07% Ag anode in the electrolysis of the artificial sea water.
    The chlorine evolution efficiency from the artificial sea water is 55-75per cent at current densities of 10-200mA/cm2. The potential of the Pb-Ag anode increases considerably near a current density of 200mA/cm2 to result in reduction of corrosion resistivity of the anode.
    The corrosion resistivity of the anode practically disappears in the two-fold diluted sea water with reduced chlorine evolution efficiency. When degree of dilution reaches to 10, the anode simply dissolves without forming lead peroxide layer on the surface.
    It is concluded that chloride ions are oxidized on the surface of lead peroxide, because the evolution of chlorine gas and stabilization of the anode potential are observed only after the formation of lead peroxide. The lead peroxide layer on the anode is found to be stabilized by the presence of sulfate ions in the electrolyte.
    An example is given on the anti-fouling system by electrolytic chlorination using Pb-Ag anode.
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  • The Mechanism of Steel Corrosion in Concrete Structures
    I. Cornet, T. Ishikawa, B. Bresler, [in Japanese]
    1969 Volume 18 Issue 6 Pages 266-268
    Published: June 15, 1969
    Released on J-STAGE: November 25, 2009
    DOIhttps://doi.org/10.3323/jcorr1954.18.6_266
    JOURNAL FREE ACCESS
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  • NACE Definition and Terminology Committe
    Method Approved for Reporting Corrosion Data
    [in Japanese]
    1969 Volume 18 Issue 6 Pages 269-273
    Published: June 15, 1969
    Released on J-STAGE: November 25, 2009
    DOIhttps://doi.org/10.3323/jcorr1954.18.6_269
    JOURNAL FREE ACCESS
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