Conclusions
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1.
A study was made of the variation of the contact corrosion potential of an iron-copper pair during exposure to the tropical marine atmosphere.
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2.
Measurements were made of the variation of the thickness of the electrolyte layer on the surface of a corrosion gauge with time during the operation of the gauge under atmospheric conditions.
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3.
It is shown that the rate of corrosion of an iron-copper element attains its maximum when the temperature of the surrounding atmosphere is highest.
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Literature cited
I. N. Frantsevich and O. K. Teodorovich, “Some properties of iron-copper alloys produced by the infiltration technique,” Trans. Scientific-Technical Conference on Problems in Powder Metallurgy [in Russian], Izd. NTO Mashinostroeniya (1957), p. 23.
L. S. Svenson, Powder Metall.,17, No. 34, 271 (1974).
P. W. Taubenblat, W. E. Smith, and R. Lewis, Mod. Dev. Powder Metall.,8, 149 (1974).
D. Berner, H. F. Exner, and G. Petczow, Mod. Dev. Powder Metall.,6, 237 (1974).
T. Kimura and H. Hammoto, Mod. Dev. Powder Metall.,8, 135 (1974).
S. K. Chatteries and C. I. Thwaites, Powder Metall., No. 1, 10 (1975).
I. L. Rozenfel'd, Corrosion and Protection of Metals [in Russian], Metallurgiya, Moscow (1970).
G. K. Berukshtis and G. B. Klark, Corrosion Resistance of Metals and Metallic Coatings [in Russian], Nauka, Moscow (1973).
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Translated from Poroshkovaya Metallurgiya, No. 3(171), pp. 61–64, March, 1977.
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Chekhovskii, A.A., Kas'yan, R.M. & Kadigrov, G.R. Contact corrosion of an iron-copper pseudo alloy under the conditions of the tropical marine climate. Powder Metall Met Ceram 16, 205–207 (1977). https://doi.org/10.1007/BF00794088
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DOI: https://doi.org/10.1007/BF00794088