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Metallurgist

Erschienen in:

25.01.2018

Effect of Chemical Composition and Microstructure Parameters on Carbon and Low-Alloy Steel Corrosion Resistance

verfasst von: I. G. Rodionova, M. V. Feoktistova, O. N. Baklanova, A. V. Amezhnov, D. L. D’yakonov

Erschienen in: Metallurgist | Ausgabe 9-10/2018

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Abstract

An improvement in resistance to overall and local corrosion in neutral aqueous media with hydrogen index pH 6–8 is important for numerous structures operating under atmospheric conditions, in sea water, for heating network pipelines, oil industry pipelines (oil pipelines and water conduits), and many other forms of structure and equipment. Under these conditions, corrosion proceeds by a classical electrochemical mechanism. Today, there is no single point of view for the optimum chemical composition and microstructure for steels for simultaneous provision of good corrosion resistance in aqueous media and satisfactory mechanical properties. In this work, the effect of chemical composition and microstructure parameters on corrosion resistance of carbon and low-alloy steels of strength classes K52–K60 in aqueous media is studied with the aim of developing specifications for these properties in order to increase the operating life of steel equipment, in particular oil industry pipelines.

Vorheriger Artikel Manufacture of High-Carbon Ferrochrome Using Anthracite

Nächster Artikel Heat Treatment Regime Optimization for High-Strength Low-Carbon Steel Forged Slabs

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I. G. Rodionova, O. N. Baklanova, A. I. Zaitsev, et al., “Question of composition and properties of corrosion-active nonmetallic inclusions in pipe steels and effect on corrosion mechanisms,” ibid., pp. 15–36.

A. I. Zaitsev, I. G. Rodionova, S. D. Zinchenko, et al., “Nature and mechanism of formation in steel of corrosion-active nonmetallic inclusions. Ways of providing steel cleanliness for these inclusions,” ibid., pp. 37–51.

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A. V. Golovanov, G. A. Men’shikova, S. D. Zinchenko, et al., “Assimilation of steel 20-KCX rolled product and pipe with guaranteed cleanliness with respect to corrosion0active nonmetallic inclusions,” Proc. Sci.-Tech. Seminar Corrosion-Active Nonmetallic Inclusions in Carbon and Low-Alloy Steels, Metallurgizdat, Moscow (2005), pp. 85–97.

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I. G. Rodionova, S. D. Zinchenko, A. M. Lamukhin, et al., “Development of recommendations for improving pipe steel cleanliness produced by Severstal with respect to corrosion-active nonmetallic inclusions,” Metallurg, No. 4, 62–66 (2005).

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A. I. Zaitsev, I. G. Rodionova, O. N. Baklanova, et al., “Development of recommendations for mastering production at Northern Pipe Plant for steel pipes with improved local corrosion resistance by providing a required level of steel cleanliness with respect to corrosion-active nonmetallic inclusions and optimization of microstructure,” Proc. Sci. Tech. Seminar Corrosion-Active Nonmetallic Inclusions in Carbon and Low-Alloy Steels, Metallurgizdat, Moscow (2005), pp. 67–81.

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I. G. Rodionova, A. I. Zaitsev, O. V. Baklanova, et al., “Effect of carbon steel structural inhomogeneity on corrosion resistance in chlorine-containing media,” Metallurgist, 59, No. 9–10, 774–783 (2016).

17.

I. G. Rodionova, A. I. Zaitsev, O. V. Baklanova, et al., Patent 2554659 RF, IPC G01N17/02, “Method for evaluating corrosion resistance of carbon and low-alloy pipe steels and pipe prepared from them,” subm. 02.12.2014, publ. 06.27.2015.

Titel: Effect of Chemical Composition and Microstructure Parameters on Carbon and Low-Alloy Steel Corrosion Resistance
verfasst von: I. G. Rodionova
M. V. Feoktistova
O. N. Baklanova
A. V. Amezhnov
D. L. D’yakonov
Publikationsdatum: 25.01.2018
Verlag: Springer US
Erschienen in: Metallurgist / Ausgabe 9-10/2018
Print ISSN: 0026-0894
Elektronische ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-018-0562-9

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