Sokolov R.A., Novikov V.F., Muratov K.R., Venediktov A.N. 2020 Vol. 22 No. 3

OBRABOTKAMETALLOV Vol. 22 No. 3 2020 124 MATERIAL SCIENCE 4. Collacott R.A. Structural integrity monitoring . London, New York, Chapman and Hall, 1985 (Russ. ed.: Kollakot R.A. Diagnostika povrezhdenii . Moscow, Mir Publ., 1989. 512 p.). 5. Zhuk N.P. Kurs korrozii i zashchity metallov [The rate of corrosion and protection of metals]. Moscow, Metallurgiya Publ., 1976. 472 p. 6. Tiwari A., Hihara L., Rawlins J., eds. Intelligent coatings for corrosion control . Amsterdam, Butterworth- Heinemann, 2014. 746 p. ISBN 9780124114678. 7. Polyanchukov V.G. Modern corrosion monitoring of complex systems in acid media – the bridge into the 21st century. Werkstoffe und Korrosion , 2001, vol. 52, no. 2, pp. 117–123. 8. NaganumaA., Fushimi K., Azumi K., Habazaki H., Konno H. Application of the multichannel electrode method to monitoring of corrosion of steel in an arti fi cial crevice. Corrosion Science , 2010, vol. 52, no. 4, pp. 1179–1186. DOI: 10.1016/j.corsci.2010.01.005. 9. Introduction to corrosion monitoring. Metal Samples: Corrosion Monitoring Systems . Munford, AL, 2013. Available at: www.alspi.com/introduction.htm (accessed 18.08.2020). 10. Kong L., Qiao G., Zhang T., Song G. Steel bar corrosion monitoring by potentiostatic pulse method. Advanced Materials Research , 2011, vol. 163–167, pp. 2941–2944. DOI: 10.4028/www.scienti fi c.net/AMR.163-167.2941. 11. Novikov V.F., Neradovskii D.F., Sokolov R.A. Ispol’zovanie kvazistaticheskikh petel’magnitnogo gisterezisa dlya kontrolya struktury stali [The using of quasi-static magnetic hysteresis loops to control steel structures]. Vestnik Permskogo natsional’nogo issledovatel’skogo politekhnicheskogo universiteta. Mashinostroenie, materialovedenie = Bulletin PNRPU. Mechanical engineering, materials science , 2016, vol. 18, no. 2, pp. 38–49. DOI: 10/15593/2224- 9877/2016.2.03. 12. Pomazova A.V., Panova T.V., Gering G.I. Rol’ faktorov formy zerennoi struktury v elektrokhimicheskoi korrozii kotel’nykh trub, izgotovlennykh iz uglerodistoi stali 20 [Role of grain structure form factors in electrochemical corrosion of boiler tubes made of carbon steel 20]. Praktika protivokorrozionnoi zashchity = Theory and Practice of Corrosion Protection , 2013, no. 3 (69), pp. 68–71. 13. Novikov V.F., Sokolov R.A., Neradovskiy D.F., Muratov K.R. A technique for predicting steel corrosion resistance. IOP Conference Series: Materials Science and Engineering , 2018, vol. 289, pp. 1–6. DOI: 10.1088/1757- 899X/289/1/012013. 14. Li Y.,Wang F.G., Liu G. Grain size effect on the electrochemical corrosion behavior of surface nanocrystallized low-carbon steel. Corrosion , 2004, vol. 60, no. 10, pp. 891–896. DOI: 10.5006/1.3287822. 15. Syugaev A.V., Lomaeva S.F., Reshetnikov S.M., Shuravin A.S., Sharafeeva E.V., Surnin D.V. The effect of the structure-phase state of iron-cementite nanocomposites on local activation processes. Protection of Metals , 2008, vol. 44, no. 4, pp. 395–399. DOI: 10.1134/S0033173208040097. 16. GOST 5639–82. Stali i splavy. Metody vyyavleniya i opredeleniya velichiny zerna [State Standard 5639–82. Steels and alloys. Methods of detection and determination of grain size]. Moscow, Standads Publ., 2003. 45 p. 17. Lezinskaya E.Ya. Metody otsenki strukturnoi neodnorodnosti metalla trub obolochek TVEL i chekhlov TVS iz korrozionno-stoikikh stalei i splavov [Evaluation methods for structure non uniformity of metal for cladding tubes and wrapper of corrosion-resistant steels and alloys]. Voprosy atomnoi nauki i tekhniki. Seriya: Fizika radiatsionnykh povrezhdenii i radiatsionnoe materialovedenie = Problems of Atomic Science and Technology. Physics of Radiation Effects and Radiation Materials Science , 2003, no. 3, pp. 108–112. (In Russian). 18. Lezinskaya E.Ya., Klyuev D.Yu., Nikolaenko Yu.N. Novyi metod otsenki raznozernistosti struktury trub iz nerzhaveyushchikh stalei i splavov [New method for assessing the inequigranular structure of pipes of stainless steels and alloys]. Teoriya i praktika metallurgii = Theory and Practice of Metallurgy , 2012, no. 1, pp. 68–73. (In Russian). 19. Grokhovskiy V.I. [Possibilities of digital microscopy in metallography]. Tsifrovaya mikroskopiya: materialy shkoly seminara [Digital microscopy. School-seminar materials]. Ekaterinburg, USTU-UPI Publ., 2001, pt. 1, pp. 18–20. (In Russian). 20. GOST 9.008–85. ESZKS. Metally i splavy. Metody opredeleniya pokazatelei korrozii i korrozionnoi stoikosti [State Standard 9.008–85. Uni fi ed system of corrosion and ageing protection. Metals and alloys. Methods for determination of corrosion and corrosion resistance indices]. Moscow, Standards Publ., 2004. 44 p. 21. Sokolov R.A., Novikov V.F., Muratov K.R., Venediktov A.N. In fl uence of surface treatment of construction steels on determination of internal stresses and grain sizes using X-ray diffractometry method. Materials Today: Proceedings , 2019, vol. 19, pt. 5, pp. 2584–2585. DOI: 10.1016/j.matpr.2019.09.015. 22. Schastlivtsev V.M., Mirzaev D.A., Yakovleva I.L. Struktura termicheski obrabotannoi stali [Structure of heat treated steel]. Moscow, Metallurgiya Publ., 1994. 288 p. 23. Callister W.D. Materials science and engineering: an introduction . 6th ed. Hoboken, NJ, Wiley, 2020. 848 p. ISBN 978-0471135760.

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