Abstract
Three-phase chromium–nickel steels, which contained ferrite, austenite, and martensite (the α' phase that arises after a cold deformation) phases were investigated. The objective of this study was the refinement of the technique of magnetic nondestructive testing of the percentages of the phases in a three-phase material, which was developed by the authors.
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References
Gudremon, E., Spetsial’nye stali (Special Steels), Moscow: Metallurgiya, 1959, vols. 1, 2.
Apaev, B.A., Fazovyi magnitnyi analiz (Phase Magnetic Analysis), Moscow: Metallurgiya, 1976.
Merinov, P.E., Difference qualifier in the national standards of different countries, in Nerazrushayushchie metody kontrolya (Nondestructive Testing Methods), Kershenbaum, A.G., Ed., Moscow: Nauka Tekh. Center, 1995, vol. 3, pp. 68–128.
Merinov, P.E. and Mazepa, A.G., Determining the deformation martensite in austenitic-class steels by the magnetic method, Zavodskaya Lab., 1997, no. 3, pp. 47–49.
Bernshtein, M.L., Struktura deformirovannykh metallov (Structure of Deformed Metals), Moscow: Metallurgiya, 1977.
Rigmant, M.B., Gladkovskii, S.V., Gorkunov, E.S., Matafonov, P.P., and Smirnov, S.V., On the possibility of magnetic nondestructive testing of plastoelastic deformations in metastable austenite steels, Kontrol’. Diagnostika, 2000, no. 9, p. 62.
Fachr, D., Stressand strain-induced formation of martensite and effects on strength and ductility of metastable austenitic stainless steels, Met. Trans, pp. 1883–1892.
Metally i splavy: spravochnik (Metals and Alloys: Handbook), Solntsev, Yu.P, Ed., St. Petersburg, 2003.
Kolbasnikov, N.G., Teoriya obrabotki metallov davleniem (Theory of Metal Working by Pressure), SPbGPU, 2004, vol. 307.
Danilenko, V.N., Mironov, S.Yu., Belyakov, A.N., and Zhilyaev, A.P., Application of the EBSD analysis in material physics, Zavod. Lab., Diagn. Mater., 2012, vol. 78, no. 3, pp. 28–46.
Filippov, M.A., Litvinov, V.S., and Nemirovskii, Yu.R., Stali s metastabil’nym austenitom (Metastable Austenite Steels), Moscow: Metallurgiya, 1988.
Rigmant, M.B., Nichipuruk, A.P., and Korkh, M.K., The possibility of separate measurements of the amounts of ferrite and deformation martensite in three-phase austenitic-class steels using the magnetic method, Russ. J. Nondestr. Test., 2012, vol. 48, no. 9, pp. 511–521.
Rigmant, M.B., Korkh, M.K., Davydov, D.I., Shishkin, D.A., Korkh, Yu.V., Nichipuruk, A.P., and Kazantseva, N.V., Methods of identification of deformation martensite in austenitic–ferritic steels, Defektoskopiya, 2015, no. 11, pp. 28–42.
Ispol’zovanie vibratsionnogo magnitometra firmy LakeShore s nizko-, vysokotemperaturnoi i transportnoi pristavkami dlya izmerenii magnitnykh svoistv slabykh i sil’nykh magnetikov razlichnykh razmerov: metod. posobie (Application of LakeShore Vibration Magnitometer with Low-Temperature, High-Temperature, and Transport Attachments for Measuring the Magnetic Properties of Weak and Strong Magnetics with Different Sizes: Method. Handbook), Kaliningrad: BFU im. I. Kanta, 2011.
Bozort, R., Ferromagnetizm (Ferromagnetism), Moscow: Izd. Inostrannoi Literatury, 1956.
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Original Russian Text © M.K. Korkh, M.B. Rigmant, D.I. Davydov, D.A. Shishkin, A.P. Nichipuruk, Yu.V. Korkh, 2015, published in Defektoskopiya, 2015, Vol. 51, No. 12, pp. 20–31.
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Korkh, M.K., Rigmant, M.B., Davydov, D.I. et al. Determination of the phase composition of three-phase chromium–nickel steels from their magnetic properties. Russ J Nondestruct Test 51, 727–737 (2015). https://doi.org/10.1134/S1061830915120049
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DOI: https://doi.org/10.1134/S1061830915120049