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Magnetic method for estimating uniaxial compressive and tensile elastic stresses

  • Electromagnetic Methods
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Abstract

It is shown that uniaxial compressive and tensile elastic stresses can be controlled based on the coercive force, relaxation magnetization, and magnetic susceptibility in a multifactor model.

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References

  1. Nakhimov, D.M., Internal Stresses, Cracks, and Deformations in Steel during Thermal Treatment, in Metallovedenie i termicheskaya obrabotka (Metal Science and Thermal Treatment), Bernshtein, L.M. and Rakhshtadt, A.G., Eds., Moscow: Metallurgizdat, 1962, vol. 2, pp. 805–817.

    Google Scholar 

  2. Abuku, S., Magnetic Studies of Residual Stress in Iron and Steel Induced by Uniaxial Deformation, Jpn. J. Appl. Phys, 1977, no. 7, pp. 1161–1170.

  3. Polanschütz, W., Eine Madnetinductive Methode zur Erfassung Diskontinuierlicher Spannungsanderungen Wahrend Mechanischer Beanspruchung Ferromagnetischer Metalle. Teil I. Grundlagen, Materialprufung, 1978, vol. 20, no. 12, pp. 446–449.

    Google Scholar 

  4. Polanschütz, W. and Tomberger, G., Eine Madnetinductive Methode zur Erfassung Diskontinuierlicher Spannungsänderungen Während Mechanischer Beanspruchung Ferromagnetischer Metalle. Teil I. Anwendungen bei Werkstoffprufung, Materialprüfung, 1979, vol. 21, no. 2, pp. 37–40.

    Google Scholar 

  5. Korzunin, G.S. and Uvarova, M.P., Determination of Internal Stresses in Hot-Rolled Transformer Steel Plates, Defektoskopiya, 1969, no. 4, pp. 131–140.

  6. Chernashkin, V.G. and Galyamin, A.I., Experimental Studies of Stresses in Compressed Rods Using an Electromagnetic Gage, in Issled. metodov svarki. Protsessy montazha rezervuarov (Studies of Welding Techniques. Processes of Assembly of Reservoirs), Moscow, 1979, pp. 130–137.

  7. Orechov, G.T., Magnetelastischen Verfahren zur Eigenspannenmessung. Feingerätetechnik, 1980, vol. 29, no. 7, pp. 296–298.

    Google Scholar 

  8. Chaplygin, V.I., Bezotosnyi, V.F., and Shamin, P.A., The Device for Testing Concentrations of Mechanical Stresses in Ferromagnetic Materials, Zavod. Lab., 1978, no. 44.

  9. Goebbels, K., Höller, P., and Theinrer, W.A., Zerstörungsfreie Analyse des Gefilge- und Spannungszustandes Metallischer Werkstoffe mit Ultraschall- und Magnetischen Verfahren, FhG-Ber, 1979, no. 4, pp. 39–45.

  10. Musikhin, S.A., Novikov, V.F., and Borisenko, V.N., The Application of the Coercive Force as an Indicative Parameter during Nondestructive Testing of Mechanical Stresses, Defektoskopiya, 1987, no. 9, pp. 57–60.

  11. Bida, G.V., Magnetic Properties of a Body as Nondestructive Testing Parameters of Tempering Quality of Quenched Steels (a Review), Rus.J.Nondestr.Test., 2002, vol. 38, no. 6, pp. 412–424.

    Article  CAS  Google Scholar 

  12. Bida, G.V., Gorkunov, E.S., and Shevnin, V.M., Magnitnyi kontrol’ mekhanicheskikh svoistv prokata (Mechanical Testing of Mechanical Properties of Rolled Stock), Yekaterinburg: Ural. Otd. Ross. Akad. Nauk, 2002.

    Google Scholar 

  13. Bida, G.V. and Nichipuruk, A.P., Magnitnye svoistva termoobrabotannykh stalei (Magnetic Properties of Thermally Treated Steels), Yekaterinburg: Ural. Otd. Ross. Akad. Nauk, 2005.

    Google Scholar 

  14. Bida, G.V., Magnitnye svoistva termouprochnennykh stalei i nerazrushayushchii kontrol’ ikh kachestva (Magnetic Properties of Thermally Hardened Steels and Nondestructive Testing of Their Quality), Moscow: Marshrut, 2006.

    Google Scholar 

  15. Bida, G.V., Issledovanie strukturnoi chuvstvitel’nosti relaksatsionnykh magnitnykh svoistv ferromagnetikov. Dep. no. 3717. V-90 (Investigation of Structural Sensitivity of Relaxation Magnetic Properties of Ferromagnetics), Moscow: VINITI, 1990.

    Google Scholar 

  16. Bida, G.V., Tsar’kova, T.P., and Sazhina, E.Yu., The Effect of Structural Changes during Hardening and Tempering on Relaxation Magnetization and Magnetic Susceptibility, Defektoskopiya, 1995, no. 2, pp. 72–81.

  17. Bida, G.V. and Sazhina, E.Yu., The Effect of Cold Plastic Deformation and Subsequent Annealing on the Magnetic Properties of Metals with Different Initial Structures, Rus. J. Nondesrt. Test., 2004, vol. 40, no. 9, pp. 611–619.

    CAS  Google Scholar 

  18. Bida, G.V. and Kuleev, V.G., The Effect of Elastic Deformation on Magnetic Properties of Steels with Different Structures, Defektoskopiya, 1998, no. 11, pp. 12–26.

  19. Kersten, M., über die Bedeutung der Versetzungsdichte Für die Theorie der Koerzitivkraft Rekristallisierter Werkstoffe, Zs. F. Angev. Phys, 1956, vol. 8, no. 10, pp. 497–502.

    Google Scholar 

  20. Kroupa, F. and Malek, Z., Der Einfluss der Plastischen Verformung Durch Kaltwalzen auf die Koerzitivkraft, Czechosl. Journ. Phys, 1959, no. 9, pp. 627–637.

  21. Wolf, W., Untersuchungen Der Versetzungsanordnung Wechsel-Und Zugver-Formter Nickel-Einkristalle Mit Hilfe Magnetischer Methoden, Cand. Doctoral Dissertation, Stuttgart, 1980.

  22. Träuble, H., Magnetisirungskurve und Magnetische Hysterese Ferromagnetischer Einkristalle. In: Moderne Probleme der Metallphysik, Seeger, A., Ed., Berlin-Heidelberg-New York: Springer, 1996, pp. 157–475.

    Google Scholar 

  23. Kneller, E. and Schmelzer, C., Koerzitivkraft von Nickel und Eisen-Nickel-Legirungen bei Plastischer Verformung, Zs. f. Metallkunde, 1960, vol. 51, no. 6, pp. 342–349.

    CAS  Google Scholar 

  24. Vonsovskii, S.V. and Shur, Ya.S., Ferromagnetizm (Ferromagnetism), Moscow-Leningrad: OGIZ, 1948.

    Google Scholar 

  25. Brown, W.F., Irreversible Magnetic Effects of Stress, Phys. Rev., 1949, vol. 75, pp. 147–154.

    Article  Google Scholar 

  26. Kuleev, V.G. and Gorkunov, E.S., The Mechanism of the Effect of Internal and External Stresses on the Coercive Force of Ferromagnetic Steels, Defektoskopiya, 1997, no. 11, pp. 3–18.

  27. Kittel’, Ch. and Galt, Ya., The Theory of Ferromagnetic Regions (Domains), in Magnitnaya struktura ferromagnetikov (Magnetic Structure of Ferromagnets), Vonsovskii, S.V., Ed., Moscow: IIL, 1959, pp. 459–506.

    Google Scholar 

  28. Nichipuruk, A.P., Gorkunov, E.S., Kuleev, V.G., and Charikova, N.I., The Effect of Structural Variations during Tempering on Reversible Processes of Magnetization in Structural Steels, Defektoskopiya, 1990, no. 8, pp. 68–75.

  29. Shanaurin, A.M., Veksler, A.Z., Nichipuruk, A.P., Bida, G.V., and Vatolin, S.M., CM-401 Magnetic Structuroscope, Rus. J. Nondestr. Test., 2002, vol. 38, no. 6, pp. 431–437.

    Article  Google Scholar 

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Authors and Affiliations

  1. Institute of Physics of Metals, Ural Division, Russian Academy of Sciences, ul. S. Kovalevskoi 18, Yekaterinburg, 620041, Russia

    G. V. Bida

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Original Russian Text © G.V. Bida, 2011, published in Defektoskopiya, 2011, Vol. 47, No. 8, pp. 63–74.

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Bida, G.V. Magnetic method for estimating uniaxial compressive and tensile elastic stresses. Russ J Nondestruct Test 47, 551–560 (2011). https://doi.org/10.1134/S1061830911080043

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  • DOI: https://doi.org/10.1134/S1061830911080043

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