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HomeDefect and Diffusion ForumDefect and Diffusion Forum Vols. 319-320The Comparative Mössbauer Analysis of Superfine...

The Comparative Mössbauer Analysis of Superfine Structure of Hadfield Steel upon Different Kinds of Severe Deformation

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Abstract:

Severe plastic deformation (friction, compression shear, filing or rolling) of Hadfield steel leads to the growth of the internal effective field on 57Fe cores, removal of the magnetic degeneracy in spectra, and the extension of the paraprocess up to room temperature. The observed change of the magnetic characteristics is explained by the deformation-induced redistribution of carbon and short-range ordering of carbon and manganese. Since the magnetic degeneracy is removed in the Hadfield steel upon deformation, it is possible to consider a mechanism of magnetic precipitation hardening, which is realized in local magnetically ordered regions of the structure containing Mn-C pairs.

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Defects and Diffusion in Metals XIII

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Periodical:

Defect and Diffusion Forum (Volumes 319-320)

Pages:

13-23

DOI:

https://doi.org/10.4028/www.scientific.net/DDF.319-320.13

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Online since:

October 2011

Authors:

V.A. Shabashov, A.E. Zamatovsky, L.G. Korshunov, A.V. Litvinov

Keywords:

Hadfield Steel, Mössbauer Spectroscopy, Severe Deformation

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© 2011 Trans Tech Publications Ltd. All Rights Reserved

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[1] I.N. Bogachev, L.G. Korshunov, M.S. Khadyev, et al.: The Physics of Metals and Metallography, 43.

[2] (1977) 380-387.

[2] C.H. White, R.W.K. Honeycombe: J. Iron Steel Inst., 200.

[6] (1962) 457-466.

[3] W.M. Roberts: Trans. Met. Soc. АIME, 230 (1964) 372-377.

[4] B.Z. Nishiyama, M. Oka, H. Nakagawa: Trans. Japan Inst. Metals, 6.

[2] (1965) 88-92.

[5] Y.N. Dastur, W.C. Leslie: Met. Trans. A, 12.

[5] (1981) 749-759.

[6] V.S. Litvinov, S.D. Karakishev, V.A. Tsurin: The Physics of Metals and Metallography, 43.

[2] (1977) 352-357.

[7] V.A. Shabashov, L.G. Korshunov, Yu.V. Baldokhin: The Physics of Metals and Metallography, 66.

[6] (1989) 1197-1203.

[8] A.V. Teplov, L.G. Korshunov, V.A. Shabashov, et al: The Physics of Metals and Metallography, 66.

[3] (1988) 363-371.

[9] V.N. Bugaev, V.G. Gavrilyuk, V.M. Nadutov, V.A. Tatarenko: Dokl. AN SSSR, 288 (1986) 262-266.

[10] S.A. Sastrie, R. Ray: Met. Trans., 5.

[6] (1974) 1501-1503.

[11] F. Gauzzi, G. Principi, B. Verdini, P.Z. Zhang: Metallkunde, 81.

[4] (1990) 293-297.

[12] B.J. Window: Appl. Phys., 44.

[6] (1976) 2853-2865.

[13] V.S. Rusakov: Izv. RAN. Ser. Fiz., 63.

[7] (1999) 1389-1396.

[14] M. Lesoille, P.M. Gielen: Met. Trans., 3.

[10] (1972) 2681.

[15] V.A. Shabashov, S.V. Mamaev, G.A. Volkov: The Physics of Metals and Metallography, 75.

[1] (1993) 54-58.

[16] L.G. Korshunov, V.A. Shabashov, N.L. Chernenko, N.P. Filippova: The Physics of Metals and Metallography, 84.

[3] (1997) 308-319.

[17] Y. Endoh, Y. Ishikawa: J. Phys. Soc. Japan, 30.

[6] (1971) 1614-1627.

[18] O.G. Sokolov, K.B. Katsov: Iron-Manganese Alloys (Kiev, Naukova Dumka 1982).

[19] Gui Kang Sin, H. Onodera, H. Yamamoto, H.J. Watanabe: Phys. Soc. Japan, 36.

[4] (1974) 975.

[20] J.M. Drijver, F. J. Van Der Woude: Phys., 37.

[12] (1976) 385.

[21] K. Gupta, K. Cheng, P. Beck: In: Structure of Metallic Solid Solutions (Moscow, Metallurgiya, (1966) 235-242.

[22] I.P. Suzdalev: Dynamic Effects in Gamma Resonance Spectroscopy (Moscow, Atomizdat 1979).

[23] Etchigoya: Phys. Stat. Sol. (a), 17.

[2] (1973) 677-687.

[24] I.N. Bogachev, G.E. Zvigintseva, L.D. Chumakova: The Physics of Metals and Metallography, 39.

[1] (1975) 112-117.

[25] I.I. Kositsina, V.V. Sagaradze: The Physics of Metals and Metallography, 68.

[4] (1989) 818-825.

[26] L.G. Korshunov, V.A. Shabashov, N.L. Chernenko, N.P. Filippova: The Physics of Metals and Metallography, 84.

[2] (1997) 150-160.