Implementation of Megaplastic Deformation for Control of the Gradient Composition of Pseudo-Layers in the Nitrided Surface of Fe-Ni-Cr Steel - Production of Quasi-Bimetallic Plate

Abstract:

Article Preview

Megaplastic deformation has been realized by sliding friction (or high-pressure torsion) on ion-plasma-nitrided surface of austenitic Fe-Cr-Ni steel. The deformation-induced dissolution of iron and chromium nitrides, the formation of secondary chromium nitride phases and the increase of depth of gradient-composition matrix pseudo-layer have been achieved under friction and subsequent annealing. A quasi-bimetallic foil with the largest dimension of deflection has been produced with the use of friction and subsequent annealing of the nitrided surface.

Info:

Periodical:

Edited by:

Andreas Öchsner, Graeme E. Murch, Ali Shokuhfar and João M.P.Q. Delgado

Pages:

86-96

DOI:

10.4028/www.scientific.net/DDF.371.86

Citation:

V.A. Shabashov et al., "Implementation of Megaplastic Deformation for Control of the Gradient Composition of Pseudo-Layers in the Nitrided Surface of Fe-Ni-Cr Steel - Production of Quasi-Bimetallic Plate", Defect and Diffusion Forum, Vol. 371, pp. 86-96, 2016

Online since:

February 2017

Export:

Price:

$35.00

* - Corresponding Author

[1] V.A. Shabashov, S.V. Borisov, A.V. Litvinov, N.V. Kataeva, S.V. Afanas'ev, S.G. Titova, The Phys. Met. Metall. 115 (2014) 871-883.

[2] V.A. Shabashov, L.G. Korshunov, V.V. Sagaradze, N.V. Kataeva, A.E. Zamatovsky, A.V. Litvinov, K.A. Lyashkov, Phil. Mag. 94 (2014) 668-682.

DOI: 10.1080/14786435.2013.859758

[3] L.G. Korshunov, V.A. Shabashov, N.L. Chernenko, V.P. Piliugin, Met. Sci. and Heat Treat. 50, 11-12 (2008) 583-592.

[4] V.A. Shabashov, S.V. Borisov, A.V. Litvinov, A.E. Zamatovsky, N.F. Vildanova, V.I. Voronin, O.P. Shepatkovsky, The Phys. Met. Metall. 107 (2009) 601-612.

[5] V.A. Shabashov, S.V. Borisov, A.V. Litvinov, A.E. Zamatovsky, K.A. Lyashkov, V.V. Sagaradze, N.F. Vildanova, High Pressure Research 33 (2013) 795-812.

DOI: 10.1080/08957959.2013.844230

[6] V.S. Rusakov, Mossbauer spectroscopy of locally-inhomogeneous systems. NNC of NASK, Almaty, (2000).

[7] R. Bozort. Ferromagnetism. E.N. Kondorsky and B.G. Lifshits, ed., M.: Foreign Literature, 1956, Ch. 5. Iron-Nickel alloys.

[8] A.Z. Menshikov, A.E. Teplykh, The Phys. Met. Metall. 44 (1977) 1215-1221.

[9] C. Bansal, J. Chandra, Sol. Stat. Comm. 19 (1976) 107-109.

[10] P. Rochegude, J. Foct, Scripta Met. Mat. 27 (1992) 325-328.

[11] I.I. Ali-Zade, S.S. Aliev, Sh.N. Kraeva, T.G. Shamilov, T.A. Shukiurov, Materials of International conference «Fizika-2005». 2005. Azerbaijan. Baku. 394-395.

[12] V.A. Shabashov, V.V. Sagaradze, S.V. Morozov, G.A. Volkov, Metallophisica. 12 (1990) 107-114.

[13] Yu.R. Kolobov, R.Z. Valiev, G.P. Grabovetskaya, A.P. Zhilyaev, E.F. Dudarev, K.V. Ivanov, Ivanov M.B., Kashin O.A., Naidenkin E.V., Grain boundary diffusion and properties of nanostructured materials, Novosibirsk: Nauka, (2001).

DOI: 10.1016/s1359-6462(00)00699-0

[14] M. Yu. Smolyakova, D.S. Vershinin, Yu.R. Kolobov, S.V. Chernikov, O.V. Stogney, I.M. Tregubov, Perspective materials. 3 (2012) 70-76.

[15] Yu.A. Bashnin, F.B. Ulanovsky, I.V. Perepelitsa, A.N. Mosalov. Thermobimetals. Compositions, treatment, properties М.: Mashinostroenie.

[16] Andreeva L.E. Elastic elements of instruments, M.: MASHGIZ. (1962).

In order to see related information, you need to Login.