Research of atomic structure and diffusion permeability of interface boundary Ni-Al (100)

G.M. Poletaev, A.V. Sannikov show affiliations and emails
Received: 08 July 2012; Revised: 09 July 2012; Accepted: 10 July 2012
This paper is written in Russian
Citation: G.M. Poletaev, A.V. Sannikov. Research of atomic structure and diffusion permeability of interface boundary Ni-Al (100). Lett. Mater., 2012, 2(2) 63-66
BibTex   https://doi.org/10.22226/2410-3535-2012-2-63-66

Abstract

The atomic structure of interface boundary Ni-Al (100) and diffusion mechanism along it in solid-contact were studied by the method of molecular dynamics. It was shown that on the boundary forming a square net of edge dislocations of discrepancy, which occurs mainly along the migration of atoms. 

References (8)

1. B.S. Bockstein. Diffusion in metals. Moscow, Metallurgiya(1978) 248 p, (in Russian).
2. S.Z. Bockstein, E.V. Bolberova, I.A. Ignatova, S.T.Kishkin, I.M. Razumovsky. The Physics of Metals andMetallography. 59(5), 938 (1985), (in Russian).
3. Y.A. Tkhorik, L.S. Khazan. Plastic deformation anddislocation of discrepancy in heteroepitaxial systems.Kiev, Naukova dumka (1990) 321 p, (in Russian).
4. G.M. Poletaev, L.M. Kobzar, N.A. Kulabukhova, M.D. Starostenkov. Fundamental Problems and ModernTechnologies of Material Science. 6 (4), 111 (2009), (inRussian).
5. A.I. Tsaregorodsev, N.V. Gorlov, B.F. Demyanov, M.D. Starostenkov. The Physics of Metals andMetallography. 58 (2), 336 (1984), (in Russian).
6. G.M. Poletaev, A.N. Martynov, M.D. Starostenkov.Fundamental Problems and Modern Technologies ofMaterial Science. 7(4), 27 (2010), (in Russian).
7. A.N. Martynov, G.M. Poletaev, M.D. Starostenkov. Letterson Materials. 1(1), 43 (2011), (in Russian).
8. E.G. Kharina, M.D. Starostenkov, G.M. Poletaev, R.Yu.Rakitin. Phys. Solid State. 53(5), 1043 (2011).

Similar papers