Physics of the Solid State
Spinodal Decomposition of an Alloy with a Strong Concentration Dependence of the Mutual Diffusion Coefficient
Razymov I. K.1
1M.N. Mikheev Institute of Metal Physics, Ural Branch, Russian Academy of Sciences, Yekaterinburg, Russia
Email: rik@imp.uran.ru
It is shown that the kinetics of decomposition of an alloy with a strong concentration dependence of the mutual diffusion coefficient is qualitatively different from the widely known kinetics of spinodal decomposition, since it includes the formation of metastable (in the kinetic sense) precipitates of the intermediate composition. Concentration dependence of the mutual diffusion coefficient is particularly due to the difference in impurity diffusion coefficients, as well as component self-diffusion coefficients, and it increases as temperature decreases. The calculations use an expression for the flow of component atoms in the absence of the substance flow, obtained previously under the kinetic theory of vacancy diffusion ("hole gas method"). Keywords: spinodal decomposition, mutual diffusion coefficient, precipitates of intermediate composition.
- J. Christian. Teoriya prevrashcheniy v metallakh i splavakh. Mir, M. (1978). 806 p. (in Russian)
- J.W. Cahn, J.E. Hilliard. J. Chem. Phys. 28, 258 (1958)
- J.W. Cahn. Acta Met. 9, 795 (1961)
- J.W. Cahn. Trans. Met. Soc. AIME 242, 166 (1968)
- V.G. Vaks, S.V. Beiden, V.Yu. Dobretsov. JETP Letters 61, 65 (1995)
- V.G. Vaks. Phys. Rep. 391, 3-6, 157 (2004)
- I.M. Lifshits, V.V. Slyozov. J. Phys. Chem. Solids 19, 35 (1961)
- A.D. Smigelskas, E.O. Kirkendall. Trans. Am. Inst. Min. (Met.) Engrs. 171, 130 (1947)
- Ya.E. Geguzin. Diffuzionnaya zona. Nauka, M. (1979). 344 p. (in Russian)
- V.L. Gapontsev, I.K. Razumov, Yu.N. Gornostyrev, A.E. Yermakov, V.V. Kondratyev. PMM 99, 4, 26 (2005)
- I.K. Rasumov, Yu.N. Gornostyrev. Vliyaniye granits zeren na kinetiku raspada tverdykh rastvorov. In: Nauch. tr. IV shk.-seminara "Fazovye i strukturnye prevrashcheniya v stalyakh", Magnitogorsk (2006). P. 99-112 (in Russian)
- I.K. Razumov, Yu.N. Gornostyrev, A.Ye. Yermakov. J. Alloys Compd 434-435, 535 (2007)
- Protsessy vzaimnoy diffuzii v splavakh / Ed. by K.P. Gurov. Nauka, M. (1973). 359 p. (in Russian)
- S.V. Terekhov. Technical Physics 77, 8, 36 (2007)
- Landolt-Bornstein: Numerical Data and Functional Relationships in Science and Technology. New Series, Group III: Crystal and Solid State Physics. V. 26. Diffusion in Metals and Alloys / Ed. H. Mehrer. Springer-Verlag, Berlin (1990). 747 p
- F. Wu, D. Isheim, P. Bellon, D.N. Seidman. Acta Mater. 54, 2605 (2006)
- N. Wanderka, U. Czubayko, V. Naundorf, V.A. Ivchenko, A.Ye. Yermakov, M.A. Uimin, H. Wollenberger. Ultramicroscopy 89, 189 (2001)
- P. Bellon, G. Martin. Phys. Rev. B 39, 4, 2403 (1989)
- I.K. Razumov, Yu.N. Gornostyrev, A.E. Yermakov. Physics of the Solid State 61, 2, 346 (2019)
- D. Isheim, M.S. Gagliano, M.E. Fine, D.N. Seidman. Acta Mater. 54, 841 (2006)
- M. Schober, E. Eidenberger, P. Staron, H. Leitner. Microsc. Microanal. 17, 26 (2011)
- W. Xiong, P. Hedstrom, M. Selleby, J. Odqvist, M. Thuvander, Q. Chen. CALPHAD 35, 355 (2011).
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