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HomeMaterials Science ForumMaterials Science Forum Vol. 624Deconsolidation of Polycrystalline Skeletons in...

Deconsolidation of Polycrystalline Skeletons in Sintered Composite Materials

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Abstract:

The present review covers the deconsolidation aspects of refractory polycrystalline skeletons for composites based on refractory particles with a metal binder. The thermodynamics of the process has been highlighted. The criterion for deconsolidation is established and the mechanism has been described.

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Periodical:

Materials Science Forum (Volume 624)

Pages:

43-56

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.624.43

Citation:

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Online since:

June 2009

Authors:

Anatoly F. Lisovsky

Keywords:

Deconsolidation, Sintered Composite Material, Sintering, Skeleton

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[1] B. Ya. Pines: J. Tech. Phys. Vol. 16 (1946), p.137. (in Russian).

[2] F. V. Lenel: Trans. AIME. Vol. 175 (1948), p.878.

[3] G. S. Kuczynski: Trans. AIME. Vol. 185 (1949), p.169.

[4] K. Mackenzie, R. Shuttleworth: Proc. Phys. Soc. Vol. 62 (12-B) (1949), p.833.

[5] Ya. E. Geguzin: Physics of sintering. Ed. Nauka, Moscow, 1984. ( in Russian).

[6] V. V. Skorohod, S. M. Solonin: Physical-metallurgical basis of sintering of powders. Ed. Metallurgiya, Moscow, 1984. ( in Russian).

[7] R. M. German: Sintering Theory and Practice. Ed. Wiley-VCH, New York, (1996).

[8] A. F. Lisovsky: Powder Metallurgy Int. Vol. 21, No 6, (1989), p.7.

[9] Lisovsky A. F. in: Sci. Hard Mater. Vol. 4. Powder Metal 1998. World Congress and Exhibition. 18-22 October 1998, Granada, Spain, ed. EPMA, London, (1998), p.115.

[10] A. F. Lisovsky, N.V. Tkachenko: Powder Met. Int. V. 23, N3 (1991), p.157.

[11] A.F. Lisovsky, T.E. Gracheva, V.N. Kulakovsky: Int. J. of Refractory Met. and Hard Materials. Vol. 13 (1995), p.379.

[12] A. F. Lisovsky: Powder Metallurgy Int. Vol. 19, No 5 (1987), p.18.

[13] A. F. Lisovsky: Int. J. Heat Mass Transfer. Vol. 33, No 8 (1990), p.1599. (in Russian).

[14] J. Gurland: Trans. Met. Soc. AIME. Vol. 215, No 4 (1959), p.601.

[15] A. F. Lisovsky: Migration of metal melt in composition bodies. Ed. Naukova Dumka, Kiev, 1984. ( in Russian).

[16] A. F. Lisovsky: Science of Sintering. Vol. 34, No. 2 (2002), p.135.

[17] A. F. Lisovsky: Int. J. Refractory Met. Hard Materials. Vol. 8, No 2 (1989), p.133.

[18] A. F. Lisovsky: Formation of the Structure of Composite Materials when processed with Metal Melts. , Naukova Dumka, Kiev, 2008. ( in Russian).

[19] W. Missol: Prace Instytutow Hutniczych. Vol. 17, N 5 (1965), p.271. (in Polish).

[20] A. F. Lisovsky: Int. J. Powder Met. Vol. 26, No 1 (1990), p.45.

[21] A. F. Lisovsky, T. E. Gracheva: J. Engineering Physics and Thermophysics. Vol. 59, No 2 (1990), p.1006. (in Russian).

[22] A. F. Lisovsky, T. E. Gracheva: Poroshkovaya Metallurgiya, No 4 (1992), p.51. ( in Russian).

[23] A. F. Lisovsky, T. E. Gracheva: Int. J. Refractory Metals and Hard Materials. Vol. 11, N2 (1992), p.83.

[24] A. F. Lisovskii: J. Superhard Materials. Vol. 29, N 5 (2007), p.281. ( in Russian).

[25] T.L. Hill: J. Chemical Physics. Vol. 36, N 12 (1962), p.3183.

[26] A.I. Rusanov: Fazovye ravnovesiya i poverkhnostnye yavleniya (Phase Equilibrium and Surface Phenomena), Khimiya, Leningrad, 1967. ( in Russian).

[27] A. F. Lisovskii: J. Superhard Materials. Vol. 30, No5 (2008), p.326. ( in Russian).