Influence of the nonequilibrium crystallization on the phase composition of the Al-Mo-Ti alloy

The phase composition, microstructure, and crystal structure of the AMT TU-48-4-366 (Technical Specifications) foundry alloy (which is used as the alloying material when smelting titanium alloys) are investigated by X-ray phase analysis, electron probe microanalysis, and microscopy. Lattice paramete...

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Veröffentlicht in:Russian journal of non-ferrous metals 2014-03, Vol.55 (2), p.157-162
Hauptverfasser: Sel’menskikh, N. I., Chumarev, V. M., Zhidovinova, S. V., Pankratov, A. A., Gulyaeva, R. I., Rylov, A. N.
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Sprache:eng
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Zusammenfassung:The phase composition, microstructure, and crystal structure of the AMT TU-48-4-366 (Technical Specifications) foundry alloy (which is used as the alloying material when smelting titanium alloys) are investigated by X-ray phase analysis, electron probe microanalysis, and microscopy. Lattice parameters of ɛ, p , and δ phases are calculated and their elemental composition is revealed. No formation of the Mo 3 Al refractory phase ( t m = 2150°C) is observed during the primary crystallization of the Al-Mo-Ti foundry alloy in nonequilibrium conditions. Its presence in the refractory phase in the foundry alloy is caused by secondary crystallization processes, during which an ultradispersed mixture of Mo 3 Al + Mo 3 Al 8 + TiMoAl 6 phases is formed at temperatures 1311 and 1314°C. The ultradispersed silicon-containing σ phase with the Mo 2.4 Ti 2.1 Si 0.8 Al 4.7 average composition, which was formed in nonequilibrium crystallization conditions, is revealed. Parameters and interplanar distances of its lattice are determined. It is established that the largest nonuniformity by molybdenum in peritectics of primary crystals occurs at a high crystallization rate, i.e., in the lower part of the Al-Mo-Ti ingot.
ISSN:1067-8212
1934-970X
DOI:10.3103/S106782121402014X