Formation of alloys in Ti–V system in hydride cycle and synthesis of their hydrides in self-propagating high-temperature synthesis regime

▶ We synthesize Ti-V alloys by new “hydride cycle” method. Structural characteristics of formed alloys we investigate by X-ray diffraction. ▶ We show that the alloys contain mainly BCC crystal structure. ▶ We investigate the interaction of the synthesized alloys with hydrogen in combustion regime. ▶...

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Bibliographic Details
Published in:Journal of alloys and compounds 2011-09, Vol.509, p.S786-S789
Main Authors: Aleksanyan, A.G., Dolukhanyan, S.K., Shekhtman, V.Sh, Huot, J., Ter-Galstyan, O.P., Mnatsakanyan, N.L.
Format: Article
Language:English
Subjects:
Alloys
Bcc-alloys
Combustion
Dehydrogenation
Differential scanning calorimetry
High-temperature synthesis
Hydrides
Metal hydrides
Self-propagating synthesis
Synthesis
Titanium base alloys
Vanadium base alloys
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Summary:▶ We synthesize Ti-V alloys by new “hydride cycle” method. Structural characteristics of formed alloys we investigate by X-ray diffraction. ▶ We show that the alloys contain mainly BCC crystal structure. ▶ We investigate the interaction of the synthesized alloys with hydrogen in combustion regime. ▶ We study the properties of hydrides by X-ray, DTA and DSC analyses. In the present work, the possibility of formation of titanium and vanadium based alloys of BCC structure using hydride cycle was investigated. The mechanism of formation of alloys in Ti–V system from the powders of hydrides TiH 2 and VH 0.9 (or of V) by compaction followed by dehydrogenation was studied. Then, the interaction of the synthesized alloys with hydrogen in combustion regime (self-propagating high-temperature synthesis, SHS) resulting in hydrides of these alloys was investigated. DTA and DSC analyses of some alloys and their hydrides were performed and their thermal characteristics were measured.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2010.12.078