Some new experimental results on the Zr–Nb–Fe system

The scope of this study is the identification and characterization of intermetallic phases and their binary and ternary fields in the Zr–Nb–Fe phase diagram. A construction of the central region of the phase diagram at 900 °C was proposed using new experimental results obtained by optical and scanni...

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Bibliographic Details
Published in:Journal of nuclear materials 2007-06, Vol.366 (1), p.198-205
Main Authors: Ramos, C., Saragovi, C., Granovsky, M.S.
Format: Article
Language:English
Subjects:
Applied sciences
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Fission nuclear power plants
Installations for energy generation and conversion: thermal and electrical energy
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Summary:The scope of this study is the identification and characterization of intermetallic phases and their binary and ternary fields in the Zr–Nb–Fe phase diagram. A construction of the central region of the phase diagram at 900 °C was proposed using new experimental results obtained by optical and scanning electron microscopies, X-ray diffraction and microprobe analysis. In addition to the well-known Laves C15-type (ZrNb)Fe 2 phase (the polytypic C14 and C36 structures were not detected in the studied compositions), another Laves C14-type phase was found (Zr(NbFe) 2). Watson and Bennett maps helped to predict the occurrence of both of these phases. Moreover, the validity of the Pettifor prediction model for Laves phases in pseudobinary systems with transition elements was checked, verifying the obtained experimental results in the Zr–Nb–Fe system. On the other hand it was determined that the Zr–Nb–Fe ternary system at 900 °C, as it happens in the binary Zr–Nb system, would have a miscibility gap (β-Zr + β-Nb) in the 25–70 at.% Nb composition range, accepting up to 3 at.% Fe approximately.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2007.01.216