Constitution of the systems {V,Nb,Ta}-Sb and physical properties of di-antimonides {V,Nb,Ta}Sb-2
- Autor(en)
- Fainan Failamani, Pavel Broz, Daniele Maccio, Stephan Puchegger, Helmut Müller, Leonid P. Salamakha, Herwig Michor, Andrij Grytsiv, Adriana Saccone, Ernst Bauer, Gerald Giester, Peter Franz Rogl
- Abstrakt
The binary phase diagrams {V,Nb,Ta}-Sb below 1450 °C were studied by means of XRPD, EPMA, and DTA measurements. In the V-Sb system, five stable binary phases were observed in this investigation: V
3+xSb
1-x, →T-V
3Sb
2, hT-V
2-xSb, V
7.46Sb
9, V
1-xSb
2. The V-Sb phase diagram is characterized by two degenerate eutectic reactions: L→V
3+xSb
1-x+(V) (T > 1450 °C at 18.1 at.% Sb) and LV
1-xSb
2+(Sb) (T=(621 ± 5)°C at ∼99 at.% Sb), three peritectic reactions: L + V
3+xSb
1-x+hT-V
2-xSb (T=(1230 ± 10)°C at ∼42 at.% Sb), L + hT-V
2-xSb+V
7.46Sb
9 (T=(920 ± 10)°C at ∼87 at.% Sb), and L + V
7.46Sb
9+V
1-xSb
2 (T=(869 ± 5)°C at ∼88 at.% Sb), a peritectoid reaction: V
3+xSb
1-x + hT-V
2-xSb→T-V
3Sb
2 at (875 ± 25)°C, a eutectoid reaction: hT-V
2-xSb →T-V
3Sb
2+V
7.46Sb
9 at (815 ± 15)°C and congruent melting of V
3+xSb
1-x (T > 1450 °C). An X-ray single crystal study of V
5Sb
4C
1-x proved the existence of interstitial elements in the octahedral voids of a partially filled Ti
5Te
4-type structure (x∼0.5; R
F2 = 0.0101), therefore this phase (earlier labeled "V
5Sb
4") was excluded from the binary equilibrium phase diagram. V
5Sb
4C
1-x is the first representative of a filled Ti
5Te
4-type structure. A re-investigation of the Nb-Sb system removed the contradiction between the hitherto reported phase diagrams and confirmed the version derived by Melnyk et al. (see ref. [1]). Three binary phases exist in the Ta-Sb system: Ta
3+xSb
1-x, Ta
5Sb
4, TaSb
2. Due to instrumental limits (<1450 °C), only the peritectic reaction of TaSb L + Tab+ TaSb ((1080 ± 10)°C at ∼92 at.% Sb) and a degenerate Sb-rich eutectic reaction (L+TaSb (622 ± 5)° ∼99 at.% Sb) have been determined. Physical properties (mechanical and transport properties) of binary di-antimonides were investigated with respect to a potential use of these metals either as diffusion barriers or electrodes for thermoelectric devices based on skutterudites. All group-V metal di-antimonides have low metallic-type resistivity and relatively high thermal conductivity. Magnetic field has little influence on the resistivity of V at low temperature, while on {Nb,Ta}Sb it increases the resistivity, especially on NbSb The coefficient of thermal expansion (CTE) decreases from V to TaSb, particularly the CTE value of NbSb is in the range of average n-type filled skutterudites. In contrast to the CTE value, elastic moduli increase from V to TaSb. The value for V is in the range of Sb-based skutterudites, whereas the values for {Nb,Ta}Sb are significantly higher.
- Organisation(en)
- Institut für Physikalische Chemie, Fakultätszentrum für Nanostrukturforschung, Institut für Mineralogie und Kristallographie, Institut für Materialchemie
- Externe Organisation(en)
- Christian Doppler Forschungsgesellschaft, Masaryk University, Università degli Studi di Genova, Technische Universität Wien
- Journal
- Intermetallics
- Band
- 65
- Seiten
- 94-110
- Anzahl der Seiten
- 17
- ISSN
- 0966-9795
- DOI
- https://doi.org/10.1016/j.intermet.2015.05.006
- Publikationsdatum
- 10-2015
- Peer-reviewed
- Ja
- ÖFOS 2012
- 104003 Anorganische Chemie, 104017 Physikalische Chemie, 104011 Materialchemie, 105113 Kristallographie
- Schlagwörter
- ASJC Scopus Sachgebiete
- Mechanics of Materials, Mechanical Engineering, Metals and Alloys, Materials Chemistry, Chemistry(all)
- Link zum Portal
- https://ucrisportal.univie.ac.at/de/publications/constitution-of-the-systems-vnbtasb-and-physical-properties-of-diantimonides-vnbtasb2(5a989f8b-7d8d-436a-b142-4e9cb235686e).html