Synthesis of hexagonal C14/C36 and cubic C15 ZrCr2 Laves phases and thermodynamic stability of their hydrides
J Bodega, JF Fernández, F Leardini, JR Ares… - Journal of Physics and …, 2011 - Elsevier
J Bodega, JF Fernández, F Leardini, JR Ares, C Sánchez
Journal of Physics and Chemistry of Solids, 2011•ElsevierZrCr2 samples with well defined hexagonal (C14/C36) or cubic (C15) Laves phase
structures have been synthesised by melting in an arc furnace followed by different
treatments depending on the sample type. Hydrogen absorption capacity and
thermodynamic stability of their respective hydrides have been investigated by solid–gas
reaction. Pressure–composition–temperature (PCT) curves obtained for both structures at
temperatures of 348, 373, 398 and 423K, and H-pressures from 101 to 106Pa, showed that …
structures have been synthesised by melting in an arc furnace followed by different
treatments depending on the sample type. Hydrogen absorption capacity and
thermodynamic stability of their respective hydrides have been investigated by solid–gas
reaction. Pressure–composition–temperature (PCT) curves obtained for both structures at
temperatures of 348, 373, 398 and 423K, and H-pressures from 101 to 106Pa, showed that …
ZrCr2 samples with well defined hexagonal (C14/C36) or cubic (C15) Laves phase structures have been synthesised by melting in an arc furnace followed by different treatments depending on the sample type. Hydrogen absorption capacity and thermodynamic stability of their respective hydrides have been investigated by solid–gas reaction. Pressure–composition–temperature (PCT) curves obtained for both structures at temperatures of 348, 373, 398 and 423K, and H-pressures from 101 to 106Pa, showed that the cubic phase is less stable than the hexagonal ones. This result was related to Miedema's rule of reversed stability and also correlated to the volume of the interstitial hole for hydrogen.
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