2008
DOI: 10.1016/j.jallcom.2007.05.027
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Interaction in (Ti,Sc)Fe2–H2 and (Zr,Sc)Fe2–H2 systems

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Cited by 41 publications
(29 citation statements)
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“…4b, the midpoint of the plateau for the ␣ → ␤ transformation during the first deuteration is observed at ∼560 bar D 2 for ZrFe 1.98 Al 0.02 , and at ∼410 bar for ZrFe 1.96 Al 0.04 . These pressures are significantly reduced as compared to the ZrFe 2 -H 2 system, where the first H absorption plateau at room temperature is above 1 kbar, at 1120 bar [16]. (b) On the second and further absorption cycles, the equilibrium pressure of hydrogen absorption is significantly reduced, to 690 bar for ZrFe 2 -H 2 [16] and to 430 bar for the ZrFe 1.98 Al 0.02 -D 2 systems.…”
Section: Zrfe 2−x Al X -D 2 Systemmentioning
confidence: 96%
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“…4b, the midpoint of the plateau for the ␣ → ␤ transformation during the first deuteration is observed at ∼560 bar D 2 for ZrFe 1.98 Al 0.02 , and at ∼410 bar for ZrFe 1.96 Al 0.04 . These pressures are significantly reduced as compared to the ZrFe 2 -H 2 system, where the first H absorption plateau at room temperature is above 1 kbar, at 1120 bar [16]. (b) On the second and further absorption cycles, the equilibrium pressure of hydrogen absorption is significantly reduced, to 690 bar for ZrFe 2 -H 2 [16] and to 430 bar for the ZrFe 1.98 Al 0.02 -D 2 systems.…”
Section: Zrfe 2−x Al X -D 2 Systemmentioning
confidence: 96%
“…These pressures are significantly reduced as compared to the ZrFe 2 -H 2 system, where the first H absorption plateau at room temperature is above 1 kbar, at 1120 bar [16]. (b) On the second and further absorption cycles, the equilibrium pressure of hydrogen absorption is significantly reduced, to 690 bar for ZrFe 2 -H 2 [16] and to 430 bar for the ZrFe 1.98 Al 0.02 -D 2 systems. (c) A pronounced hysteresis between the D 2 pressures of desorption and absorption during the first charge-discharge cycle.…”
Section: Zrfe 2−x Al X -D 2 Systemmentioning
confidence: 97%
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“…The in situ P-C measurements proved that hydrides of both ZrCo 2 and ZrFe 2 , formed under high hydrogen pressure are thermodynamically unstable and decompose when kept without contact with air [12,16]. However, there is substantial difference between behavior of both hydrides when left in contact with air at room temperature [10,11].…”
Section: Hydrides Of Zrco 2−x Fe X Intermetallic Compoundsmentioning
confidence: 99%
“…• C the equilibrium absorption/desorption pressures for ZrFe 2 -H 2 system were much lower -only 69.9/32.9 MPa(H 2 ) [12]. Consequently it seemed attractive to modify thermodynamic parameters of hydride formation by substituting one or both components of the parent alloy by another metal.…”
Section: Introductionmentioning
confidence: 99%