Abstract
Abstract Hydrogen absorption/desorption properties of MmNi 4.5 Cr 0.5− x Zr x alloys ( x = 0, 0.05, 0.1) were investigated in the present work. The Pressure–Composition (PC) isotherms and absorption kinetics were measured in the temperature range of 273 ≤ T ≤ 303 K by the volumetric method. XRD patterns showed that the as-annealed MmNi 4.5 Cr 0.5− x Zr x alloys had CaCu 5 type hexagonal structure and could keep the same single phase after 16 cycles of absorption/desorption. It was found that with the increase of x in MmNi 4.5 Cr 0.5− x Zr x alloys, the dissociation plateau pressure increased, the hysteresis was diminished, the hydrogen uptake capacity was reduced and the absorption kinetics was improved. The absorption plateau pressure increased when x was increased to 0.05, but decreased when x increased to 0.1. It was also found that the dissociation plateau pressure increased linearly with increasing cell volume V and the lattice parameter a , and the hydrogen uptake capacity decreased linearly with increasing Zr content.
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