Abstract

The hydriding/dehydriding (HID) rates and pressure-composition isotherms (PCTs) of Mg-Pd, Mg-Nd and Mg-Pd-Nd alloys with ∼ 90 at% Mg have been measured, and the characteristics of these hydrogen-storage properties have been discussed in relation with the phase structures and microstructures of the alloys studied by X-ray diffraction (XRD) and scanning electron microscopy (SEM). All these alloys exhibit a hydrogen absorbency of ∼ 5 mass% at 573 K. The PCTs of the alloys containing Pd exhibit three plateau-like regions. A complementary examination of the phase structures, microstructures and PCT characteristics at 523-623 K shows that the HID kinetics is strongly influenced by the following three factors: (1) A catalytic effect of NdH 2.5 and NdH 3 which assist hydriding and dehydriding of Mg matrix; (2) the disproportionation reaction of Mg 6 Pd to form Mg 5 Pd 2 and MgH 2 , which retards the overall reaction kinetics; and (3) the refinement of the microstructure which enhances the kinetics of all the H/D reactions. A melt-spun and crystallized Mg-Pd-Nd alloy which shows a fine-grained (∼ 1 μm) microstructure exhibits the best H/D kinetics, especially the desorption kinetics, among the three alloys investigated, and it can be a promising candidate for an efficient hydrogen storage material in the future. The formation of Mg 5 Pd 2 H ∼5 hydride is suggested from the PCTs of the alloys containing Pd, although it has not been evidenced by XRD and SEM.

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