Pressure-composition-isotherm behavior of nano-/amorphous Mg2NiHx

Abstract

It has recently been shown that the hydriding properties of the nanocrystalline metal hydrides are far superior to those of the polycrystalline ones. Especially in the case of the Mg-based hydrogen storage alloys, nanostructural modifications have been studied for the purpose of improving their hydrogenation kinetics. In previous studies, I reported on the successful fabrication of Mg2NiHx from Mg and Ni chips with hydrogen induced mechanical alloying (HIMA). Observation of the microstructure showed that the synthesized particles (processed with a 66:1 ball to chips mass ratio and 96 hr HIMA) are composed of amorphous and nanocrystalline composite phases with a grain size of less than 10 nm. The aim of the present work was to examine the hydriding/dehydriding behavior of nanocrystalline metal hydrides using a Sieverts type automatic pressure-composition-isotherm (PCI) apparatus at 393, 423, 453, 483, 513 and 543 K. The specimen was characterized by X-ray diffraction after PCI measurement. The influence of hydrogenation behavior on the phase transition of nano-/amorphous Mg2Ni is a key factor in commercial application. The particles synthesized at 66:1 BCR and 96 hr HIMA revealed a good hydrogen capacity of 2.25 mass% at 483 K.