Effect of microstructure on the phase composition and hydrogen absorption-desorption behaviour of melt-spun Mg-20Ni-8Mm alloys

摘要

The effect of microstructure on the phase composition and hydrogen absorption-desorption behaviour of Mg-based Mg-20Ni-8Mm (wt.%) (Mm = La-rich Mischmetal) alloys has been studied. Rapid solidification (RS) processing resulted in the formation of the high-temperature cubic modification of Mg_2NiH_4 and the solid solution hydride Mg_2NiH_(0.3), in the disappearance of the monoclinic modification of Mg_2NiH_4, as well as in a decrease in the unit cell volumes of the constituent hydride phases. The above-mentioned tendencies became more pronounced in the order "as-cast < Cu-300 < Cu-1000 = Cu-2000" (where the sample names Cu-#### denote the spinning velocity of the copper wheel in rpm), which is explained by an increase in the mechanical stresses in the materials and/or by an increased interfacial energy of the fine grains of the corresponding hydrides. The hydrogen absorption kinetics was improved in the order "Cu-300 < Cu-1000 < Cu-2000". The temperature range of hydrogen thermal desorption from the hydrogenated alloys shrank in the order "Cu-300 > Cu-1000 Cu-2000", which is explained by increased uniformity of the hydrides grain size in the hydrides with increasing solidification rate. During PCT (pressure composition temperature) tests, the Cu-1000 and Cu-2000 samples displayed the largest pressure hysteresis and the smallest slope of the higher Mg_2NiH_4 plateau, but also the lowest hydrogen storage capacity.