ACTIVATION BEHAVIOR OF AB_2-TYPE METAL HYDRIDE ELECTRODES

摘要

Electrochemical activation behavior of an AB2-Laves-phase type hydrogen storage alloy, Zr)(0.9)Ti_(0.1)Ni_(1.1)Co_(0.1)Mn_(0.6)V_(0.2), was studied to make clear activation process of pellet-type metal hydride electrodes. An alkaline treatment of the electrodes with heated alkaline solution gave alloy surface enriched with nickel, and the treated electrode was more easily activated. The treated electrode desorbed more hydrogen during the first charge-discharge cycle, and was activated without induction period. A cross sectional view of the activated electrode showed finer pulverization of alloy particles than the annealed alloy, and impedance spectroscopy indicated larger surface area of the electrode using the as-cast alloy. Since the as-cast alloy contains inhomogeneities, multi-phase microstructure and stress in the particle, the finer pulverization of alloy particles with hydrogenation are considered to increase surface area in an earlier cycle in the case of the as-cast alloy, which leads larger reaction area and faster activation of the as-cast alloy electrode.