Title :
Studies on hydride-forming alloys as the active material of a metal hydride electrode for a nickel metal hydride cell
Author :
Lim, H.S. ; Zelter, G.R. ; Allison, D.U. ; Reilly, J.J. ; Srinivasan, S. ; Stockel, J.F.
Author_Institution :
Hughes Space & Commun. Co., Torrance, CA, USa
Abstract :
Multi-component AB5 hydrides are attractive replacements for the cadmium electrode in nickel-cadmium batteries. The archetype compound of the AB5 alloy class is LaNi5, but in a typical battery electrode mischmetal is substituted for La and Ni is substituted in part by variety of metals. This paper deals with the effect on cycle life upon the partial substitution of various lanthanides for La and Sn, In, Al, Co, and Mn for Ni. The presence of Ce was shown to enhance cycle life as did Sn in some cases. An electrode of La0.67Ce0.33B5 alloy gave over 3500 cycles (to specific capacity of 200 mAh/g), indicating that it is a very attractive alloy for a practical Ni/MHx cell
Keywords :
electrochemical electrodes; lanthanum alloys; nickel; nickel alloys; secondary cells; La0.67Ce0.33B5; La0.67Ce0.33B5 alloy electrode; LaNi4.7Al0.3; LaNi4.8In0.2; LaNi4.8Sn0.2; LaNi5; Ni/MHx cell; active material; cycle life; hydride-forming alloys; metal hydride electrode; mischmetal; multi-component AB5 hydrides; nickel metal hydride cell; partial substitution; Aerospace materials; Aerospace testing; Batteries; Cadmium; Commercialization; Electrodes; Inorganic materials; Low earth orbit satellites; Nickel alloys; Tin;
Conference_Titel :
Battery Conference on Applications and Advances, 1997., Twelfth Annual
Conference_Location :
Long Beach, CA
Print_ISBN :
0-7803-3631-3
DOI :
10.1109/BCAA.1997.574075
