Abstract:The influences of different temperatures of annealing treatment on the phase structure and electrochemical properties of La4MgNi17. 5Co1. 5 hydrogen storage alloy were investigated. The XRD analysis reveals that the alloys consist of LaNi5 phase and La4MgNi19 phase. With the increase of the temperature of annealing, the cell volume and the abundance of La4MgNi19 phase increases. While the temperature is up to 1 173 K, the abundance of La4MgNi19 phase decreases and the Ni- riched phase appears. The electrochemical measurement shows that the maximum discharge capacity increases obviously when the temperature is up to 1 123 K. The high- rate discharge ability(HRD) and cyclic stability(S100) are also improved. But when the temperature is up to 1 173 K, the electrochemical properties above are all decreased. For example, Cmax and S100 are increased from (369. 66 mA·h/g, 59. 96%)(as- cast) to (375. 33 mA·h/g, 65. 52%)(1 123 K) and then decreased to (312. 44 mA·h/g, 62. 82%)(1 173 K). It is found that the increase of the temperatures of annealing treatment can improve the uniformity of the phase structure. But when the temperature increases further, it will increase the volatilization of Mg and lead to the decomposing of La4MgNi19 phase.
Yongquan Lei.New energy materials[M]. Tianjin: Tianjin University Press, 2000: 44-45
[2]
Kohno T, Yoshida H, Kawashima F, etal.Hydrogen storage properties of new ternary system alloys: LaMg2Ni9,La5Mg2Ni23,La3MgNi14[J].Alloys Comp, 2000, 311(2):L5-L7
Hayakawa H, Akiba E, Gotoh M, et al.Crystal Structures of La-Mg-Ni_x(x=3-4) System Hydrogen Storage Alloys.[J].Materials Transactions, 2005, 46(6):1393-1394
[8]
Zhang Y H, Li B W, Ren H P, et al.Influence of Substituting Ni with Fe on Cycle Stabilities of As-cast and As-quenched La075Mg0.3Co0.45Ni2.55-xFex(x=0-0.4) Electrode Alloys[J].Rare Metal Materials and Engineering, 2009, 38(6):941-946
[9]
Miao H, Gao M X, Li D F, et al.Effect of Boron Addition on Structure and Electrochemical Properties of La-Mg-Ni-Co System Hydrogen Storage Electrode Alloys[J].Rare Metal Materials and Engineering, 2009, 38(2):0193-0197
[10]
Chai Y J, Sakaki K, Asano K, Enoki H, Akiba E, Kohno T.Crystal structure and hydrogen storage properties of La-Mg-Ni-Coalloy with superstructure[J].Scripta Materialia, 2007 , 57(6):545-548
[11]
Pan C C, Cai W P, et al.Microstructure and Electrochemical Properties of Melt-spun Nd08 Mg0.2(Ni0.8Co0.2)3.8 Hydrogen Storage Alloy[J].Journal of Rare Earths, 2010, 28(1):100-103
Alzic G D, Johnson J R, Mukerjee S, McBreen J, Reilly J J.Function of cobalt in AB5Hx electrodes[J].Journal of Alloys and Compounds, 1997, 253-254(1-2):579-582
[18]
Cocciantellik J M, Bernard P, Fenandez S, Atkin J.The influence of Co and various additives on the performance of MmNi4.3-xMn0.33A10.4Cox hydrogen storage alloys and Ni/MH prismatic sealed cells[J].Journal of Alloys and Compounds, 1997, 253-254(1-2):642-647
[19]
Chartouni D, Meli F, ZUttel A, Gross K, Schlapbach L.The influence of cobalt on the electrochemical cycling stability of La-Ni5-based hydride forming alloys[J].Journal of Alloys and Compounds, 1996, 241(1-2):160-166
[20]
Hayakawa H, Akiba E, Gotoh M, et al.Crystal structure of La-Mg-Nix(x=3~4) system hydrogen storage alloys[J].Matericals Transactions, 2005, 46(6):1393-1394
Wei Fan-song, Lei Yong-quan, Chen Li-xin, Ying Tiao, Ge Hong-wei, Lü Guang-lie.Influence of material processing on crystallographic and electrochemical properties of cobalt-free LaNi495Sn0.3 hydrogen storage alloy[J].Transactions of Nonferrous Metals Society of China, 2006, 16(3):527-531
2015, Vol. 22 
