Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1636014 | Transactions of Nonferrous Metals Society of China | 2015 | 7 Pages |
Abstract
Amorphous Ti2-xMgxNi (x=0-0.3) alloys were prepared by mechanical milling of elemental powders. Charge and discharge test, linear polarization (LP) and potential-step measurement were carried out to investigate the electrochemical hydrogen storage properties of the alloys before and after heat treatment. The results show that the maximum discharge capacity of heat-treated Ti2-xMgxNi alloy can reach 275.3 mA·h/g, which is 100 mA·h/g higher than that of the amorphous Ti2-xMgxNi alloy. The heat-treated Ti1.9Mg0.1Ni alloy presents the best cycling stability with a high discharge capacity of 210 mA·h/g after 30 cycles. The results of LP and potential-step measurement of the Ti1.9Mg0.1Ni alloy show that the exchange current density increases from 101.1 to 203.3 mA/g and the hydrogen diffusion coefficient increases from 3.20Ã10â11 to 2.70Ã10â10 cm2/s after the heat treatment, indicating that the heat treatment facilitates both the charge-transfer and hydrogen diffusion processes, resulting in an improvement in electrochemical hydrogen storage properties of Ti2-xMgxNi (x=0-0.3) alloys.
Related Topics
Physical Sciences and Engineering
Materials Science
Metals and Alloys
Authors
Jia-jia LI, Jun-feng ZHOU, Xiang-yu ZHAO, Meng YANG, Li-qun MA, Xiao-dong SHEN,