研究了Ti1.0V1.1Mn0.5Nix(x=0.4, 0.5, 0.6, 0.7, 0.8, 1.0)贮氢合金的相结构和电化学性能. 结果表明, 所有合金都由两相组成, 主相为具有bcc结构的钒基固溶体相, 第二相则随着镍含量的增加从C14型Laves相转变成为bcc结构的TiNi基相. 合金中的主相晶胞参数随镍含量增加而减小, 但C14型Laves相晶胞参数随之增大. SEM照片显示合金中呈树枝晶的主相被三维网络状的第二相包围. 电化学性能测试表明, x=0.4的合金电极要比其他合金电极更易活化, 但当x=0.7时合金具有最大的放电容量, 293 K时放电容量为258.2 mAh·g-1, 333 K时放电容量达到了404 mAh·g-1, 所有电极放电容量都随温度升高而增大. 电极的倍率放电性能随着镍含量的增大得到改善. 电化学P-C-T曲线表明, 增加镍含量后, 合金电极放氢平台压升高.
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