用氢化燃烧法合成Mg2-xAgxNi(x=0.05,0.1,0.2,0.5)和Mg2-xAlxNi(x=0,0.1,0.2,0.5)。PCT结果说明合成的Mg Ni Ag和Mg Ni Al储氢合金材料具有很高的活性和理想的储氢性能。对两个体系的PCT结果分别进行计算,得出温度和氢平衡压的关系式。...用氢化燃烧法合成Mg2-xAgxNi(x=0.05,0.1,0.2,0.5)和Mg2-xAlxNi(x=0,0.1,0.2,0.5)。PCT结果说明合成的Mg Ni Ag和Mg Ni Al储氢合金材料具有很高的活性和理想的储氢性能。对两个体系的PCT结果分别进行计算,得出温度和氢平衡压的关系式。在423K时Mg1.8Ag0.2Ni在5min之内的放氢量为2.14%/min(质量分数);Mg1.5Al0.5Ni在α+β相区的吸氢速率为4.88%/min(质量分数),放氢速率为1.26%/min(质量分数)。用XRD方法进行物相分析表明:添加少量银没有改变Mg2Ni的结构;添加铝却改变了Mg2Ni的结构,使储氢合金材料的储放氢动力学性能均得到改善。展开更多
文摘用氢化燃烧法合成Mg2-xAgxNi(x=0.05,0.1,0.2,0.5)和Mg2-xAlxNi(x=0,0.1,0.2,0.5)。PCT结果说明合成的Mg Ni Ag和Mg Ni Al储氢合金材料具有很高的活性和理想的储氢性能。对两个体系的PCT结果分别进行计算,得出温度和氢平衡压的关系式。在423K时Mg1.8Ag0.2Ni在5min之内的放氢量为2.14%/min(质量分数);Mg1.5Al0.5Ni在α+β相区的吸氢速率为4.88%/min(质量分数),放氢速率为1.26%/min(质量分数)。用XRD方法进行物相分析表明:添加少量银没有改变Mg2Ni的结构;添加铝却改变了Mg2Ni的结构,使储氢合金材料的储放氢动力学性能均得到改善。
基金Projects(50871050,50961009)supported by the National Natural Science Foundation of ChinaProjects(2010ZD05,2011ZD10)supported by Natural Science Foundation of Inner Mongolia,ChinaProject(NJzy08071)supported by High Education Science Research Project of Inner Mongolia,China
基金Project (2007AA03Z227) supported by the High-tech Research and Development Program of ChinaProjects (50871050, 50701011) supported by the National Natural Science Foundation of China+1 种基金Project (200711020703) supported by Natural Science Foundation of Inner Mongolia, ChinaProject (NJzy08071) supported by Higher Education Science Research Project of Inner Mongolia, China