【摘要】 系统研究了（Ti-Cr）_100-xV_x（x=30,40,50,60;Ti/Cr=0.7～0.75）合金的微结构及储氢性能。XRD及SEM分析表明,当V含量x=30时,合金中由体心立方（bcc）结构的钒基固溶体主相和微量α-Ti第二相组成;当V含量增至x=40～50时,合金为单一的bcc相;当x=60时,合金中出现了C15型Laves第二相。储氢性能测试表明,随着V含量的增加,合金的活化性能下降;室温最大吸氢量和90℃有效放氢容量均先增加后降低,并在x=50时达到最高值。合金的P-C-T曲线平台比较宽,吸放氢压力滞后均较大。当V含量x=50时,合金的综合性能相对较佳,室温最大吸氢量可达393ml·g^-1,90℃有效放氢容量为210ml·g^-1。更多还原

【Abstract】 The microstructures and hydrogen storage properties of （Ti-Cr）_100-xV_x （x=30, 40, 50, 60; Ti/Cr=0.7—0.75） alloys were investigated. The XRD and SEM analysis show that the alloy with V content of x=30 consists of a V-based solid solution main phase with bcc structure and an a-Ti secondary phase; as x=40—50, the alloys have only a single bcc phase; as x=60, a C15 type Laves secondary phase appears in the alloy. It is found that with the increase of V content in the alloys, the activation behavior descends. The hydrogen absorption capacity at room temperature and the effective hydrogen desorption capacity at 90℃ increase first and then decrease, and reach a maximum value as x=50. The plateau of the PCT curves is wide but not flat, and the hysteresis of the pressure is great. The alloy with x=50 has a good overall property, such as the hydrogen absorption capacity of 396 ml·g^-1 at room temperature and the effective desorption capacity of 216 ml·g^-1 at 90℃.更多还原