利用强磁场下的氢化燃烧合成技术制备Mg-Ni氢化物。在等温和非等温条件下测试该氢化物的放氢动力学性能。利用一个新模型分析Mg-Ni氢化物的放氢动力学机理。结果显示,理论计算结果与实验数据吻合良好,尤其是在非等温条件下。Mg-Ni氢化物体系在放氢过程的控制步骤是氢原子在基体中的扩散。在6 T强磁场下合成的氢化物样品在等温和非等温条件下都具有最佳的放氢综合性能,并对其原因进行分析。 Mg-Ni hydride was prepared by hydrogenation combustion synthesis under strong magnetic field. The hydrogen evolution kinetics of this hydride was tested under isothermal and non-isothermal conditions. A new model was used to analyze the kinetics of hydrogen desorption of Mg-Ni hydride. The results show that the calculated results agree well with the experimental data, especially under non-isothermal conditions. The controlling step of Mg-Ni hydride system in the hydrogen desorption process is the diffusion of hydrogen atoms in the matrix. The hydride samples synthesized under a strong magnetic field of 6 T have the best comprehensive properties of hydrogen desorption at both isothermal and non-isothermal conditions, and their causes are analyzed.