A high activity and large capacity of hydrogen storage alloy Mg2Ni by hydriding combustion synthesis was investigated by means of pressure composition isotherms, X-ray diffraction and scanning electron microscopy. The results showed that the maximum hydrogen absorption capacity of Mg2Ni is 3.25 mass fraction at 523 K, just after synthesis without any activation. The relationships between the equilibrium plateau pressure and the temperature for Mg2Ni were lgp (0.1 MPa)=-3026/T+5.814 (523 K≤ T <623 K) for hydriding and Igp (0.1 MPa)=-3613/T+6.715 (523 K≤ T ≤623 K) for dehydriding. The kinetic equation is [-ln(l-a)]3/2 =kt and the apparent activation energy for the nucleation and growth-controlled hydrogen absorption and desorption were determined to be 64.3±2.31 kJ/(mol.H2) and 59.9±2.99 kJ/(mol.H2) respectively. A high activity and large capacity of hydrogen storage alloy Mg2Ni by hydriding combustion synthesis was investigated by means of pressure composition isotherms, X-ray diffraction and scanning electron microscopy. The results showed that the maximum hydrogen absorption capacity of Mg2Ni is 3.25 mass fraction at 523 The relationships between the plateau pressure and the temperature for Mg2Ni were lgp (0.1 MPa) = -3026 / T + 5.814 (523 K≤T <623 K) for hydriding and Igp (0.1 MPa ) = - 3613 / T + 6.715 (523 K ≤ T ≤ 623 K) for dehydriding. The kinetic equation is [-ln (la)] 3/2 = kt and the apparent activation energy for the nucleation and growth- controlled hydrogen absorption and desorption were determined to be 64.3 ± 2.31 kJ / (mol.H2) and 59.9 ± 2.99 kJ / (mol.H2) respectively.