Formation of MgCu₂ from MgH₂ and Cu in Pressurized Hydrogen Atmosphere

抄録

We have been proposing that there are competitive two kinds of pathways in the hydrogenation of Mg/Cu super-laminate composites. The one is that Mg reacts with Cu to form Mg₂Cu and then Mg₂Cu is hydrogenated to form MgH₂ and MgCu₂. The other is that Mg is hydrogenated and then MgH₂ and Cu reacts to form MgCu₂ together with H₂ gas, according to a hypothesis that the reaction of MgH₂ + 2Cu → MgCu₂ + H₂ occurs. In the present study, the reaction conditions such as pressure and temperature were investigated in order to confirm that the hypothesis is true. Well-mixed MgH₂ and Cu powder was compressed to a pellet at 1.73 GPa and then heated at various hydrogen pressures and temperatures. Following results were obtained from the experiments at 673 K. The above-mentioned alloying accompanied by H₂ emission occurs at pressures higher than 6.6 MPa of H₂ pressure, which is higher than lower limit for the hydrogenation of Mg₂Cu. On the other hand, Mg₂Cu is formed at 3.3 MPa which is lower than the limit. The reaction of MgH₂ with Cu also occurs at 573 K in 3.3 MPa H₂. But it requires very long time such as 691.2 ks, although the existence of MgCu₂ is confirmed in 86.1 ks of heating time in the case of Mg/Cu super-laminate composites.