Abstract:To investigate the behaviors of Cu²⁺ and Ni²⁺ with the change of conditions in Cu²⁺-Ni²⁺-NH₃-NH₄⁺- C₂O₄^2--H₂O reaction system, mathematical models of thermodynamics based on the principle of mass conservation were established. The simulation results indicate that the precipitation of metal ions from the aqueous phase is a complicated dynamic equilibrium process, during which the coordination reactions of Cu²⁺ and Ni²⁺ with NH₃ forming [Cu(NH₃)_n]²⁺ (n=3-5) and [Ni(NH₃)_m]²⁺ (m=3-6) are predominant under high pH conditions, respectively. The pH ranges for the simultaneous precipitation of Cu²⁺ and Ni²⁺ are 2.0-6.5 and 2.0-5.5 when [NH₃]_T equals 0.6 and 4.2 mol/L, respectively, with the prefixed [C₂O₄^2-]_T of 0.6 mol/L. Due to the fractional precipitation of Cu²⁺ and Ni²⁺, Cu-Ni composite is obtained after the thermal decomposition of Cu-Ni oxalate complex salts prepared in a pure water system when pH>7.0. By applying the mixed solvent (water/ethanol) as the precipitation medium, the Cu-Ni alloy rods can be finally fabricated with high purity and crystallinity.

Key words: coordination-precipitation equilibrium; thermodynamic mathematical models; Cu-Ni oxalate complex salts; Cu-Ni alloy