Abstract:The systematic science of alloys(SSA) is a framework of the total energy and total volume able to be separated. The potential energy sequences of characteristic atoms at the central sites of the basic clusters in the fcc-based lattice Au-Cu system are separated out from smaller experimental heats of formation of L1₀-AuCu and L1₂-AuCu₃ compounds only, by nine potential energy E-functions and through the use of structural unit inversion method. From these potential energy sequences, the potential energies and heats of formation of the disordered Au_1−xCu_x alloys at 0 K are calculated. The potential energies, heats of formation and T_c-temperatures of order-disorder transitions of the L1₀-AuCu, L1₂-Au₃Cu and L1₂-AuCu₃ compounds, as well as the Au₃Cu-, AuCu- and AuCu₃- type ordered alloys with maximal ordering degrees are calculated too. The results show that the 5th E-function may be chosen for developing it into the free energy-, enthalpy-, vibrational energy- and vibrational entropy-functions for describing thermodynamic properties of the compounds, ordered and disordered phases and for establishing the phase diagram of the Au-Cu system in the future.

Key words: systematic science of alloys; Au-Cu system; potential energy; heat of formation; order-disorder transition temperature