Abstract:The systematic science of alloys (SSA) is a framework of the total energy and total volume able to be separated. The volume sequences of characteristic atoms at the central sites of the basic clusters in the fcc-based Au-Cu system are separated out from the experimental volumes of L1₀-AuCu and L1₂-AuCu₃ compounds at room temperature only, by nine volume V-functions. From these volume sequences, the volumes, volumes of formation, ordering (excess) volumes and volume mismatch degrees of the L1₀-AuCu, L1₂-AuCu₃ and L1₂-Au₃Cu compounds, Au₃Cu-, AuCu- and AuCu₃-type ordered alloys with maximal ordering degree, and disordered Au_1−xCu_x alloys are calculated. Among these functions, only ordering volumes of the compounds and ordered alloys obtained by the 6th V-function are negative, i.e., the destruction of the superlattice is accompanied by an increase in volume, which is identical with the experimental results. Accompanying conclusions, the different descriptions of volumetric properties between traditional alloy theories and SSA framework are discussed.

Key words: systematic science of alloys; Au-Cu system; atomic volume; volume of formation; ordering volume; volume mismatch