Integral molar enthalpies of mixing were determined by drop calorimetric method for Ag–Ca liquid alloys at temperatures (1254 and 1131)K using a Setaram MHTC 96 Line evo calorimeter. Measurements were conducted for alloys of concentrations between 0.0642⩽X Ca ⩽0.9396 at T=1254K and at 1131K between 0.7564⩽X Ca ⩽0.9647. The obtained values are negative in the entire range of concentrations and the minimum of the integral enthalpy of mixing equal –24609 J/mol of atoms was observed for 0.4634mol fraction of calcium at T=1254K. The analysis of experimental data showed that most probably ΔH m of Ag–Ca liquid alloys is independent of temperature and that they are almost twice less exothermic than those ones by the partial pressure measurements. Based on the data of this study and that available in the literature, the interaction parameters of Redlich–Kister equation for the liquid Ag–Ca phase were evaluated. The concentration fluctuation structure factor Scc(0) calculated using drawn up in this study equation showed the swallow minimum between Ca concentrations appropriate for Ag 9 Ca 2 and AgCa intermetallic phases what can suggest at two kind of associates in liquid solutions.