Assessment of Thermodynamic Properties of Lead-Free Soldering Co–Sb–Sn, Ag–In–Pd–Sn, and Ni–Cr–Co–Al–Mo–Ti–Cu Alloys

Gibbs enthalpy of the liquid Co–Sb–Sn ternary alloys with three selected sections xSb/xSn = 1/3, xCo/xSb = 1/5,
and xCo/xSn = 1/4, of Ag10–In80–Pd–Sn10, Ag20–In60–Pd–Sn20, and Ag–In40–Pd20–Sn40 quaternary alloys
and the excess Gibbs energy of Ni–Cr–Co–Al–Mo–Ti–Cu with seven component alloys with selected sections,
namely, xNi = xCu, xCr = xTi, xCo = xTi, xAl = xTi, xMo = rxTi, xTi = (1 – xCu)/(r + 5), and r = 0.1 at temperatures
1273, 1173, and 2000 K, respectively. However, any information in the literature regarding the application
of GSM to the alloys mentioned above could not be found, the other geometric models such as Kohler,
Muggianu, and Toop are also included in present calculations. Using standard deviation formula, it is seen that
some reasonable agreements exist between the results of the geometric models and those of related experiments.