Abstract
Integral molar enthalpies of mixing were determined by drop calorimetry for Cu-Li-Sn at 1073 K along five sections x(Cu)/x(Sn) approximate to 1:1, x(Cu)/x(Sn) approximate to 2:3, x(Cu)/x(Sn) approximate to 1:4, x(Li)/x(Sn) approximate to 1:1, and x(Li)/x(Sn) approximate to 1:4. The integral and partial molar mixing enthalpies of Cu-Li and Li-Sn were measured at the same temperature, for Li-Sn in addition at 773 K. All binary data could be described by Redlich-Kister-polynomials. Cu-Li shows an endothermic mixing effect with a maximum in the integral molar mixing enthalpy of 5300 J.mol(-1) at x(Cu) = 0.5, Li-Sn an exothermic minimum of - 37,000 J.mol(-1) at x(Sn) 0.2. For Li-Sn no significant temperature dependence between 773 K and 1073 K could be deduced. Our measured ternary data were fitted on the basis of an extended Redlich-Kister-Muggianu model for substitutional solutions. Additionally, a comparison of these results to the extrapolation model of Chou is given.
Original language | English |
---|---|
Pages (from-to) | 105-116 |
Number of pages | 12 |
Journal | The Journal of Chemical Thermodynamics |
Volume | 61 |
DOIs | |
Publication status | Published - 2013 |
Austrian Fields of Science 2012
- 104003 Inorganic chemistry