Determination of Na2O activities in silicate melts by EMF measurements

An EMF cell using a Na-beta ''-alumina electrolyte has been designed for the quantification of the thermodynamic activity of Na2O (aNa(2)O) in a series of sodium-bearing silicate liquids at high temperature. Initial experiments have been performed using Na2O-0.663WO(3) and Na2O-0.555MoO(3) as reference liquids. Values of aNa(2)O derived for Na2O-2SiO(2) binary melt are found to be in excellent agreement with data from the literature, confirming the validity of the method. To extend use of this experimental set-up to higher temperature, the aNa(2)O of industrial Gglass has been calibrated as a reference liquid at temperatures up to 1263 degrees C. The influence of additions of CaO, Al2O3 and B2O3 on the Na2O activity of binary sodium-silicates has been quantified. For each glass composition, measured values of aNa(2)O are a function of temperature, log(aNa(2)O) varying as a function of inverse absolute temperature. Activation energies derived from these data are all generally similar with the exception of industrial E-glass, which is rich in All and poor in Na. At constant temperature, additions of network forming Al2O3 and B2O3 to a Na2O-SiO2 binary melt yield a decrease of the activity of Na2O, while addition of network modifying CaO results in an increase in (aNa(2)O). These changes are qualitatively consistent with predictions based upon expected modifications of melt structure. However, measured values of log(aNa(2)O) do not correlate perfectly with theoretical models of glass basicity, suggesting that either sodium activity is decoupled from melt basicity, or that current models are insufficient to calculate that parameter, in particular for the case of liquids poor in Na and rich in Al. (C) 2008 Published by Elsevier B.V.