The conductivities of the melts were determined as a function of composition, for temperatures ranging from the melting point to 1100K (table 35). It was found that the equivalent conductivity, as a function of composition, could be described by the function:
σ (Scm2/mol) = 136.4640-36.1454x-31.3162x2+54.9653x3
H.P.Bossmann, J.Richter, N.Struck: Zeitschrift fur Naturforschung, 1991, 46a[1-2], 206-9
Table 35
Conductivity of Molten NaBr-xAgBr at 1100K
σ [S/cm] = a + bT + cT2
x | Tm | a | 103b | 106c |
0.1 | 1010 | -7.1516 | 16.7858 | -6.8055 |
0.3 | 940 | -2.6647 | 8.8556 | -3.3591 |
0.5 | 880 | -2.2635 | 8.4353 | -3.3301 |
0.7 | 795 | -0.9894 | 6.6099 | -2.6146 |
0.9 | 710 | -0.4313 | 6.7222 | -2.9192 |