The conductivities of molten systems were determined by using an alternating current technique. It was found that the results could be described by quadratic functions of temperature (table 164). It was suggested that conduction in the melts involved octahedral complex formation and clustering.
J.Mochinaga, Y.Iwadate, K.Igarashi: Journal of the Electrochemical Society, 1991, 138[12], 3588-92
Table 164
Ionic Conductivity of NdCl3-NaCl Melts
σ = a + 10-3bT + 10-6cT2
NdCl3 (mol%) | Temperature (K) | a (S/cm) | b (S/cmK) | c (S/cmK2) |
12.5 | 1042-1081 | -0.928 | 4.032 | -0.610 |
24.9 | 973-1072 | -2.344 | 5.789 | -1.490 |
35.0 | 928-1074 | -3.403 | 7.235 | -2.166 |
50.0 | 843-991 | -4.093 | 7.841 | -2.442 |
62.4 | 933-1082 | -4.388 | 8.028 | -2.503 |
76.0 | 993-1067 | -26.371 | 49.670 | -22.396 |
87.4 | 1019-1072 | -10.611 | 19.148 | -7.733 |