Electric Conductivity and Viscosity of the Molten PbCl<SUB>2</SUB>–ZnCl<SUB>2</SUB> Binary System

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  • Electric Conductivity and Viscosity of the Molten PbCl<SUB>2</SUB>&ndash;ZnCl<SUB>2</SUB> Binary System

Abstract

Electric conductivities of PbCl2–ZnCl2 binary melts have been measured by using a cell specially designed to have a large cell constant. Viscosity coefficients have also been determined by the oscillating vessel method for the PbCl2-rich melts and the falling body method for the high viscosity melts. Variation of the ionic species present in the melt with composition has been estimated on the basis of the data obtained. The results are summarized as follows:<BR>(1) Molten ZnCl2 exhibits very low specific conductivity and high viscosity as compared with other chlorides. This may be attributed to the associating property of ZnCl2 as previously suggested by others.<BR>(2) Apparent activation energy for specific conductivity decreases with rising temperature, which is particularly conspicuous in the ZnCl2-rich side of the system, due probably to the thermal dissociation of complex species.<BR>(3) Specific conductivity increases and viscosity coefficient markedly decreases when PbCl2 is added to ZnCl2.<BR>(4) Apparent activation energies for both transport properties are decreased by the addition of PbCl2 to ZnCl2, but they become nearly constant and show the values similar to those of pure PbCl2 at the compositions of more than 50 mol% PbCl2.<BR>(5) It is estimated that the associating property of ZnCl2 is weakened by the addition of PbCl2 having a comparatively strong ionic character in the ZnCl2-rich side and also that single ions become predominant species in the PbCl2-rich side of the system.

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