TY - JOUR
T1 - Electrical conductivity of pbo-siO2 liquids containing pb precipitates
AU - Pal, Uday
AU - Debroy, T.
AU - Simkovich, G.
N1 - Funding Information:
Acknowledgements- The authors are pleased to acknowledge support of this research by the National Science Foundation,
PY - 1984/1/1
Y1 - 1984/1/1
N2 - The phenomena of dispersion and growth of metallic lead from lead silicate melts in the composition range Xpbo = 0.45 to Xpbo = 0.6 at 1103 K were studied utilizing conductivity measurements. The conductivity of the molten silicate was found to be independent of the partial pressure of oxygen. However, in the presence of a reducing atmosphere viz CO or H2-Ar mixtures, dispersion and growth of metallic lead take place causing a change in the composition of the lead silicate melt and a change in the conductivity. The increase in the observed conductivity of the PbO-SiO2 melt during the initial stages of reduction is attributed to the emission of electrons from the dispersed lead particles, an effect which was further verified by Seebeck measurements. Also, the decrease in the observed conductivity during the subsequent period of reduction is attributed to the change in the composition of the molten silicate coupled with the growth and settling of lead particles.
AB - The phenomena of dispersion and growth of metallic lead from lead silicate melts in the composition range Xpbo = 0.45 to Xpbo = 0.6 at 1103 K were studied utilizing conductivity measurements. The conductivity of the molten silicate was found to be independent of the partial pressure of oxygen. However, in the presence of a reducing atmosphere viz CO or H2-Ar mixtures, dispersion and growth of metallic lead take place causing a change in the composition of the lead silicate melt and a change in the conductivity. The increase in the observed conductivity of the PbO-SiO2 melt during the initial stages of reduction is attributed to the emission of electrons from the dispersed lead particles, an effect which was further verified by Seebeck measurements. Also, the decrease in the observed conductivity during the subsequent period of reduction is attributed to the change in the composition of the molten silicate coupled with the growth and settling of lead particles.
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U2 - 10.1179/cmq.1984.23.3.295
DO - 10.1179/cmq.1984.23.3.295
M3 - Article
AN - SCOPUS:0021453711
SN - 0008-4433
VL - 23
SP - 295
EP - 302
JO - Canadian Metallurgical Quarterly
JF - Canadian Metallurgical Quarterly
IS - 3
ER -