The study describes the incorporation of solid silica into molten glass during glass-batch melting as a function of the grain size in the range from 5 to 275 µm. Whereas tiny grains formed a bubbly melt, very large grains formed slowly dissolving cluster. Silica grains are forced to clusters by rising bubbles. The impact of the silica grain size on the glass-forming melt viscosity, overall density, thermal conductivity, and compositional homogeneity, as well as the consequences of these effects on glass processing in melting furnaces, is discussed. A high-alumina borosilicate glass for nuclear waste vitrification was chosen for the study, but the authors believe that the observed behaviors occur also in melting of commercial batches.
Revised: July 23, 2010 |
Published: June 1, 2010
Citation
Schweiger M.J., P.R. Hrma, C.J. Humrickhouse, J. Marcial, B.J. Riley, and N.E. TeGrotenhuis. 2010.Cluster formation of silica particles in glass batches during melting.Journal of Non-crystalline Solids 356, no. 25-27:1359-1367.PNNL-SA-68732.