RI 6651 Devitrification Of Vacuum-Melted Glasses Of The Lithium Metasilicate-Silica Compositional Series
- Organization:
- The National Institute for Occupational Safety and Health (NIOSH)
- Pages:
- 18
- File Size:
- 6106 KB
- Publication Date:
- Jan 1, 1965
Abstract
The devitrification of lithium silicate glasses was studied to determine the effect of annealing temperature, composition, and additives on nucleation and crystallization. High-purity glasses, prepared from reagent-grade chemicals, had close to optical quality when prepared by a vacuum induction melting method developed during this research, The progress of devitrification was traced by differential thermal analysis and thermal expansion for those lithium metasilicate-silica compositions containing 80 to 90 percent silica. Microscopic studies of glasses partially devitrified at various temperatures and annealing times indicated that the primary initial mode of formation of individual crystals ,vas from densely crystalline zones that filled in as crystallization advanced Of the additives tested, calcium, potassium, and sodium helped promote devitrification with the least cracking or surface deformation. Tin oxide was most effective in reducing volume contrast ion during devitrification, but was not ClS effective in preventing cracking as calcium or potassium additions.
Citation
APA: (1965) RI 6651 Devitrification Of Vacuum-Melted Glasses Of The Lithium Metasilicate-Silica Compositional Series
MLA: RI 6651 Devitrification Of Vacuum-Melted Glasses Of The Lithium Metasilicate-Silica Compositional Series. The National Institute for Occupational Safety and Health (NIOSH), 1965.