Glasses are disclosed which are used to produce substrates in flat panel display devices. The glasses exhibit a density less than about 2.45 gm/cm3 and a liquidus viscosity greater than about 200,000 poises, the glass consisting essentially of the following composition, expressed in terms of mol per
Glasses are disclosed which are used to produce substrates in flat panel display devices. The glasses exhibit a density less than about 2.45 gm/cm3 and a liquidus viscosity greater than about 200,000 poises, the glass consisting essentially of the following composition, expressed in terms of mol percent on an oxide basis: 65-75 SiO2, 7-13 Al2O3, 5-15 B2O3, 0-3 MgO, 5-15 CaO, 0-5 SrO, and essentially free of BaO. The glasses also exhibit a strain point exceeding 650° C.
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What is claimed is: 1. An aluminosilicate glass comprising in mol percent on an oxide basis: 65-75 SiO2, 7-13 Al2O3, and 5-15 B2O3, wherein: (a) said glass has a RO/Al2O3 ratio between 0.9 and 1.2, wherein R represents Mg, Ca, Sr, and Ba; (b) the glass has a CaO concentration between 5 mol percent
What is claimed is: 1. An aluminosilicate glass comprising in mol percent on an oxide basis: 65-75 SiO2, 7-13 Al2O3, and 5-15 B2O3, wherein: (a) said glass has a RO/Al2O3 ratio between 0.9 and 1.2, wherein R represents Mg, Ca, Sr, and Ba; (b) the glass has a CaO concentration between 5 mol percent and 15 mol percent on an oxide basis; (c) the glass has a MgO concentration between 0 mol percent and 3 mol percent on an oxide basis; and (d) the glass has a density less than about 2.45 gram/cm3, a liquidus viscosity greater than about 200,000 poises, and a linear coefficient of thermal expansion over the temperature range from 0° C. to 300° C. between 28×10-7/° C. and 35×10-7/° C. 2. A glass according to claim 1 wherein the glass comprises in mol percent on an oxide basis: 67-73 SiO2, 8-11.5 Al2O3, 8-12 B2O3, and 5.5-11 CaO. 3. A glass according to claim 1 wherein the RO/Al2O3 ratio is between 0.92 and 0.96, wherein R represents Mg, Ca, Sr, and Ba. 4. A glass according to claim 1 wherein the glass has a strain point greater than about 650° C. 5. A glass according to claim 1 wherein the glass has a strain point greater than about 660° C. 6. A glass according to claim 1 wherein the glass has a melting temperature less than about 1700° C. 7. A glass according to claim 1 wherein the glass exhibits a weight loss of less than 0.5 mg/cm2 after immersion in a solution of 1 part 50 wt. % HF and 10 parts 40 wt. % NH4F for 5 minutes at 30° C. 8. A glass according to claim 1 wherein the glass has a liquidus viscosity greater than about 400,000 poises. 9. A glass according to claim 1 wherein the glass has a liquidus viscosity greater than about 600,000 poises. 10. A glass according to claim 1 wherein the glass has a liquidus viscosity greater than about 800,000 poises. 11. A glass according to claim 1 wherein the glass has a density less than about 2.40 gram/cm3. 12. A glass according to claim 1 wherein the glass has a linear coefficient of thermal expansion over the temperature range from 0° C. to 300° C. between 28×10-7/° C. and 33×10-7/° C. 13. A glass according to claim 1 wherein the glass comprises less than about 0.1 mol percent BaO. 14. A glass according to claim 1 wherein the glass comprises less than about 0.1 mol percent of alkali metal oxides. 15. A glass according to claim 1 wherein the glass has a liquidus viscosity greater than about 400,000 poises, a density less than about 2.45 gram/cm3, and a strain point greater than about 650° C. 16. A glass according to claim 1 wherein the glass has a liquidus viscosity greater than about 600,000 poises, a density less than about 2.45 gram/cm3, and a strain point greater than about 650° C. 17. A glass according to claim 1 wherein the glass has a liquidus viscosity greater than about 800,000 poises, a density less than about 2.45 gram/cm3, and a strain point greater than about 650° C. 18. In a flat panel display device, the improvement comprising a substrate comprising the glass of claim 1. 19. The flat panel display device of claim 18 wherein the substrate has an average surface roughness less than about 0.5 nm. 20. The flat panel display device of claim 18 wherein the substrate has an average internal stress less than about 150 psi.
Dumbaugh ; Jr. William H. (Painted Post NY) Lapp Josef C. (Corning NY) Moffatt Dawne M. (Corning NY), High liquidus viscosity glasses for flat panel displays.
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