Described herein are aluminoborosilicate glass compositions that are substantially alkali-free and exhibit desirable physical and chemical properties for use as substrates in flat panel display devices, such as, active matrix liquid crystal displays (AMLCDs). The glass compositions can be formed int
Described herein are aluminoborosilicate glass compositions that are substantially alkali-free and exhibit desirable physical and chemical properties for use as substrates in flat panel display devices, such as, active matrix liquid crystal displays (AMLCDs). The glass compositions can be formed into glass sheets by, for example, the float process. When used as substrates, the glass sheets exhibit dimensional stability during processing and damage resistance during cutting.
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1. A substantially alkali-free glass, wherein the glass satisfies the following relationships: [SiO2]+[Al2O3]≤81.3; (a)Σ[RO]/[Al2O3]≤1.3; and (b)a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≤1310 (c) where a0=1710.446, a1=−7.715, a2=−14.847, a3=−17.550, a4=−16.643, and a5=−12.574; 84≥a0+a1*[
1. A substantially alkali-free glass, wherein the glass satisfies the following relationships: [SiO2]+[Al2O3]≤81.3; (a)Σ[RO]/[Al2O3]≤1.3; and (b)a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≤1310 (c) where a0=1710.446, a1=−7.715, a2=−14.847, a3=−17.550, a4=−16.643, and a5=−12.574; 84≥a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥68 (f) where a0=67.773, a1=0.865, a2=−0.825, a3=0.903, a4=0.356, and a5=0.133; and 38≥a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥30 (g) where a0=18.773, a1=−0.365, a2=0.187, a3=0.744, a4=1.500, and a5=1.848; and wherein the glass satisfies at least one of the following relationships (d1) or (d2): a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥775 (d1) where a0=847.516, a1=4.747, a2=−10.144, a3=−5.089, a4=−6.837, and a5=−6.548; or a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥720 (d2) where a0=774.973, a1=4.886, a2=−9.666, a3=−3.610, a4=−5.840, and a5=−5.713; and wherein [SiO2], [Al2O3], [B2O3], [MgO], [CaO], and [SrO] represent mole percents of SiO2, Al2O3, B2O3, MgO, CaO, and SrO, respectively, and Σ[RO] equals the sum of mole percents of MgO, CaO, SrO, BaO, and ZnO. 2. The glass of claim 1, wherein the glass satisfies both of the following relationships (d1) and (d3): a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥775 (d1) where a0=847.516, a1=4.747, a2=−10.144, a3=−5.089, a4=−6.837, and a5=−6.548; and a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥685 (d3) where a0=774.973, a1=4.886, a2=−9.666, a3=−3.610, a4=−5.840, and a5=−5.713. 3. The glass of claim 2, wherein the strain point of the glass is greater than or equal to 685° C. when measured by a fiber elongation technique. 4. The glass of claim 1, wherein the glass satisfies both of the following relationships (d2) and (d4): a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥720 (d2) where a0=774.973, a1=4.886, a2=−9.666, a3=−3.610, a4=−5.840, and a5=−5.713; and a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥740 (d4) where a0=847.516, a1=4.747, a2=−10.144, a3=−5.089, a4=−6.837, and a5=−6.548. 5. The glass of claim 4, wherein the annealing point of the glass is greater than or equal to 740° C. when measured by a fiber elongation technique. 6. The glass of claim 1, wherein the glass satisfies the following relationship (e): a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥200 (e) where a0=387.802, a1=33.509, a2=52.734, a3=18.704, a4=−40.918, and a5=−77.347. 7. The glass of claim 6, wherein the indentation crack initiation threshold of the glass is greater than or equal to 200 grams force. 8. The glass of claim 1, wherein the Young's modulus (E) of the glass satisfies the relationship: 84 GPa≥E≥68 GPa. 9. The glass of claim 1, wherein the coefficient of thermal expansion (CTE) of the glass over the range from 22° C. to 300° C. satisfies the relationship: 38×10−7/° C.≥CTE≥30×10−7/° C., wherein the CTE is measured by a fiber elongation technique. 10. The glass of claim 1, wherein the glass satisfies the following relationship (h): a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≤2.56 (h) where a0=2.195, a1=0.009, a2=−0.005, a3=0.011, a4=0.013, and a5=0.027. 11. The glass of claim 10, wherein the density of the glass is less than or equal to 2.56 grams/cm3. 12. The glass of claim 1, wherein the glass satisfies both of the following relationships: a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥200 (e)where a0=387.802, a1=33.509, a2=52.734, a3=18.704, a4=−40.918, and a5=−77.347; and a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4[CaO]+a5*[SrO]≤2.56 (h)where a0=2.195, a1=0.009, a2=−0.005, a3=0.011, a4=0.013, and a5=0.027. 13. The glass of claim 1, wherein the glass has at least two of the following properties: (i) an annealing point of the glass is greater than or equal to 740° C. when measured by a fiber elongation technique;(ii) a glass strain point greater than or equal to 685° C. when measured by a fiber elongation technique;(iii) an indentation crack initiation threshold of the glass is greater than or equal to 200 grams force;(iv) a Young's modulus (E) of the glass satisfies the relationship: 84≥GPa≥E 68 GPa;(v) a coefficient of thermal expansion (CTE) of the glass over the range from 22° C. to 300° C. satisfies the relationship: 38×10−7/° C.≥CTE≥30×10−7/° C., where the CTE is measured by a fiber elongation technique;(vi) a density of the glass is less than or equal to 2.56 grams/cm3; and(vii) a 104 poise temperature (T10k) of the glass is less than or equal to 1330° C. 14. The glass of claim 13, wherein the glass has all of properties (i)-(vii). 15. The glass of claim 1, wherein the glass comprises in mole percent on an oxide basis: SiO2: 65-70.3Al2O3: 11-12.9B2O3: 2-7.5MgO: 2-7.5CaO: 3-11SrO: 0-5.5BaO: 0-2ZnO: 0-2. 16. A glass substrate comprising the glass of claim 1. 17. A display device comprising the glass substrate of claim 16. 18. A substantially alkali-free glass comprising SiO2, Al2O3, B2O3, MgO, CaO, and optionally at least one oxide chosen from the group consisting of SrO, BaO, and ZnO, wherein: [SiO2]+[Al2O3]≤81.3; (a)Σ[RO]/[Al2O3]≤1.3; (b)a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≤1310 (c) where a0=1710.446, a1=−7.715, a2=−14.847, a3=−17.550, a4=−16.643, and a5=−12.574; a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥775 (d1) where a0=847.516, a1=4.747, a2=−10.144, a3=−5.089, a4=−6.837, and a5=−6.548; 84≥a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥68 (f) where a0=67.773, a1=0.865, a2=−0.825, a3=0.903, a4=0.356, and a5=0.133; and 38≥a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥30 (g) where a0=18.773, a1=−0.365, a2=0.187, a3=0.744, a4=1.500, and a5=1.848; and wherein [SiO2], [Al2O3], [B2O3], [MgO], [CaO], and [SrO] are the mole percents of SiO2, Al2O3, B2O3, MgO, CaO, and SrO, respectively, and Σ[RO] equals the sum of the mole percents of MgO, CaO, SrO, BaO, and ZnO. 19. A substantially alkali-free glass comprising SiO2, Al2O3, B2O3, MgO, CaO, and optionally at least one oxide chosen from the group consisting of SrO, BaO, and ZnO, wherein: [SiO2]+[Al2O3]≤81.3; (a)Σ[RO]/[Al2O3]1.3; (b)a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4[CaO]+a5*[SrO]≤1310 (c) where a0=1710.446, a1=−7.715, a2=−14.847, a3=−17.550, a4=−16.643, and a5=−12.574; a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥720 (d2) where a0=774.973, a1=4.886, a2=−9.666, a3=−3.610, a4=−5.840, and a5=−5.713; 84≥a0+a1*[Al2O3]+a2[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥68 (f) where a0=67.773, a1=0.865, a2=−0.825, a3=0.903, a4=0.356, and a5=0.133; and 38≥a0+a1*[Al2O3]+a2*[B2O3]+a3*[MgO]+a4*[CaO]+a5*[SrO]≥30 (g) where a0=18.773, a1=−0.365, a2=0.187, a3=0.744, a4=1.500, and a5=1.848; and wherein [SiO2], [Al2O3], [B2O3], [MgO], [CaO], and [SrO] represent mole percents of SiO2, Al2O3, B2O3, MgO, CaO, and SrO, respectively, and Σ[RO] equals the sum of the mole percents of MgO, CaO, SrO, BaO, and ZnO.
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