Dimensionally-stable, damage-resistant, glass sheets

What is claimed is: 1. A substantially alkali-free glass, wherein the glass satisfies the following relationships: [SiO 2 ]+[Al 2 O 3 ]≤81.3;  (a) Σ[RO]/[Al 2 O 3 ]≤1.3; and  (b) a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≤1310  (c) where a 0 =1710.446, a 1 =−7.715, a 2 =−14.847, a 3 =−17.550, a 4 =−16.643, and a 5 =−12.574; 84≥ a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥68  (f) where a 0 =67.773, a 1 =0.865, a 2 =−0.825, a 3 =0.903, a 4 =0.356, and a 5 =0.133; and 38≥ a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥30  (g) where a 0 =18.773, a 1 =−0.365, a 2 =0.187, a 3 =0.744, a 4 =1.500, and a 5 =1.848; and wherein the glass satisfies at least one of the following relationships (d1) or (d2): a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥775  (d1) where a 0 =847.516, a 1 =4.747, a 2 =−10.144, a 3 =−5.089, a 4 =−6.837, and a 5 =−6.548; or a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥720  (d2) where a 0 =774.973, a 1 =4.886, a 2 =−9.666, a 3 =−3.610, a 4 =−5.840, and a 5 =−5.713; and wherein [SiO 2 ], [Al 2 O 3 ], [B 2 O 3 ], [MgO], [CaO], and [SrO] represent mole percents of SiO 2 , Al 2 O 3 , B 2 O 3 , 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): a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥775  (d1) where a 0 =847.516, a 1 =4.747, a 2 =−10.144, a 3 =−5.089, a 4 =−6.837, and a 5 =−6.548; and a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥685  (d3) where a 0 =774.973, a 1 =4.886, a 2 =−9.666, a 3 =−3.610, a 4 =−5.840, and a 5 =−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): a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥720  (d2) where a 0 =774.973, a 1 =4.886, a 2 =−9.666, a 3 =−3.610, a 4 =−5.840, and a 5 =−5.713; and a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥740  (d4) where a 0 =847.516, a 1 =4.747, a 2 =−10.144, a 3 =−5.089, a 4 =−6.837, and a 5 =−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): a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥200  (e) where a 0 =387.802, a 1 =33.509, a 2 =52.734, a 3 =18.704, a 4 =−40.918, and a 5 =−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): a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≤2.56  (h) where a 0 =2.195, a 1 =0.009, a 2 =−0.005, a 3 =0.011, a 4 =0.013, and a 5 =0.027. 11. The glass of claim 10 , wherein the density of the glass is less than or equal to 2.56 grams/cm 3 . 12. The glass of claim 1 , wherein the glass satisfies both of the following relationships: a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥200  (e) where a 0 =387.802, a 1 =33.509, a 2 =52.734, a 3 =18.704, a 4 =−40.918, and a 5 =−77.347; and a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 [CaO]+ a 5 *[SrO]≤2.56  (h) where a 0 =2.195, a 1 =0.009, a 2 =−0.005, a 3 =0.011, a 4 =0.013, and a 5 =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/cm 3 ; and (vii) a 10 4 poise temperature (T 10k ) 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: SiO 2 : 65-70.3 Al 2 O 3 : 11-12.9 B 2 O 3 : 2-7.5 MgO: 2-7.5 CaO: 3-11 SrO: 0-5.5 BaO: 0-2 ZnO: 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 SiO 2 , Al 2 O 3 , B 2 O 3 , MgO, CaO, and optionally at least one oxide chosen from the group consisting of SrO, BaO, and ZnO, wherein: [SiO 2 ]+[Al 2 O 3 ]≤81.3;  (a) Σ[RO]/[Al 2 O 3 ]≤1.3;  (b) a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≤1310  (c) where a 0 =1710.446, a 1 =−7.715, a 2 =−14.847, a 3 =−17.550, a 4 =−16.643, and a 5 =−12.574; a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥775  (d1) where a 0 =847.516, a 1 =4.747, a 2 =−10.144, a 3 =−5.089, a 4 =−6.837, and a 5 =−6.548; 84≥ a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥68  (f) where a 0 =67.773, a 1 =0.865, a 2 =−0.825, a 3 =0.903, a 4 =0.356, and a 5 =0.133; and 38≥ a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 *[CaO]+ a 5 *[SrO]≥30  (g) where a 0 =18.773, a 1 =−0.365, a 2 =0.187, a 3 =0.744, a 4 =1.500, and a 5 =1.848; and wherein [SiO 2 ], [Al 2 O 3 ], [B 2 O 3 ], [MgO], [CaO], and [SrO] are the mole percents of SiO 2 , Al 2 O 3 , B 2 O 3 , 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 SiO 2 , Al 2 O 3 , B 2 O 3 , MgO, CaO, and optionally at least one oxide chosen from the group consisting of SrO, BaO, and ZnO, wherein: [SiO 2 ]+[Al 2 O 3 ]≤81.3;  (a) Σ[RO]/[Al 2 O 3 ]1.3;  (b) a 0 +a 1 *[Al 2 O 3 ]+a 2 *[B 2 O 3 ]+a 3 *[MgO]+ a 4 [CaO]+ a 5 *[SrO]≤1310  (c) where a 0 =171