[6] MACRELLI G, VARSHNEYA A K, MAURO J C. Ultra-thin glass as a substrate for flexible photonics［J］. Optical Materials, 2020, 106: 109994.

[8] GUO X J, PIVOVAROV A L, SMEDSKJAER M M, et al. Non-conservation of the total alkali concentration in ion-exchanged glass［J］. Journal of Non-Crystalline Solids, 2014, 387: 71-75.

[11] WANG Z, SUO T, MANES A. Effect of chemical strengthening residual stress on the flexural performance and fracture behavior of aluminosilicate glass［J］. Engineering Fracture Mechanics, 2021, 258: 108104.

[13] KUANG R, YANG P, LIU R, et al. Analysis of the variation in surface roughness of a glass sheet after hot bending［J］. Glass Technology European Journal of Glass Science and Technology Part A, 2015, 56(6): 214-220.

[18] MAKISHIMA A, MACKENZIE J D. Calculation of bulk modulus, shear modulus and Poisson’s ratio of glass［J］. Journal of Non-Crystalline Solids, 1975, 17(2): 147-157.

[19] AALDENBERG E M, LEZZI P J, SEAMAN J H, et al. Ion-exchanged lithium aluminosilicate glass: strength and dynamic fatigue［J］. Journal of the American Ceramic Society, 2016, 99(8): 2645-2654.

[23] YOU J L, JIANG G C, HOU H Y, et al. Quantum chemistry study on superstructure and Raman spectra of binary sodium silicates［J］. Journal of Raman Spectroscopy, 2005, 36(3): 237-249.

[24] AKAOGI M, ROSS N, MCMILLAN P, et al. The Mg2SiO4 polymorphs (olivine, modified spinel and spinel); thermodynamic properties from oxide melt solution calorimetry, phase relations, and models of lattice vibrations［J］. American Mineralogist, 1984, 69: 499-512.

[25] XU K D, JIANG G C, HUANG S P, et al. A study on the bonding structure of CaO-SiO2 slag by means of molecular dynamics simulation［J］. Science in China Series E: Technological Sciences, 1999, 42(1): 77-82.