[4] CUCE E. Development of innovative window and fabric technologies for lowcarbon buildings［D］. Nottingham: The University of Nottingham, 2014.

[10] ZOLLER F. Hollow pane of glass: DE 387655［P］. 1924.

[11] ROBINSON S J, COLLINS R E. Evacuated windows theory and practice［C］. Kobe： ISES Solar World Congress, 1989.

[12] COLLINS R E, FISCHERCRIPPS A C, TANG J Z. Transparent evacuated insulation［J］. Solar Energy, 1992, 49(5): 333350.

[25] RUSSELL A L, ZHANG L, GU Y B. Method of sealing a glass envelope: US9123715［P］. 20150901.

[30] SUN Q, SUN G J, LIU Y H, et al. Microstructure and properties of a vacuumtempered glass with lowtemperaturesintered silver paste［J］. Journal of Materials Science: Materials in Electronics, 2021, 32(12): 1623016241.

[34] KOUDELKA L, UBK J, MONER P, et al. Structure and properties of Sb2O3containing zinc borophosphate glasses［J］. Journal of NonCrystalline Solids, 2007, 353(18/19/20/21): 18281833.

[36] SHIH P Y. Thermal, chemical and structural characteristics of erbiumdoped sodium phosphate glasses［J］. Materials Chemistry and Physics, 2004, 84(1): 151156.

[37] SHYU J J, YEH C H. Formation and properties of SnOMgOP2O5 glasses［J］. Journal of Materials Science, 2007, 42(13): 47724777.

[39] SUN Q, YANG W C, LIU Y H, et al. Microstructure and mechanical properties of tempered glass joint bonded with BiBZn low melting glass［J］. Journal of Materials Processing Technology, 2019, 271: 404412.

[40] BENSON D K, TRACY C E. Laser sealed vacuum insulation window: US4683154［P］. 19870728.

[41] RICHTER S, NOLTE S, TNNERMANN A. Ultrashort pulse laser welding—a new approach for high stability bonding of different glasses［J］. Physics Procedia, 2012, 39: 556562.

[45] LI H, YU H T, CHEN P, et al. Glass forming region and bonding mechanism of lowmelting V2O5TeO2Bi2O3 glass applied in vacuum glazing sealing［J］. Journal of the American Ceramic Society, 2021, 104(10): 50505066.