[5] [5] ARASTEH D, SELKOWITZ S, WOLFE J R. The design and testing of a highly insulating glazing system for use with conventional window systems[J]. Journal of Solar Energy Engineering, 1989, 111(1): 44-53.

[6] [6] HART R, SELKOWITZ S, CURCIJA C. Thermal performance and potential annual energy impact of retrofit thin-glass triple-pane glazing in US residential buildings[J]. Building Simulation, 2019, 12(1): 79-86.

[7] [7] GUNDERSON P, LOUIE E, CORT K. Laboratory and field validation of the performance benefits and costs of thin triple-pane windows in residential buildings[J]. Science and Technology for the Built Environment, 2024, 30(7): 767-784.

[12] [12] HEISKARI J, ROMANOFF J, LAAKSO A, et al. On the thickness determination of rectangular glass panes in insulating glass units considering the load sharing and geometrically nonlinear bending[J]. Thin-Walled Structures, 2022, 171: 108774.

[13] [13] HEISKARI J, ROMANOFF J, LAAKSO A, et al. Influence of the design constraints on the thickness optimization of glass panes to achieve lightweight insulating glass units in cruise ships[J]. Marine Structures, 2023, 89: 103409.

[16] [16] MCMAHON S, SCOTT NORVILLE H, MORSE S M. Experimental investigation of load sharing in insulating glass units[J]. Journal of Architectural Engineering, 2018, 24(1): 04017038.