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A platform for research: civil engineering, architecture and urbanism
Thermal Performance Study of Vacuum Insulation Panel Embedded Composite Polystyrene Insulation Board
Under the guidance of “carbon peak and carbon neutrality” policies, there is an urgent need in the construction market for insulation materials that comply with the thermal transmission coefficient standards of the “Passive Ultra-Low Energy Green Building Technical Guidelines”. This study addresses issues associated with traditional insulation materials such as excessive thickness and detachment of exterior insulation layers, as well as challenges with standalone vacuum insulation panels (VIPs) including high transportation and construction breakage rates, inability to cut, and high costs. This paper investigates the construction and physical properties of a composite insulation board (STC) that embeds VIPs into Class A fire-resistant expanded polystyrene (AEPS). Through computer simulation modeling and physical experiments, the advantages of thermal performance, strength, durability, cost, construction measures, and thermal performance after VIP failure for STC boards with different thicknesses and area ratios are analyzed. The study confirms the innovative features of using VIPs protected by AEPS, including low breakage rates, installation convenience, high thermal insulation and fire resistance characteristics.
Thermal Performance Study of Vacuum Insulation Panel Embedded Composite Polystyrene Insulation Board
Under the guidance of “carbon peak and carbon neutrality” policies, there is an urgent need in the construction market for insulation materials that comply with the thermal transmission coefficient standards of the “Passive Ultra-Low Energy Green Building Technical Guidelines”. This study addresses issues associated with traditional insulation materials such as excessive thickness and detachment of exterior insulation layers, as well as challenges with standalone vacuum insulation panels (VIPs) including high transportation and construction breakage rates, inability to cut, and high costs. This paper investigates the construction and physical properties of a composite insulation board (STC) that embeds VIPs into Class A fire-resistant expanded polystyrene (AEPS). Through computer simulation modeling and physical experiments, the advantages of thermal performance, strength, durability, cost, construction measures, and thermal performance after VIP failure for STC boards with different thicknesses and area ratios are analyzed. The study confirms the innovative features of using VIPs protected by AEPS, including low breakage rates, installation convenience, high thermal insulation and fire resistance characteristics.
Thermal Performance Study of Vacuum Insulation Panel Embedded Composite Polystyrene Insulation Board
Advances in Engineering res
Zhang, Yu (editor) / Li, Dayong (editor) / Zhang, Yukun (editor) / Luan, Yalin (editor) / Wu, Yuntao (author) / An, Yanhua (author) / Cui, Zhenhua (author) / Wang, Guangwen (author) / Wang, Xin (author)
International Conference on Architectural, Civil and Hydraulic Engineering ; 2024 ; Shenyang, China
2025-03-01
9 pages
Article/Chapter (Book)
Electronic Resource
English
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