Temperature and strain characteristics of ceramic-reinforced polyurethane insulation decorative board under artificial accelerated aging conditions

Abstract

Abstract As a new type of thermal insulation material, ceramic-reinforced polyurethane insulation decorative board (IDB) has been applied to a certain extent, but changes in the temperature and strain between this material and the substrate wall during the aging process remain unclear. In this study, an external insulation composite system with ceramic-reinforced polyurethane IDB was subjected to 60 heat-rain cycles, and the temperature and strain at the interface between the IDB and the substrate wall were measured. The results show that the temperature of the substrate wall is about 35 °C lower than the highest temperature of the environmental box, and the temperature fluctuation of the substrate wall during 60 heat-rain cycles always maintains at about 5 °C, which indicates that the ceramic reinforced polyurethane IDB has good thermal insulation performance and durability. During the heat-rain cycles, the vertical strain varies from −750 με to + 2750 με, while the horizontal strain varies from −250 με to + 500 με, indicating that the horizontal and vertical strains have serious inhomogeneity. This local inhomogeneity may be an important reason for the aging and cracking of the IDB. The characteristics of temperature and strain could provide a reference for analyzing the synergistic effect and disbonding mechanism of the interface between the IDB and the substrate wall, and give some guidance for the design and construction of external insulation composite systems.