Abstract
In this study, a microencapsulated phase-change material (PCM) with an n-octadecane core and a fly ash cenosphere shell (ODE/FAC) was prepared and it was used to replace micro silica sand forming a novel kind of heat-stored engineered cementitious composite (HS-ECC). The influence of ODE/FAC content on the mechanical and thermal properties of the resulting HS-ECC was investigated. It turned out that the compressive strength, flexural strength, and tensile cracking strength of HS-ECC gradually decreased as the incorporation content of ODE/FAC increased, while the tensile strength and tensile strain capacity were enhanced. Moreover, the inclusion of ODE/FAC can obviously decrease the thermal conductivity of ECC, which indicates the elevated heat storage capacity. This work is significant because it provided new insights into the design of heat-stored ECC for synergistically improving the tensile properties and thermal energy storage performance.
Published Version
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