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Phase-Change Composites Composed of Silicone Rubber and Pa@SiO<sub>2</sub>@PDA Double-Shelled Microcapsules with Low Leakage Rate and Improved Mechanical Strength

Hao Deng, Yunmiao Yang, Xiaohong Tang, Yongsheng Li, Fangfang He, Quan‐Ping Zhang, Zhong Huang, Zhijian Yang, Wenbin Yang

2021ACS Applied Materials & Interfaces81 citationsDOI

Abstract

A kind of silicone rubber (SR)/paraffin (Pa)@silicon dioxide (SiO2)@polydopamine (PDA) phase-change composite was prepared in this work. The double-shelled Pa@SiO2@PDA phase-change microcapsules were constructed by oxidative self-polymerization of dopamine (DA) in Tris-HCl buffer solution. The effect of the DA content on the properties of Pa@SiO2@PDA microcapsules and SR/Pa@SiO2@PDA composites was researched. Due to the protective effect of SiO2, PDA layer, and SR matrix, the SR/Pa@SiO2@PDA composites have good leak-proofing performance, and the leakage rate of SR/Pa@SiO2@PDA-2 is as low as 0.45%. Phase-change enthalpies of the Pa@SiO2@PDA microcapsules and SR/Pa@SiO2@PDA composites are reduced slightly with increasing DA content. Meanwhile, the composites displayed improved mechanical strength. The tensile strength of SR/Pa@SiO2@PDA-2 can be up to 0.560 MPa, which is 1.85 times higher than the tensile strength of pure SR/Pa@SiO2 because the interface compatibility between Pa@SiO2 microcapsules and SR is improved through hydrogen bonding between the abundant groups on the PDA surface and the matrix. Moreover, the rough surface of the PDA-modified microcapsules also enhances the interface interaction through physical “interlocking”. The new kind of SR/Pa@SiO2@PDA composite can be used for thermal management.

Topics & Concepts

Materials scienceComposite materialSilicone rubberSiliconeLeakage (economics)Mechanical strengthMacroeconomicsEconomicsPhase Change Materials ResearchPolymer composites and self-healing