原材料
材料科学
相变材料
聚合
热稳定性
硅
热能储存
工艺工程
化学工程
热的
复合材料
化学
聚合物
光电子学
有机化学
热力学
工程类
物理
作者
Yuanchao Guo,Yan Gao,Na Han,Xingxiang Zhang,Wei Li
标识
DOI:10.1016/j.solmat.2022.111718
摘要
A novel organic silicon microencapsulated phase change materials (OS-MPCMs) was successfully designed and prepared via single-step in-situ polymerization. OS-MPCMs with n-ocadecane as core material and silicone as shell material, has excellent latent heat storage and release performance (ΔHm = 103.3J/g, ΔHc = 104.5J/g), excellent thermal stability and cycle durability of at least 200 cycles, as well as remarkable mechanical properties. The effects of core/shell ratio on morphology, thermal properties, thermal stability and mechanical properties of OS-MPCMs were further investigated. The experimental scheme was optimized and adjusted to ensure that OS-MPCMs could adapt to a more complex environment. In this study, the single-step in-situ polymerization method was adopted to simplify the synthesis process, and the self-assembly of microcapsules could be completed through one feeding. At the same time, OS-MPCMs encapsulation efficiency is improved, up to 86.45%. The raw materials used in production are simple and easy to obtain, and the production process is green and environmentally friendly. The excellent performance and simple production mode makes OS-MPCMs have an unexceptionable application prospect in the energy storage fields of energy-efficient building, thermo-regulated fabrics and so on.
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