期刊
POLYMERS
卷 14, 期 15, 页码 -出版社
MDPI
DOI: 10.3390/polym14153032
关键词
composite coatings; localized heat; reduced graphene oxide; high thermal conductivity
资金
- National Key Laboratory Foundation of Science and Technology on Materials under Shock and Impact [6142902210106]
- Natural Science Foundation of Fujian Province [2021J05053]
In this study, a novel localized heat-resistant coating with high in-plane thermal conductivity was designed and prepared, effectively lowering the back-surface temperature and area of flame ablation. This study expands the application range of high-conductive films.
Localized heat sources, such as flame guns and high-energy lasers, can cause severe damage to conventional materials. In this study, a novel localized heat-resistant coating with a high in-plane thermal conductivity was designed and prepared. Reduced graphene oxide (rGO) effectively improved the in-plane thermal conductivity of the polyvinyl alcohol (PVA) film, while maintaining the thermal insulation of the resin matrix in the through-plane direction. This characteristic of the rGO/PVA film was combined with the thermal insulation of boron-modified phenolic resin (BPF), and the prepared composite coating with two layers of rGO/PVA films effectively lowered the back-surface temperature in the flame ablation test from 151 to 107 degrees C. In addition, the area of the ablation-affected region of coating was increased to 103.6 cm(2) from 31.9 cm(2), indicating an excellent heat transfer performance. The layer-by-layer structure could realize the compatibility of high in-plane thermal conductivity and good through-plane thermal insulation. The synergy of these two different characteristics is demonstrated to be the key to improving the localized heat-resistant performance of the composite coating. This study effectively expands the application range of high-conductive film, and the obtained coating could act as a shield against butane flame, high energy lasers, and other localized heat.
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