Research Progress on Lightweight Resin-Based Thermal
Protection Materials
LI Liang1, REN Zhiyi2, WANG Peng1, LUO Yi3, SU Zhe3, CAI Hongxiang1,
TIAN Hao1, NIU Bo1,3, LONG Donghui1,3
1. School of Chemical Engineering, East China University of Science and Technology, Shanghai 200237, China;
2. Shanghai Electro-Mechanical Engineering Institute, Shanghai 201109, China; 3. Structural Materials
Research Department, Suzhou Laboratory,Suzhou 215123, Jiangsu, China
Abstract:Thermal protection systems are significantly important in modern aerospace engineering. When the new
generation of vehicles evolves towards higher Mach flight speeds, there is an increasing demand for thermal protection
systems that could combine high-temperature resistance, lightweight construction, and integrated thermal protection
and insulation. This paper has reviewed the research progress on lightweight resin-based thermal protection materials
domestically and internationally and analyzed their development trends in enhanced oxidation resistance, nanoporous
structures, and gradient designs. Besides, this study has introduced the thermal protection and insulation mechanisms
as well as the mechanical failure mechanisms of nanoporous resin-based materials, thus providing valuable insights for
effective design and fabrication.
李亮, 任智毅, 王鹏, 罗艺, 苏哲, 蔡宏祥, 田浩, 牛波, 龙东辉. 轻质树脂基防隔热一体化材料研究进展[J]. 空天防御, 2024, 7(6): 58-75.
LI Liang, REN Zhiyi, WANG Peng, LUO Yi, SU Zhe, CAI Hongxiang, TIAN Hao, NIU Bo, LONG Donghui. Research Progress on Lightweight Resin-Based Thermal
Protection Materials. Air & Space Defense, 2024, 7(6): 58-75.
