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Preparation of anisotropic polyimide aerogels for thermal protection with outstanding flexible resilience using the freeze-drying method

Bing Xu, Hongtan Liang, Jie Hu, Jing Shu, Lei Zhang, Guozhi Fan, Zhipeng Zhang, Zhen Wang, Dehua Pan

2024RSC Advances10 citationsDOIOpen Access PDF

Abstract

of aerogels prepared from monomeric raw materials and dried under supercritical conditions). PIAs exhibit outstanding thermal stability (the axial strength and modulus retention of PIA-8 at 200 °C are as high as 52.63% and 44.82%), and its weight loss temperature of 5% is as high as 603 °C and it has a glass softening temperature of 387 °C. PIAs also demonstrate exceptional flame retardancy in imitation flame retardant experiments and exhibit outstanding thermal insulation performance when heated on a 150 °C heating plate for 10 minutes (the radial surface temperature of PIA-5 was only 49.9 °C). These anisotropic PIAs materials exhibit outstanding flexible resilience, and thermal protection performance, holding significant importance for their widespread adoption as thermal insulation materials in aerospace, high-precision electronic components, and other domains.

Topics & Concepts

PolyimideMaterials scienceComposite materialThermal diffusivityAerogelAnisotropySupercritical dryingThermal insulationThermalResilience (materials science)MonomerPorosityBPDAPolymerOpticsThermodynamicsLayer (electronics)PhysicsAerogels and thermal insulationSynthesis and properties of polymersSilicone and Siloxane Chemistry