Preparation of a carbon fibre-reinforced carbon aerogel and its application as a high-temperature thermal insulator

Haiming Zhang; Junzong Feng; Liangjun Li; Yonggang Jiang; Jian Feng

doi:10.1039/d2ra00276k

Preparation of a carbon fibre-reinforced carbon aerogel and its application as a high-temperature thermal insulator

RSC Adv. 2022 May 9;12(22):13783-13791. doi: 10.1039/d2ra00276k. eCollection 2022 May 5.

Authors

Haiming Zhang¹, Junzong Feng², Liangjun Li², Yonggang Jiang², Jian Feng²

Affiliations

¹ Institute of Applied Physics, Jiangxi Academy of Science Nanchang 330096 China.
² Science and Technology on Advanced Ceramic Fibres and Composites Laboratory, College of Aerospace Science and Engineering, National University of Defense Technology Deya Road 109 Changsha 410073 Hunan China fengj@nudt.edu.cn.

Abstract

Carbon aerogels (CAs) have attracted attention in thermal insulation. However, the traditional sol-gel method for preparing them involves time-consuming solvent exchange and rigorous supercritical drying processes, and the obtained CAs are brittle and crumble easily. To address these problems, a carbon fibre-reinforced carbon aerogel (CF/CA) was prepared via combining a resorcinol-furfural (RF) gel containing a salt (ZnCl₂) with polyacrylonitrile (PAN) fiber felt. The CF/CA not only has low thermal conductivity (0.6904 W m^-1 K^-1) even at an ultra-high temperature of 1800 °C in an argon atmosphere but also exhibits relatively high compressive strength (6.10 MPa, 10% ε) and a low density of 0.68 g cm^-3. The CF/CAs can be used as ultrahigh-temperature thermal insulators (under inert atmospheres or vacuum) in thermal protection systems such as space vehicles or industrial high temperature furnaces. Our novel strategy may lead to lower-cost and large scale industrial processes of CF/CAs.