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Shape memory polyimide/carbon nanotube composite aerogels with physical and chemical crosslinking architectures for thermal insulating applications

The development of lightweight smart materials with exceptional shape memory and thermal insulation properties is highly important in the aerospace industry. The reported shape memory polymer aerogels (SMPAs) are restricted to harsh environments because of their poor high-temperature resistance and...

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Bibliographic Details
Published in:Composites science and technology 2024-05, Vol.251, p.110588, Article 110588
Main Authors: Zhang, Liying, Li, Xiang, Ding, Enjie, Guo, Zhengyu, Luo, Chuyang, Zhang, Hui, Yu, Jianyong
Format: Article
Language:English
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Summary:The development of lightweight smart materials with exceptional shape memory and thermal insulation properties is highly important in the aerospace industry. The reported shape memory polymer aerogels (SMPAs) are restricted to harsh environments because of their poor high-temperature resistance and large volume shrinkage at elevated temperatures. Herein, shape memory polyimide (PI) composite aerogels with superior thermal insulation were fabricated by combining molecularly designed PI chains with amino-functionalized carbon nanotubes (NH2-CNTs) through freezing gelation and subsequent thermal imidization. Because shape memory behavior was thermally triggered, the thermal conductivity associated with the shape memory mechanisms of the aerogels was comprehensively explored. The presence of CNTs promoted heat transfer in the aerogel skeleton, facilitating the shape recovery response. Benefiting from chemical-crosslinked and physical-crosslinked structures, the fabricated PI composite aerogels demonstrated desirable thermo-mechanical properties, exceptional shape memory and superior thermal insulation performance. This study may provide guidelines for designing shape memory PI composite aerogels for harsh environment applications in aerospace engineering. [Display omitted] •Shape memory polyimide (PI)/carbon nanotubes (CNT) composite aerogels were fabricated for thermal protection applications.•Surface-functionalized CNT acted as a crosslinker, effectively suppressing the shrinkage and improving thermo-mechanical performance of the aerogels.•The introduction of CNT increased the solid conductivity of the skeleton, thus promoting the shape recovery response.•The shape memory associated with the underlying heat conduction mechanisms were comprehensive explored.
ISSN:0266-3538
1879-1050
DOI:10.1016/j.compscitech.2024.110588