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Super-elasticity at 4 K of covalently crosslinked polyimide aerogels with negative Poisson’s ratio

Author

Listed:
  • Yang Cheng

    (Fudan University
    Fudan University)

  • Xiang Zhang

    (Rice University)

  • Yixiu Qin

    (Fudan University)

  • Pei Dong

    (George Mason University)

  • Wei Yao

    (Fudan University
    Fudan University)

  • John Matz

    (George Mason University)

  • Pulickel M. Ajayan

    (Rice University)

  • Jianfeng Shen

    (Fudan University)

  • Mingxin Ye

    (Fudan University)

Abstract

The deep cryogenic temperatures encountered in aerospace present significant challenges for the performance of elastic materials in spacecraft and related apparatus. Reported elastic carbon or ceramic aerogels overcome the low-temperature brittleness in conventional elastic polymers. However, complicated fabrication process and high costs greatly limited their applications. In this work, super-elasticity at a deep cryogenic temperature of covalently crosslinked polyimide (PI) aerogels is achieved based on scalable and low-cost directional dimethyl sulfoxide crystals assisted freeze gelation and freeze-drying strategy. The covalently crosslinked chemical structure, cellular architecture, negative Poisson’s ratio (−0.2), low volume shrinkage (3.1%), and ultralow density (6.1 mg/cm3) endow the PI aerogels with an elastic compressive strain up to 99% even in liquid helium (4 K), almost zero loss of resilience after dramatic thermal shocks (∆T = 569 K), and fatigue resistance over 5000 times compressive cycles. This work provides a new pathway for constructing polymer-based materials with super-elasticity at deep cryogenic temperature, demonstrating much promise for extensive applications in ongoing and near-future aerospace exploration.

Suggested Citation

  • Yang Cheng & Xiang Zhang & Yixiu Qin & Pei Dong & Wei Yao & John Matz & Pulickel M. Ajayan & Jianfeng Shen & Mingxin Ye, 2021. "Super-elasticity at 4 K of covalently crosslinked polyimide aerogels with negative Poisson’s ratio," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24388-y
    DOI: 10.1038/s41467-021-24388-y
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    Cited by:

    1. Xiaoyu Zhang & Qi Sun & Xing Liang & Puzhong Gu & Zhenyu Hu & Xiao Yang & Muxiang Liu & Zejun Sun & Jia Huang & Guangming Wu & Guoqing Zu, 2024. "Stretchable and negative-Poisson-ratio porous metamaterials," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    2. Kit-Ying Chan & Xi Shen & Jie Yang & Keng-Te Lin & Harun Venkatesan & Eunyoung Kim & Heng Zhang & Jeng-Hun Lee & Jinhong Yu & Jinglei Yang & Jang-Kyo Kim, 2022. "Scalable anisotropic cooling aerogels by additive freeze-casting," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    3. Hongxing Wang & Longdi Cheng & Jianyong Yu & Yang Si & Bin Ding, 2024. "Biomimetic Bouligand chiral fibers array enables strong and superelastic ceramic aerogels," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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