Wearable Aramid–Ceramic Aerogel Composite for Harsh Environment | Zendy

An Lu | Zendy; Liang Baoshan | Zendy; Guo Zipeng | Zendy; Wang Jieyu | Zendy; Li Changning | Zendy; Huang Yulong | Zendy; Hu Yong | Zendy; Li Zheng | Zendy; Armstrong Jason N. | Zendy; Zhou Chi | Zendy; Faghihi Danial | Zendy; Ren Shenqiang | Zendy

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Wearable Aramid–Ceramic Aerogel Composite for Harsh Environment

Author(s) -

An Lu,

Liang Baoshan,

Guo Zipeng,

Wang Jieyu,

Li Changning,

Huang Yulong,

Hu Yong,

Li Zheng,

Armstrong Jason N.,

Zhou Chi,

Faghihi Danial,

Ren Shenqiang

Publication year - 2021

Publication title -

advanced engineering materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.938

H-Index - 114

eISSN - 1527-2648

pISSN - 1438-1656

DOI - 10.1002/adem.202170009

Subject(s) - aerogel , aramid , materials science , composite material , kevlar , ceramic , composite number , thermal insulation , textile , wearable computer , aerospace , fiber , computer science , aerospace engineering , engineering , layer (electronics) , embedded system

Shenqiang Ren, and co‐workers show in their article, number 2001169 , that the mechanically elastic Kevlar fiber reinforced ceramic aerogel composites, with advanced thermal insulation performance under the extreme cold and hot harsh environments, shed light on the low‐cost scalable manufacturing of aerogel composites for wearable textile and extreme thermal management applications.

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