Mechanically strong hierarchical nanosystem for fire protection and electromagnetic interference shielding

Interest in advanced multifunctional composite materials has generated extensive discussions on materials endowed with high fire-resistance, mechanical strength, and excellent electromagnetic interference (EMI) shielding. We designed a feasible and low-cost method for preparing mechanically robust t...

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Bibliographic Details
Published in:Composites. Part B, Engineering Engineering, 2023-07, Vol.261, p.110795, Article 110795
Main Authors: Liu, Miao, Chen, Kexin, Shi, Yongqian, Wu, Shijie, Feng, Yuezhan, Fu, Libi, Gao, Jiefeng, Tang, Longcheng, Yang, Fuqiang
Format: Article
Language:English
Subjects:
Electromagnetic interference shielding
Fire safety
Mechanical toughness
PZM@CP
TPU-based nanocomposite
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Summary:Interest in advanced multifunctional composite materials has generated extensive discussions on materials endowed with high fire-resistance, mechanical strength, and excellent electromagnetic interference (EMI) shielding. We designed a feasible and low-cost method for preparing mechanically robust thermoplastic polyurethane/triazine-rich polyphosphazene functionalized titanium carbide@copper phytate/carbon fiber fabric (TPU/PZM@CP/CF) nanocomposites with enhanced fire retardancy and EMI shielding performances. The as-prepared TPU/PZM@CP-2.0/CF demonstrated excellent mechanical toughness, with a tensile strength of 57.8 MPa. Additionally, this nanocomposite exhibited superior EMI shielding performances, with an EMI shielding effectiveness of 29.7 dB and a normal shielding effectiveness of 24.8 dB/mm, surpassing that of most other TPU-based nanocomposites. Furthermore, the thermal stability and fire resistance of the TPU/PZM@CP nanocomposites were significantly improved. For instance, the peak of heat release rate and the peak of smoke production rate of the TPU/PZM@CP-2.0 respectively decreased by 41.5% and 21.5%, compared to those of neat TPU. In this work, the simple preparation method and outstanding comprehensive performances of the mechanically strong multifunctional TPU/PZM@CP/CF have tremendous potential for applications in defense, smart electronic device and aerospace. [Display omitted] •High-performance multifunctional hierarchical nanosystem are prepared.•Nanocomposites has high fire safety, mechanical robustness and EMI shielding.•Properties of hierarchical nanocomposite are superior to those previously reported.•Hydrogen bond, charring and continuous network lead to properties improvement.
ISSN:1359-8368
1879-1069
DOI:10.1016/j.compositesb.2023.110795