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Lightweight C <sub>f</sub>/HC–SiBCN composite for multifunctional applications

Lingyu Yang, Lumeng Wang, Shun Dong, Guiqing Chen, Changqing Hong, Xinghong Zhang, Yanchun Zhou

2025Journal of Advanced Ceramics7 citationsDOIOpen Access PDF

Abstract

Carbon fiber composites hold significant promise as electromagnetic wave (EMW)-absorbing materials. However, balancing lightweight materials with excellent mechanical properties, low thermal conductivity, and EMW absorption for multifunctional applications remains challenging. Herein, a novel hydrothermal carbon (HC)-coated three-dimensional (3D) needled carbon fiber-reinforced silicon–boron carbonitride (C<sub>f</sub>/HC–SiBCN) composite was developed via an optimized precursor infiltration and pyrolysis (PIP) process combined with impregnation–filtration. By adjusting the precursor concentration and number of impregnation‒filtration cycles, a hierarchical C<sub>f</sub>/HC–SiBCN composite with the density of 0.32 g·cm<sup>−3</sup> was obtained, which exhibited remarkable mechanical properties, including flexural strengths of 14.75±0.43 MPa (<i>xy</i>-direction) and 14.45±0.66 MPa (<i>z</i>-direction), along with a compressive strength of 9.36±0.20 MPa (<i>z</i>-direction). It also demonstrated low thermal conductivity (0.145 W·m<sup>−1</sup>·K<sup>−1</sup>) and exceptional EMW absorption, with a minimum reflection loss (RL<sub>min</sub>) of −58.13 dB and an effective absorption bandwidth (EAB) of 7.38 GHz. Owing to their combination of lightweight, enhanced mechanical properties, low thermal conductivity, and superior EMW absorption capabilities, C<sub>f</sub>/HC–SiBCN composites are highly suitable for multifunctional applications.

Topics & Concepts

Structural materialComposite numberMaterials scienceComposite materialChemical engineeringEngineeringAdvanced ceramic materials synthesisBoron and Carbon Nanomaterials ResearchMXene and MAX Phase Materials
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