Superhard B4C-based composites with multifunctionality

IF 8.3 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Acta Materialia Pub Date : 2025-02-08 DOI:10.1016/j.actamat.2025.120817

Shuaihang Qiu, Ji Zou, Jingjing Liu, Qianglong He, Jingjing Xie, Yanchun Zhou, Wei Ji, Weimin Wang, Zhengyi Fu

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引用次数: 0

Abstract

Materials with excellent electromagnetic interference (EMI) shielding properties are desired for various structural and functional applications. Compared to mostly investigated polymers, dense ceramics are harder and own better high temperature capability, but their EMI shielding properties and shielding mechanisms had been poorly investigated. In this study, a series of light-weight B₄C-(Ti_1-_xCr_x)B₂ (x = 0, 0.1, 0.3, 0.5 and 1, BTCs) composites were reactively densified. Concomitantly with good load-bearing capabilities and high hardness, as-obtained BTCs could effectively shield EMI in X band from room temperature to 700°C. Especially, after incorporating Cr into TiB₂, the composites exhibit an enhanced absorption loss. By intentional heat treatments to tailor dislocation densities in BTCs, the enhancements in absorption loss were identified, which were associated with the increased polarizations caused by high-density dislocations in diborides. Among these composites, B₄C-(Ti_0.9Cr_0.1)B₂ with a low density (3.3 g/cm³), high hardness (∼44 GPa) and modulus (464 GPa) exhibits the best specific EMI shielding performance (∼44 dB·cm²·g^-1), which slightly worsens at 700°C (∼30 dB·cm²·g^-1) but still guarantees an EMI shielding efficiency of ∼99.9% alongside high absorption loss. This work not only opens a window of functional applications at high temperatures for B₄C-TiB₂ based composites, but also demonstrates element incorporating and dislocation regulation can significantly enhance EMI shielding performance of materials, especially absorption loss, providing a valuable strategy for developing high-performance ceramics with multifunctionality.

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来源期刊

Acta Materialia 工程技术-材料科学：综合

CiteScore

16.10

自引率

8.50%

发文量

801

审稿时长

53 days

期刊介绍： Acta Materialia serves as a platform for publishing full-length, original papers and commissioned overviews that contribute to a profound understanding of the correlation between the processing, structure, and properties of inorganic materials. The journal seeks papers with high impact potential or those that significantly propel the field forward. The scope includes the atomic and molecular arrangements, chemical and electronic structures, and microstructure of materials, focusing on their mechanical or functional behavior across all length scales, including nanostructures.