Litcius/Paper detail

Adjustable iron‐containing SiBCN ceramics with high‐temperature microwave absorption and anti‐oxidation properties

Yan Song, Shuo Jin, Ketao Hu, Yuzhang Du, Jin Liang, Jie Kong

2021Journal of the American Ceramic Society29 citationsDOI

Abstract

Abstract Quaternary siliconboron carbonitride (SiBCN) ceramics show excellent high‐temperature stability and oxidation resistance, indicating great potential as high‐temperature electromagnetic (EM) wave absorbing materials. In this contribution, an efficient and facile method was developed to prepare bulk iron‐containing SiBCN (Fe–SiBCN) ceramics with remarkable EM wave absorption at high temperature by pyrolyzing boron and iron containing precursors (PSZV‐B–Fe). The introduction of boron and iron not only improves the high‐temperature stability but also influences the complex permittivity and EM wave absorption. The minimum reflection coefficient (RC min ) is −61.05 dB, and the effective bandwidth absorption (EAB) is 3.35 GHz (9.05–12.4 GHz). The RC min will be decreased to −52.3 dB at 600°C as well as the EAB covers more than 67% of the X band (2.8 GHz). The high‐temperature stable Fe–SiBCN ceramics with adjustable dielectric properties can be utilized as high‐performance EM wave‐absorbing materials in high‐temperature and harsh environments.

Topics & Concepts

CeramicMaterials scienceReflection lossMicrowavePermittivityAbsorption (acoustics)DielectricDielectric lossAttenuation coefficientTemperature coefficientComposite materialBoronMineralogyOptoelectronicsComposite numberOpticsChemistryQuantum mechanicsPhysicsOrganic chemistryElectromagnetic wave absorption materialsAdvanced Antenna and Metasurface TechnologiesMicrowave Dielectric Ceramics Synthesis