Litcius/Paper detail

Recent advances in structural engineering of ceramic microwave absorption materials: From nano/micro architectures to macroscale design

Qing Qi, Tian Li, Huan Yang, Aiqi Lv, Yanan Liu, Fanbin Meng

2025Journal of Advanced Ceramics7 citationsDOIOpen Access PDF

Abstract

Ceramic-based microwave absorption (MWA) materials have demonstrated significant application potential in cutting-edge fields including aerospace and advanced weaponry, owing to their superior mechanical strength, excellent chemical and thermal stability, remarkable oxidation and corrosion resistance, outstanding electromagnetic wave (EMW) absorption performance, low density, and high-temperature durability. To further improve the performance of these materials, structural optimization has emerged as a widely adopted strategy. This review systematically summarizes recent advances in ceramic-based MWA materials across multiple scales, from nano- and micro-levels to the macro-scale, establishing interconnections among synthesis techniques, structural design, and electromagnetic behavior. The effects of structure engineering, defect modulation, and hierarchical porosity on dielectric and magnetic loss mechanisms are discussed, along with how morphology influences impedance matching and attenuation efficiency. Finally, the challenges and future prospects of developing lightweight, broadband, and high-temperature-resistant ceramic absorbers are outlined, providing insights for the intelligent design of next-generation EMW absorption systems.

Topics & Concepts

Materials scienceStructural materialMicrowaveCeramicAbsorption (acoustics)AerospacePorosityAttenuationDielectricNanotechnologyImpedance matchingCorrosionThermal insulationComposite materialElectromagnetic radiationEngineering physicsThermal barrier coatingMaterial DesignPorous mediumMechanical engineeringThermalDielectric lossAerospace materialsElectromagnetic wave absorption materialsMagnetic Properties and Synthesis of FerritesMicrowave-Assisted Synthesis and Applications