Facile preparation of the dendritic Fe3O4 with a core-shell microstructure in SiO2-B2O3-Al2O3-CaO-Fe2O3 glass-ceramic system for enhanced microwave absorbing performance

The hierarchical architecture constitutes one of the key factors affecting the performance of microwave absorbing materials (MAMs). Herein, core-shell Fe3O4 with a dendritic hierarchical structure is fabricated successfully by the melting method in a SiO2-B2O3-Al2O3-CaO-Fe2O3 multi-component system. The multiple transmission scattering absorption mechanism is mediated by the unique microstructure, thus improving the impedance matching and the microwave loss ability of the material. According to its reflection loss curve, the microwave absorption was efficiently optimized, yielding a minimum reflection loss (R-L) of - 54.26 dB when the thickness was 3.47 mm, and the effective bandwidth (R-L < 10 dB) for electromagnetic wave reflectance reached 3.28 GHz (6.48-9.76 GHz) with a sample thickness of 1.8 mm. The present work adds new useful information for the designing of high-performance glass-ceramic MAMs. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

The hierarchical core-shell Fe3O4 with dendritic structure fabricated using a melting method in a multi-component system showed improved impedance matching and microwave loss ability. The optimized microwave absorption exhibited a minimum reflection loss of -54.26 dB at a thickness of 3.47 mm, with an effective bandwidth of 3.28 GHz for electromagnetic wave reflectance when the sample thickness was 1.8 mm.