期刊
APPLIED SURFACE SCIENCE
卷 615, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apsusc.2023.156376
关键词
Absorbing material; Ferroferric oxide; Nanomaterial fluid; Carbon nanotubes; Epoxy resin composites
In this paper, a new synthesis process was used to prepare solvent-free fluid Fe3O4 (S-Fe3O4) by surface modification of solid Fe3O4, which showed excellent dispersion in resin materials. Moreover, S-Fe3O4 was compounded with CNT@Fe3O4 to prepare S-Fe3O4/CNT@Fe3O4/EP composites, which realized the multiple loss mechanism of electromagnetic wave (EMW) absorption. This surface molecular engineering composite based on inorganic particles enhanced the attenuation ability of EMW by improving the dispersion of inorganic particles and providing multiple loss mechanisms.
Owing to the large surface energy and easy agglomeration, ferroferric oxide (Fe3O4) nanoparticle usually is difficult to be widely application in microwave absorbing coatings. In this paper, a new synthesis process was used to prepare solvent-free fluid Fe3O4 (S-Fe3O4) by surface modification of solid Fe3O4 with a long chain of organic bimolecular layer, which showed excellent dispersion in resin materials. Moreover, S-Fe3O4 was compounded with CNT@Fe3O4 to prepare S-Fe3O4/CNT@Fe3O4/EP composites, which realized the multiple loss mechanism of electromagnetic wave (EMW) absorption. The results showed that the minimum reflection loss of composite was 52.57 dB with a matching thickness of 3.3 mm; the maximum effective absorption bandwidth at 1.4 mm thickness was 5.2 GHz (12.08-17.28 GHz). This surface molecular engineering composite based on inorganic particles enhanced the attenuation ability of EMW by improving the dispersion of inorganic particles and providing multiple loss mechanisms, which was a novel medium regulation strategy to provide a new insight for nanoparticles in the field of EMW absorbing coatings.
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