Article ID Journal Published Year Pages File Type
1618401 Journal of Alloys and Compounds 2011 4 Pages PDF
Abstract

The embedding of metal nanoparticles into an insulating ceramic matrix can provide encapsulation and prevent their oxidation and agglomeration. A nanoembedment powder with the Fe nanoparticles embedded into Al2O3 matrix is prepared by high-energy ball milling. Starting from the highly exothermic reactant mixture of magnetite and aluminum, Fe nanoparticles were in situ formed in Al2O3 matrix by mechanochemical reaction. It is found that a post-reaction milling significantly narrows the size distribution of Fe nanoparticles. The mechanism for the two-stage milling process was proposed. The microwave permeability of nanoembedments exhibited a multiresonance behavior, which was the evidence for monodispersed Fe nanoparticles. The Fe@Al2O3 nanoembedments are potential candidates as microwave absorber and left-handed materials.

Graphical abstractA nanoembedment powder with the Fe nanoparticles embedded into Al2O3 matrix is prepared by high-energy ball milling. It is found that extensive milling after mechanochemical reaction significantly narrows the size distribution of Fe nanoparticles, which is evidenced by a multiresonance behavior in the microwave permeability spectra. And the mechanism for the two-stage milling process is proposed.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Fe nanoparticles were added to Al2O3 by high-energy ball milling. ► Post-reaction milling distinctly narrows the size distribution of Fe nanoparticles. ► Monodispersed Fe nanoparticles were evidenced by multiresonance behavior. ►The mechanism for the two-stage milling process is proposed.

Related Topics
Physical Sciences and Engineering Materials Science Metals and Alloys
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