Fe_x(SiC_2 )_(1 - x) nanocomposites prepared by using mechanical alloying method were reported. The mi-crostructure character and magnetic properties of Fex (SiO_2) 1 - x nanocomposite samples with different Fe conten...Fe_x(SiC_2 )_(1 - x) nanocomposites prepared by using mechanical alloying method were reported. The mi-crostructure character and magnetic properties of Fex (SiO_2) 1 - x nanocomposite samples with different Fe content and different ball milling time were studied by using X-ray diffraction (XRD), transmission electron microscopy (TEM), Mossbauer spectroscopy, and Faraday magnetic balance in a wide temperature range. The results indicate that the mi-crostructure and magnetic properties are closely related to ball milling time and Fe content. When Fe content is less than 20 wt% , the sample after 80-h ball milling has very complex microstructure. Small α-Fe grains and Fe cluster are implanted in SiO2 matrix. And there are not only isolated α-Fe granular and Fe cluster, but also nanometer scaled sandwich network-like structure. Fex (SiO_2) 1 - x nanocomposite samples display a rich variety of physical and chemical properties as a result of their unique nanostructure, strong interface interaction and inter-osmosis effect in Fe-SiO_2 boundaries, and the grain size effect.展开更多
基金Project supported by the Foundation of State ScienceTechnology Commission of China the Natural Science Foundation of Anhui Province
文摘Fe_x(SiC_2 )_(1 - x) nanocomposites prepared by using mechanical alloying method were reported. The mi-crostructure character and magnetic properties of Fex (SiO_2) 1 - x nanocomposite samples with different Fe content and different ball milling time were studied by using X-ray diffraction (XRD), transmission electron microscopy (TEM), Mossbauer spectroscopy, and Faraday magnetic balance in a wide temperature range. The results indicate that the mi-crostructure and magnetic properties are closely related to ball milling time and Fe content. When Fe content is less than 20 wt% , the sample after 80-h ball milling has very complex microstructure. Small α-Fe grains and Fe cluster are implanted in SiO2 matrix. And there are not only isolated α-Fe granular and Fe cluster, but also nanometer scaled sandwich network-like structure. Fex (SiO_2) 1 - x nanocomposite samples display a rich variety of physical and chemical properties as a result of their unique nanostructure, strong interface interaction and inter-osmosis effect in Fe-SiO_2 boundaries, and the grain size effect.
