The SrFe12O19@carbonyl iron(CI) core–shell composites used in microwave absorption are prepared by the metal–organic chemical vapor deposition(MOCVD). The x-ray diffractometer, scanning electron microscope, energy d...The SrFe12O19@carbonyl iron(CI) core–shell composites used in microwave absorption are prepared by the metal–organic chemical vapor deposition(MOCVD). The x-ray diffractometer, scanning electron microscope, energy dispersive spectrometer, and vector network analyzer are used to characterize the structural, electromagnetic, and absorption properties of the composites. The results show that the SrFe12O19@CI composites with a core–shell structure could be successfully prepared under the condition: deposition temperatures above 180℃, deposition time 30 min, and gas flow rate 30 m L/min.The electromagnetic properties of the composites change significantly, and their absorption capacities are improved. Of the obtained samples, those samples prepared at a deposition temperature of 180℃ exhibit the best absorption performance.The reflection loss of SrFe12O19@CI(180℃) with 1.5 mm–2.5 mm in thickness is less than-10 dB in a frequency range of 8 GHz–18 GHz, which covers the whole X band and Ku band.展开更多
采用水热法合成了M型Sr Fe12O19铁氧体粉末,并对其烧结前后的结构和磁性能进行了研究。实验发现,无论烧结前还是后样品都是单相铁氧体结构。烧结后,样品的矫顽力和饱和磁化强度分别从42.9 k A/m和48.1 emu/g显著增加到237.8 k A/m和64.9...采用水热法合成了M型Sr Fe12O19铁氧体粉末,并对其烧结前后的结构和磁性能进行了研究。实验发现,无论烧结前还是后样品都是单相铁氧体结构。烧结后,样品的矫顽力和饱和磁化强度分别从42.9 k A/m和48.1 emu/g显著增加到237.8 k A/m和64.9 emu/g,这与高温烧结后其晶粒的长大密切相关。实验还发现,烧结后样品中存在着剩磁增强效应,其原因可归于样品中不同磁硬度的纳米晶相之间的磁耦合作用。展开更多
文摘The SrFe12O19@carbonyl iron(CI) core–shell composites used in microwave absorption are prepared by the metal–organic chemical vapor deposition(MOCVD). The x-ray diffractometer, scanning electron microscope, energy dispersive spectrometer, and vector network analyzer are used to characterize the structural, electromagnetic, and absorption properties of the composites. The results show that the SrFe12O19@CI composites with a core–shell structure could be successfully prepared under the condition: deposition temperatures above 180℃, deposition time 30 min, and gas flow rate 30 m L/min.The electromagnetic properties of the composites change significantly, and their absorption capacities are improved. Of the obtained samples, those samples prepared at a deposition temperature of 180℃ exhibit the best absorption performance.The reflection loss of SrFe12O19@CI(180℃) with 1.5 mm–2.5 mm in thickness is less than-10 dB in a frequency range of 8 GHz–18 GHz, which covers the whole X band and Ku band.
文摘采用水热法合成了M型Sr Fe12O19铁氧体粉末,并对其烧结前后的结构和磁性能进行了研究。实验发现,无论烧结前还是后样品都是单相铁氧体结构。烧结后,样品的矫顽力和饱和磁化强度分别从42.9 k A/m和48.1 emu/g显著增加到237.8 k A/m和64.9 emu/g,这与高温烧结后其晶粒的长大密切相关。实验还发现,烧结后样品中存在着剩磁增强效应,其原因可归于样品中不同磁硬度的纳米晶相之间的磁耦合作用。