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Electromagnetic interference (EMI) has become a specific type of environmental pollution, due to the rapid growth in utilization of electrical and electronic devices in industrial, commercial and military applica- tions. Electromagnetic attenuation materials have been commonly used to minimize EMI. M-type barium ferrite is an ideal material for the development of electromagnetic attenuation at microwave band, due to the high saturation magnetization, large anisotropy field, excellent chemical stability and high microwave magnetic loss [1¨C3]. In order to improve the magnetic and electromagnetic absorption properties of ferrites, some Fe3+ions have been substituted with Co¨CTi, Zn¨C Ti, Zn¨CSn, Co¨CSn, Ni¨CZr and Co¨CMo [4¨C9]. In another way, ferrites have been compounded with nonmagnetic materials such as SiO2, Bi2O3and Al2O3[10¨C15]. In our previous work, the microwave absorption proper- ties of a series of barium ferrites substituted with Al3+ and Cr3+were studied [16]. We found that the locations of absorption peaks for the barium ferrites change regularly with the amount of substitution ions. We also compounded BaFe12O19with TiO2when preparing the film, which not only eliminates the microcracks in film, but also improves its microwave absorption property. Based on these results, we suggested in this paper a method to broaden the absorption range of a film with different layers. BaFe10.5Al1.5O19, BaFe10.1Al1.9O19 and BaFe11.4Cr0.6O19, having absorption peaks at different frequencies, are selected with TiO2 to prepare individual layers in the NCMF. In this way the absorption range of the NCMF can be broadened. The morphology, crystalline structure and microwave absorption property of NCMF are studied. |
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RXMCDM: ½ð±Ò+1, ¶àлӦÖú£¡ 2014-04-09 09:52:26
wanghaiju: ½ð±Ò+40, ·ÒëEPI+1, ¡ï¡ï¡ï¡ï¡ï×î¼Ñ´ð°¸ 2014-04-09 10:46:24
RXMCDM: ½ð±Ò+1, ¶àлӦÖú£¡ 2014-04-09 09:52:26
wanghaiju: ½ð±Ò+40, ·ÒëEPI+1, ¡ï¡ï¡ï¡ï¡ï×î¼Ñ´ð°¸ 2014-04-09 10:46:24
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