核壳型磁性颗粒微波磁导率模拟与实验研究  

Simulation and experimental study of microwave permeability of magnetic particles with core-shell type

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作  者:王忠友[1] 江建军[1] 张传坤[1] 张韬奇[1] 

机构地区:[1]华中科技大学电子科学与技术系

出  处:《电子元件与材料》2008年第10期9-12,共4页Electronic Components And Materials

基  金:国家自然科学基金资助项目(No.50771047);湖北省杰出人才基金资助项目(No.2005ABB002)

摘  要:采用有效媒质理论模拟和实验验证的方法,研究了核壳型磁性颗粒的微波磁导率。结果表明:核壳结构有利于提高微波下颗粒的复磁导率,2GHz时,其实部比氧化后的颗粒提高6%-12%,虚部提高15%~30%。片状椭球形核壳结构优于球形核壳结构,2GHz时,20nm壳层厚的片状颗粒的复磁导率为4.85—1.71 i,而同壳层厚的球状颗粒为4.55—1.31 i。在核壳结构的颗粒中,壳层厚度薄有利于改善磁导率。Microwave permeability of magnetic particles with core-shell type were investigated by methods of simulation of effective medium theory and experimental verification. Results show that microwave complex permeability is advanced via core-shell microstructure of particles, the real-part with core-shell is increased 6%-10% than oxidized particles in 2 GHz, and the imaginary-part is increased 15%-30% too; The flake-like particles with core-shell is superior to sphere ones, complex permeability of flake-like particles of 20 nm thickness is 4.85-1.71 i, but ones of sphere-like particles of 20 nm thickness is 4.55-1.31 i in 2 GHz; with decreasing the thickness of particle shell, complex permeability of magnetic materials is improved.

关 键 词:电子技术 核壳模型 片状磁性颗粒 复磁导率 复介电常数 反射损耗 

分 类 号:TG132.2[一般工业技术—材料科学与工程]

 

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