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第5期 郑志刚等:纳米锰锌铁氧体的制备与结构特性 .531. 参考文献 的研究.粉末冶金技术,2005,23(3):229) [1]Shao H C.Dai H L.Huang J.et al.Recent developments of [6]Arulmurugana R.Jeyadevanb B.Effect of zinc substitution on CoZn and Mn-Zn ferrite nanoparticles prepared by co precipita" studies and its prospects on ferrite magnetic ceramic material Shandong Ceram,2004.27(5):11 tion.J MagnMagn Mater.2005.288:470 (邵海成,戴红莲,黄健,等.铁氧体磁性陶瓷材料的研究动态 [7]Tong Y.Hu W Y.Research on producing Fe3O by the pyrite 及展望.山东陶瓷,2004,27(5):11) cinder.J Southwest Univ Sci Technol,2005,20(4):13 [2]Verma A.Alam M I,Chatterjee R.Development of a new soft (童云,胡文远·利用硫铁矿烧渣制备高纯氧化铁的研究·西 南科技大学学报,2005,20(4):13) ferrite core for power applications.J Magn Magn Mater,2006. 300.500 [8]Ynag X B.Hu GC.Yi P,et al.Experimental study of key tech- [3]Ott G.Wrha J.Lucke R.Recent developments of Mn Zn ferrites nics on preparation of MnZn ferrite with very high permeability. for high permeability applications.MagnMagn Mater,2003. Funct Mater,2001,32(3):245 254/255.535 (姚学标,胡国光,尹萍,等.制备超高磁导率MZn铁氧体的 若干关键技术的实验探究.功能材料,2001,32(3):245) [4]Wang C Z.Tan W,Zhou G Y.et al.The progress on the study [9]Ghazanfara U,Siddiqia SA.Abbas C.Structural analysis of the of preparation method of soft magnetic ferrite powder.China Manganese Ind.2002.20(3):37 Mn Zn ferrites using XRD technique.Mater Sci Eng B.2005. 118:84 (王长振,谭维,周甘宇,等.锰锌铁氧体粉制备技术综述,中 国锰业,2002,20(3):37) [10]Li Q H.Huang Y L.Wang HJ.et al.Inquiring into dispersion [5]Fan J L.Cheng HC.Ma YZ.et al.Synthesis techniques of iron mode of ultra fine particles with grain size small than 2 m. oxide nano powder.Pow der Metall Technol.2005.23(3):229 Mater Sci Eng Powder Metall.2007,12(5):284 (范景莲,成会朝,马运柱,等.纳米/超细氧化铁粉末制备技术 (李启厚,黄异龄,王红军,等.粒径≤2的超细粉体颗粒分 散方式探讨.粉末治金材料科学与工程,2007,12(5):284)参 考 文 献 [1] Shao H CDai H LHuang Jet al.Recent developments of studies and its prospects on ferrite magnetic ceramic material. Shandong Ceram200427(5):11 (邵海成戴红莲黄健等.铁氧体磁性陶瓷材料的研究动态 及展望.山东陶瓷200427(5):11) [2] Verma AAlam M IChatterjee R.Development of a new soft ferrite core for power applications.J Magn Magn Mater2006 300:500 [3] Ott GWrba JLucke R.Recent developments of Mn-Zn ferrites for high permeability applications.J Magn Magn Mater2003 254/255:535 [4] Wang C ZTan WZhou G Yet al.The progress on the study of preparation method of soft magnetic ferrite powder. China Manganese Ind200220(3):37 (王长振谭维周甘宇等.锰锌铁氧体粉制备技术综述.中 国锰业200220(3):37) [5] Fan J LCheng H CMa Y Zet al.Synthesis techniques of iron oxide nano-powder.Pow der Metall Technol200523(3):229 (范景莲成会朝马运柱等.纳米/超细氧化铁粉末制备技术 的研究.粉末冶金技术200523(3):229) [6] Arulmurugana RJeyadevanb B.Effect of zinc substitution on Co-Zn and Mn-Zn ferrite nanoparticles prepared by co-precipitation.J Magn Magn Mater2005288:470 [7] Tong YHu W Y.Research on producing Fe3O4 by the pyrite cinder.J Southwest Univ Sci Technol200520(4):13 (童云胡文远.利用硫铁矿烧渣制备高纯氧化铁的研究.西 南科技大学学报200520(4):13) [8] Ynag X BHu G GYi Pet al.Experimental study of key technics on preparation of MnZn ferrite with very high permeability.J Funct Mater200132(3):245 (姚学标胡国光尹萍等.制备超高磁导率 MnZn 铁氧体的 若干关键技术的实验探究.功能材料200132(3):245) [9] Ghazanfara USiddiqia S AAbbas G.Structural analysis of the Mn—Zn ferrites using XRD technique.Mater Sci Eng B2005 118:84 [10] Li Q HHuang Y LWang H Jet al.Inquiring into dispersion mode of ultra-fine particles with grain size small than 2μm. Mater Sci Eng Pow der Metall200712(5):284 (李启厚黄异龄王红军等.粒径≤2μm 的超细粉体颗粒分 散方式探讨.粉末冶金材料科学与工程200712(5):284) 第5期 郑志刚等: 纳米锰锌铁氧体的制备与结构特性 ·531·