A NOVEL HYDROTHERMAL SYNTHESIS METHOD FOR BARIUM FERRITE 被引量：1

A NOVEL HYDROTHERMAL SYNTHESIS METHOD FOR BARIUM FERRITE

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摘要 In the present work, fine barium ferrite powder has been synthesized through a one-step hydrothermal process in an autoclave at [OH-]/[Cl-] ratio of 2:1 in the temperature range from 180 to 260 oC using barium chloride (BaCl2), ferrous chloride (FeCl2) and potassium nitrate (KNO3) as the starting materials. Both particle size and saturation magnetization (Ms) increase with increasing hydrothermal reaction temperature, while the intrinsic coercivity (iHc) peaks at 685 Oe at 230 oC. Morphology progress from the barium ferrite precursor particles to the barium hexaferrite particles has been monitored with increasing hydrothermal reaction time at 230 oC in the autoclave. In the present work, fine barium ferrite powder has been synthesized through a one-step hydrothermal process in an autoclave at [OH-]/[Cl-] ratio of 2:1 in the temperature range from 180 to 260 oC using barium chloride (BaCl2), ferrous chloride (FeCl2) and potassium nitrate (KNO3) as the starting materials. Both particle size and saturation magnetization (Ms) increase with increasing hydrothermal reaction temperature, while the intrinsic coercivity (iHc) peaks at 685 Oe at 230 oC. Morphology progress from the barium ferrite precursor particles to the barium hexaferrite particles has been monitored with increasing hydrothermal reaction time at 230 oC in the autoclave.

作者 KangLi HongchenGu QunWei

机构地区 EngineeringResearchCenterofNanoScienceandTechnology

出处《China Particuology》 SCIE EI CAS CSCD 2004年第1期41-43,共3页

关键词 barium hexaferrite hydrothermal reaction magnetic recording nanoparticles barium hexaferrite, hydrothermal reaction, magnetic recording nanoparticles

分类号 TQ581 [化学工程—精细化工]

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1[1]Ataie,A.,Piramoon,M.R.,Harris,I.R.& Ponton,C.B.(1995).J.Mater.Sci.,30,5600.
2[2]Fujiwara,T.(1985).Barium ferrite media for perpendicular recording.IEEE Trans.Magn.,21,1480-1485.
3[3]Hadjipanayis,G.C.& Prinz,G.A.(1991).Science and Technology of Nanostructured Magnetic Materials,(p.497).New York:Plenum Press.
4[4]Haneda,K.,Miyakama,C.,& Kojima,H.(1974).J.Am.Ceram.Soc.,57,354.
5[5]Jacobo,S.E.,Domingo-Pascual,C.,Rodriguez-Clements,R.& Blesa,M.A.(1997).Synthesis of ultrafine particles of barium ferrite by chemical coprecipitation.J.Mater.Sci.,32(4),1025-1028.
6[6]Kabo,O.,ldo,T.,& Yokoyama,H.(1982).Properties of Ba ferrite particles for perpendicular magnetic recording media.IEEE Trans.Magn.,18,1122-1124.
7[7]Kumazawa,H.,Cho,H.M.& Sada,E.(1993).J.Mater.Sci.,28,5247.
8[8]Kumazawa,H.,Maeda,Y.& Sada,E.(1995).J.Mater.Sci.Lett.,14,68.
9[9]Licci,F.& Besagni,T.(1984).Organic resin method for highly reactive and homogeneous hexaferrite powders.IEEE Trans.Magn.,20(5),1639-1641.
10[10]Lin,C.H.,Shih,W.,Chin,T.S.,Wang,M.L.& Yu,Y.C.(1990).Hydrothermal processings to produce magnetic particulates.IEEE Trans.Magn.,26(1),15-17.

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2李俊,冷观武,彭虎.旋磁铁氧体材料的微波烧结及在环行器中的应用研究[J].磁性材料及器件,2005,36(5):47-49. 被引量：7
3Asti G, Carbucicchio M, Defiu A, et al. Magnetic characterization of Ca substituted Ba and Sr hexaferrites [J]. J Magn Magn Mater, 1980, 20(1):44-46.
4Lucchini E, Slokar G. Occurrence of a strontium hexaferrite field in the CaO-SrO-Fe2O3 system [J]. J Magn Magn Mater, 1980, 21(1): 93-96.
5Lotgering F K, Huyberts M A H. Composition and magnetic properties of hexagonal Ca, La ferrite with magnetoplumbite structure [J]. Solid State Communications, 1980, 34(1): 49-50.
6Lucchini E, Slokar G. Solubility of calcium oxide in barium hexaferrite [J]. J Mater Sci, 1980, 15(8): 2123- 2125.
7Fang T T, Lin H B, Lee K T. Formation mechanisms of La^3+-doped CaO·6Fe2O3 with the magnetoplumbite structure [J]. Journal of the American Ceramic Society, 1988, 71(8): C-368-C-370.
8小林义,细川诚,尾田悦,ら.Ca-La-Co系M型エライトの组成と磁气特性[J].粉体おょび粉末冶金,2008,55(7):541-546.
9Langhof N, G6bbels M. Hexaferrites and phase relations in the iron-rich part of the system Sr-La-Co-Fe-O [J]. Journal of Solid State Chemistry, 2009, 182(10): 2725- 2732.
10Javed Iqbal M, Naeem Ashiq M. Physical, electrical and dielectric properties of Ca-substituted strontium hexaferrite (SrFe12O19) nanoparticles synthesized by co-precipitation method [J]. J Magn Magn Mater, 2010, 322(13): 1720-1726.

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2毕海洋.关于低硫煤全硫测定氯化钡用量的探讨[J].双煤科技,1991(3):33-36.
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4王绍东,蒲心诚.灰砂系统水热反应动力学和反应过程的研究[J].硅酸盐学报,1989,17(6):490-495. 被引量：3
5M. Montazeri-Pour,A. Ataie.Synthesis of Nanocrystalline Barium Ferrite in Ethanol/Water Media[J].Journal of Materials Science & Technology,2009,25(4):465-469.
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A NOVEL HYDROTHERMAL SYNTHESIS METHOD FOR BARIUM FERRITE 被引量：1

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