Preferred Orientation in Nanocomposite Permanent Magnet Materials 被引量：2

Preferred Orientation in Nanocomposite Permanent Magnet Materials

下载PDF

导出

摘要 Melt-spun （Nd11.4Fe82.9B5.7）0.99M1 ribbons （M = Zr, Nb, Ga, Zr＋ Ga, Nb ＋ Ga）were prepared by melt-spinning technique. Ga addition is found to be effective for the orientation of c-axis of Nd2Fe14B grains perpendicular to the ribbon plane. Better magnetic properties can be achieved by adding both the two kinds of elements Zr ＋ Ga, Nb ＋ Ga, and it is found that the preferred orientation is further improved. The alignment degree changes with ribbon thickness and is highest when ribbon thickness is 120 μm. Heat treatment can improve the texture degree, but lead to coarser grains. Cryogenic treatment is first applied for the treatment of nanocomposite Nd2Fe14B/α-Fe melt-spun ribbons. The effects on magnetic properties and texture degree of nanocomposite magnets after cryogenic treatment were studied. The result shows that cryogenic treatment is beneficial to the enhancement of texture degree of melt-spun ribbon and the grain size has no obvious change. Melt-spun （Nd11.4Fe82.9B5.7）0.99M1 ribbons （M = Zr, Nb, Ga, Zr＋ Ga, Nb ＋ Ga）were prepared by melt-spinning technique. Ga addition is found to be effective for the orientation of c-axis of Nd2Fe14B grains perpendicular to the ribbon plane. Better magnetic properties can be achieved by adding both the two kinds of elements Zr ＋ Ga, Nb ＋ Ga, and it is found that the preferred orientation is further improved. The alignment degree changes with ribbon thickness and is highest when ribbon thickness is 120 μm. Heat treatment can improve the texture degree, but lead to coarser grains. Cryogenic treatment is first applied for the treatment of nanocomposite Nd2Fe14B/α-Fe melt-spun ribbons. The effects on magnetic properties and texture degree of nanocomposite magnets after cryogenic treatment were studied. The result shows that cryogenic treatment is beneficial to the enhancement of texture degree of melt-spun ribbon and the grain size has no obvious change.

作者庞利佳孙光飞陈菊芳强文江黎文安张锦标

机构地区 School of Materials Science and Engineering Yuhong Magnetic Powders Corporation

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2006年第1期76-80,共5页 稀土学报（英文版）

基金 ProjectsupportedbyChineseNationalProgramsforHighTechnologyResearchandDevelopment(2002AA302602) BeijingMunicipalNaturalScienceFoundation(2032011)

关键词 nanocomposite magnets preferred orientation TEXTURE alignment degree rare earths nanocomposite magnets preferred orientation texture alignment degree rare earths

分类号 TM273 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献10

1DadonD,GefenY,DarielMP.Thetextureofmelt spunFe76Nd16B8ribbons[].IEEETransMagn.1987
2KimYB,KimCS,KimDH,etal.Nanocrystalline Nd12Fe80B6Nb1Ga1melt spunribbonwithtexturedsurface[].Journal of Applied Physiology.1994
3KnellerEF,HawigR.Theexchange springmagnet:Anewmaterialprincipleforpermanentmagnets[].IEEETransMagn.1991
4SkomskiR,CoeyJMD.Giantenergyproductin nanostructuredtwo phasemagnets[].Physical Review B Condensed Matter and Materials Physics.1993
5JiangZL,ChenXY,BaiFM,etal.Textureof nanocompositeNd2Fe14BαFemeltspunribbons[].JournalofRareEarths.2004
6SinnemaS,RadwanskiRJ,FranseJJM,etal.Mag neticpropertiesofternaryrare earthcompoundsofthe typeR2Fe14B[].JMagnMagnMater.1984
7ChenZM,ZhangY,DingYQ,etal.Studieson magneticpropertiesandmicrostructureofmelt spun nanocompositeR8(Fe,Co,Nb)86B6(R=Nd,Pr)mag nets[].JMagnMagnMater.1999
8CoehoornR,DeMooijDB,DeWaardC.Meltspun permanentmagnetmaterialscontainingFe3Basthemain phase[].JMagnMagnMater.1989
9ChenDing,LiWenan.Grainpreferredorientationof AlandAlalloysthroughcryogenictreatment[].JCentSouthUnivTechnol.2000
10YamasakiJ,FurutaA,HirokadoY.AnisotropicNd Fe Bmelt spunmagnets[].IEEETransMagn.1989

同被引文献24

1庞利佳,乔祎,陈菊芳,孙光飞,祁毓俊,胡权霞.纳米复合永磁材料晶粒择优取向的研究[J].中国稀土学报,2004,22(6):773-777. 被引量：7
2连利仙,刘颖,李军,高升吉,涂铭旌.磁场热处理对纳米复相Nd_2Fe_(14)B/α-Fe永磁体磁性能的影响[J].中国有色金属学报,2004,14(12):2085-2089. 被引量：10
3刘光娟,杜晓波,荣传兵,张绍英,张宏伟,沈保根.Co含量对Pr_(10)Fe_(74-x)Co_(10+x)C_4B_4(x=0,2,4,6,8)快淬条带的磁性能的影响[J].中国稀土学报,2005,23(2):200-203. 被引量：2
4Yin J H, Shen B G, Wang D H. Magnetic properties and magnetic domain structure of Nd6Dy2Fe82 Co4B6 nanocomposite magnets [J]. Journal of Alloys and Compounds, 2001, 316: 296.
5Fischer R, Schrefl T, Kronmuller H. Grain-size dependence of remanence and coercive field of isotropic nanocrystalline composite permanent magnets [J]. Journal of Magnetism and Magnetic Materials, 1996, 153: 35.
6Zhang I-I W, Zhang W Y, Yan A R, Sun Z G, Shen B G, Tung I C, Chin T S. The hard magnetic properties of nanocomposite Nd3.6Pr5.4Fe83Co3B5 ribbons prepared by melt spinning [J]. Materials Science and Engineering A, 2001, 304-306: 997.
7Chrefl T, Fidler J, Kronmuller H. Remanence and coercivity in isotropic nanocrystalline permanent magnets [J]. Phys. Rev. B, 1994, 49(9): 6100.
8Skomski R, Coey J M D. Giant energy product in nano-structured 2-phase magnets [J]. Phys. Rev. B, 1993, 48(21): 15812.
9Rodewald W, Wall B, Katter M, Uestuener K. Top Nd-Fe-B magnets with Greater than 56 MGOe energy density and 9.8 kOe coercivity [J ]. IEEE Transactions on Magnetics, 2002, 38: 2955.
10Chang W C, Chiou D Y, Wu S H. High performance α-Fe/ Nd2Fe14B-type nanocomposites [J]. Appl. Phys. Lett., 1998, 72(1): 121.

引证文献2

1庞利佳,孙光飞,陈菊芳,喻晓军,黎文安,张锦标.纳米晶复合永磁材料各向异性的研究进展[J].金属功能材料,2005,12(4):20-24. 被引量：2
2张朋越,葛洪良,陈良辅,刘凤娟,张哲,刘建华.低温热处理对α-Fe／Sm2Fe17Cx纳米复合永磁合金结构和磁性能的影响[J].中国稀土学报,2008,26(2):167-172.

二级引证文献2

1庞利佳,孙光飞,陈菊芳,梁家欢,张锦标,黎文安.纳米复合Pr_2Fe_(14)B/α-Fe永磁材料晶化行为和磁性能的研究[J].材料工程,2007,35(1):3-6. 被引量：2
2王晓林.Nb含量对Fe_(40)Co_(40)Zr_(10-x)Nb_xB_(10)(x=0,2,4,6,8,10)系合金非晶形成能力和微观结构的影响[J].通化师范学院学报,2014,35(12):40-42.

1Meiling Dou,Ming Hou,Zhilin Li,Feng Wang,Dong Liang,Zhigang Shao,Baolian Yi.Pt/WO_3/C nanocomposite with parallel WO_3 nanorods as cathode catalyst for proton exchange membrane fuel cells[J].Journal of Energy Chemistry,2015,24(1):39-44. 被引量：5
2GaoRu-Wei,FengWei-Cun,WangBiao,ChenWei,HanGuang-Bing,ZhangPeng,LiuHan-Qiang,LiWei,GuoYong-Quan,LiXiu-Mei.Effective anisotropy and coercivity in nanocomposite permanent materials[J].Chinese Physics B,2003,12(5):577-577.
3ZHANG Huan-jun CHEN Guo-hua.Ag/TiO2 Nanocomposite. Synthesis, Characterization and Application[J].华东理工大学学报（自然科学版）,2009,35(6):872-872.
4YUXiao-jun,CHANGYing,MANuo,LIANFa-zeng.Magnetic Properties of Nd2Fe14B／Fe3B Based Nanocomposite Bonded Magnets[J].Journal of Iron and Steel Research(International),2004,11(5).
5郭家俊,陈雷,赵旭,范素丽,陈伟.Effective Anisotropy in Magnetically Nd2Fe14B/α-Fe Nanocomposite[J].Chinese Physics Letters,2010,27(5):244-246.
6王占勇,徐晖,倪建森,金红明,周邦新.Texture Evolution in Nanocomposite Nd_2Fe_(140B/α-Fe Magnets Prepared by Direct Melt Spinning[J].Journal of Rare Earths,2005,23(S1):298-301. 被引量：1
7Ha-Kyung Roh,Hyun-Kyung Kim,Myeong-Seong Kim,Dong-Hyun Kim,Kyung Yoon Chung,Kwang Chul Roh,Kwang-Bum Kim.In situ synthesis of chemically bonded NaTi2（PO4）3/rGO 2D nanocomposite for high-rate sodium-ion batteries[J].Nano Research,2016,9(6):1844-1855. 被引量：7
8WANG Zuocheng,ZHANG Maocai,QIAO Yi,GAO Xuexum,LI Fubiao,ZHOU Shouzeng,WANG Run( State Key Laboratory for Advanced Metals and Materials, University of Science and Technology Beijing, Beijing 100083, China) ( Materials Science and Engineering School,.Nanocrystalline exchange-coupled Pr-Fe-B permanent magnets[J].International Journal of Minerals,Metallurgy and Materials,1997,11(3):11-13.
9马瑞.Effect of Nd_2Fe_(14)B/α-Fe Nanocomposite Permanent Magnets with a Combined Co and Nb Additions[J].Journal of Wuhan University of Technology(Materials Science),2009,24(5):725-727.
10雷军,刘志刚,余明锋.多相三电平逆变器-PMSM矢量控制系统研究[J].电力电子技术,2005,39(5):35-37. 被引量：1

Journal of Rare Earths

2006年第1期

浏览历史

内容加载中请稍等...

Preferred Orientation in Nanocomposite Permanent Magnet Materials 被引量：2

参考文献10

同被引文献24

引证文献2

二级引证文献2

相关作者

相关机构

相关主题

浏览历史