Effect of Mn Additions on the Microstructure of Nd9Fe85－xB6Mnx Nanocomposite

YIN Shi-Long; BIAN Qing; YANG Hong-Wei; XIE Guo-Zhi; WEI Shi-Qiang

Chinese Physics C> 2001, Vol. 25> Issue(S1) : 12-16

Effect of Mn Additions on the Microstructure of Nd₉Fe_85－xB₆Mn_x Nanocomposite

Dept.of Math.& Phys,Univ.Hohai,Nanjing 210024,China2 Institute of Science,PLAUST,Nanjing 210016,China3 NSRL,University of Science and Technology of China,Hefei 230029,China4 Dept.of Phys.,Nanjing Univ.,Nanjing 210093,China

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Abstract：
The long-rang and local structures of the Nd₉Fe_85－xB₆Mn_x(x=0.5,1.0)nanocomposite produced at melt spinning speed of 20m/s have been investigated by X-ray absorption fine structure(XAFS) and X-ray diffraction (XRD).The crystallized samples were annealed at temperatures 700°C for 5 minutes with a high heating rate.The results show that in the initial samples,the structures of the Nd₉Fe_85－xB₆Mn_x manocomposite were strongly correlated with the addition of Mn atoms.Following the increase of Mn content,the long-range and local orders of the Nd₉Fe_85－xB₆Mn_x nanocomposite increase,and a soft magnetic phase of α-Fe and a hard magnetic phase of Nd₂Fe₁₄B were formed at the addition of 1% Mn.However,the addition of element Mn can not lead to the generation of new phases or the deeper crystallization for the Nd₉Fe_85－xB₆Mn_x nanocomposite.We consider that during the preparation,element Mn was alloyed into the main lattice of the Nd₉Fe_85－xB₆Mn_x nanocomposite with a metastable structure; through annealing,the Mn atoms were separated from the initial main lattice to the borders of crystalline grain.

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[1]

Donnell K 0, RAO X L, Cullen J R et al. IEEE Trans Magn, 1997,33 (5):38862 Lewis H, Welch D 0. J. Appl. Phys., 1997,81 (8):44223 Leineweber T, Kronmuler H. J. Magn Magn Mater, 1997, 176: 1454 Rave W, Ramstick K. J. Magn Magn Mater, 1997, 171:695 Fisher R, Schrefl T, Kronmuler H. J. Magn Magn Mater, 1995, 150:3296 Fisher R, Kronmuler H. J. Appl. Phys., 1998, 8332717 Bauer J, Seeger M, Kronmuler H. J. Magn Magn Mater, 1995,139:3238 Rieger G, Seeger M, LI S et al. J. Magn Magn Mater, 1995,151:1939 Hirosawa S, Kanek iyo H, Uehara M. J. Appl. Phys., 1993,73:648810 CHANG W C, Choin D Y, WU S H a al. Appl. Phys. Lett., 1998,72:12111 ZHANG H W, ZHANG S Y, SHEN B G et al. Acta Physica Sinica, 1999.48: 16312 钟文杰，贺博，李征等.中国科学技术大学学报.2001,31:32813 Herbst J F. J. Appl. Phys., 1985,57(1):4086-409014 Clemette G B, Keem J E, Bradley J P. J. Appl. Phys., 1988,64:5299I5 Manaf A, Leonowicz M, Davies HA et al. Mater Lett., 1992,13: 19416 Skmky R, Coey J M. Phys. Rev., 1993, B48.5812

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[17]	HE Zhen-Min , HOU Yun-Zhi . NUCLEAR EFFECT ON THE NUCLEON STRUCTURE FUNCTIONS AND HIGH P_T JET PRODUCTION IN p-Fe COLLISIONS. Chinese Physics C, 1988, 12(3): 336-340.
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[19]	CHEN Jin-Quan , . SU(mn)SU(m)×SU(n) SINGLE-PARTICLE COEFFICIENTS OF FRACTIONAL PARENTAGE. Chinese Physics C, 1983, 7(4): 443-453.
[20]	LI CHI-CHOU , LU HAN-LIN , FAN PEI-KUO , MA HUNG-CHANG , LI YEH-SHA . CROSS SECTION MEASUREMENT FOR THE REACTION ⁵⁶Fe（n,p）⁵⁶Mn. Chinese Physics C, 1978, 2(6): 550-557.

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YIN Shi-Long, BIAN Qing, YANG Hong-Wei, XIE Guo-Zhi and WEI Shi-Qiang. Effect of Mn Additions on the Microstructure of Nd₉Fe_85－xB₆Mn_x Nanocomposite[J]. Chinese Physics C, 2001, 25(S1): 12-16.

YIN Shi-Long, BIAN Qing, YANG Hong-Wei, XIE Guo-Zhi and WEI Shi-Qiang. Effect of Mn Additions on the Microstructure of Nd₉Fe_85－xB₆Mn_x Nanocomposite[J]. Chinese Physics C, 2001, 25(S1): 12-16. shu

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Received: 1900-01-01
Revised: 1900-01-01

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Effect of Mn Additions on the Microstructure of Nd₉Fe_85－xB₆Mn_x Nanocomposite

Corresponding author: YIN Shi-Long,

Dept.of Math.& Phys,Univ.Hohai,Nanjing 210024,China2 Institute of Science,PLAUST,Nanjing 210016,China3 NSRL,University of Science and Technology of China,Hefei 230029,China4 Dept.of Phys.,Nanjing Univ.,Nanjing 210093,China

Received Date: 1900-01-01

Accepted Date: 1900-01-01

Available Online: 2001-06-22

Abstract: The long-rang and local structures of the Nd₉Fe_85－xB₆Mn_x(x=0.5,1.0)nanocomposite produced at melt spinning speed of 20m/s have been investigated by X-ray absorption fine structure(XAFS) and X-ray diffraction (XRD).The crystallized samples were annealed at temperatures 700°C for 5 minutes with a high heating rate.The results show that in the initial samples,the structures of the Nd₉Fe_85－xB₆Mn_x manocomposite were strongly correlated with the addition of Mn atoms.Following the increase of Mn content,the long-range and local orders of the Nd₉Fe_85－xB₆Mn_x nanocomposite increase,and a soft magnetic phase of α-Fe and a hard magnetic phase of Nd₂Fe₁₄B were formed at the addition of 1% Mn.However,the addition of element Mn can not lead to the generation of new phases or the deeper crystallization for the Nd₉Fe_85－xB₆Mn_x nanocomposite.We consider that during the preparation,element Mn was alloyed into the main lattice of the Nd₉Fe_85－xB₆Mn_x nanocomposite with a metastable structure; through annealing,the Mn atoms were separated from the initial main lattice to the borders of crystalline grain.

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Effect of Mn Additions on the Microstructure of Nd₉Fe_85－xB₆Mn_x Nanocomposite

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Effect of Mn Additions on the Microstructure of Nd₉Fe_85－xB₆Mn_x Nanocomposite

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