采用电弧熔炼法制备了稀土Ce掺杂的 Fe83 Ga17 Ce0.8铸态合金,然后对其进行快淬处理,获得Fe83 Ga17 Ce0.8快淬态合金,最后对 Fe83 Ga17 Ce0.8快淬态合金在1223 K下进行退火热处理5 h.用 X 射线衍射(XRD)、扫描电镜及能谱仪(SEM/EDS)和磁致伸缩测试方法研究了快淬和退火对合金结构和磁致伸缩性能的影响.结果表明,Fe83 Ga17 Ce0.8铸态合金由 bcc结构的Fe(Ga)相和少量的 CeFe2第二相组成.Fe83 Ga17 Ce0.8快淬态合金除了含有大量的 Fe(Ga)相和少量的CeFe2相外,合金中还出现了非对称 DO3结构的 Fe3 Ga相.Fe83 Ga17 Ce0.8快淬态合金经退火热处理后,合金中的CeFe2相转化为贫稀土 Ce2 Fe17相.在外磁场为557 kA/m时,Fe83 Ga17 Ce0.8快淬态合金的磁致伸缩系数(3.82×10-4)明显大于铸态合金(3.56×10-4)和退火态合金(1.82×10-4)的磁致伸缩系数.
Rare earth Ce doped Fe83 Ga17 Ce0.8 as-cast alloy was prepared by non-consumable vacuum arc melting furnace using high purity elements under a protective argon atmosphere and then rapidly quenched at 6 m/s.Fi-nally,the Fe83 Ga17 Ce0.8 quenched alloy was annealed at 1 223 K for 5 h.The effects of rapid quenching and an-nealing on structure and magnetostriction property of Fe83 Ga17 Ce0.8 alloys were investigated by means of X-ray diffraction (XRD),scanning electron microscopy (SEM),energy dispersive spectrometry (EDS)and magneto-striction measurements,respectively.The results showed that the Fe83 Ga17 Ce0.8 as-cast alloy was composed of the Fe(Ga)solid solution phase with bcc structure and a small amount of CeFe2 secondary phase.However,the Fe83 Ga17 Ce0.8 quenched alloy was mainly composed of the Fe(Ga)solid solution phase with bcc structure,a small amount of CeFe2 and unsymmetrical Fe3 Ga phase with DO3 structure.After annealing,the CeFe2 phase of quenched alloy was conversed into Ce-poor rare earth phase of Ce2 Fe17 .The magnetostriction coefficient of quenched Fe83Ga17Ce0.8 alloy (3.82×10-4)was larger than that of the as-cast Fe83Ga17Ce0.8 alloy (3.56×10-4) and annealed Fe83Ga17Ce0.8 alloy (1.82×10-4)at the magnetic field of 557 kA/m.
参考文献
| [1] | Cao Hu;Bai Feiming;Li Jiefang et al.Structural studies of decomposition in Fe-xat%Ga alloys[J].Journal of Al-loys and Compounds,2008,465:244-249. |
| [2] | Zhang, J.;Ma, T.;Yan, M. .Anomalous phase transformation in magnetostrictive Fe_(81)Ga _(19) alloy[J].Journal of Magnetism and Magnetic Materials,2010(19):2882-2887. |
| [3] | 韩志勇,张茂才,高学绪,乔档,周寿增.〈110〉轴向取向Fe83Ga17合金中原子间作用与磁致伸缩的关系[J].功能材料,2004(05):548-549,552. |
| [4] | 李纪恒,高学绪,朱洁,李洁,张亚飞,张茂才.Fe-Ga-B合金室温塑性及轧制材料磁致伸缩性能[J].功能材料,2009(08):1251-1254. |
| [5] | Turtelli RS;Bormio-Numes C;Sinnecker JP;Grossinger R .Effect of grain shape on magnetostrictive polycrystalline Fe-Ga alloys[J].Physica, B. Condensed Matter,2006(1/2):265-267. |
| [6] | 高芳,蒋成保,刘敬华,徐惠彬.第三组元添加对Fe-Ga合金相组成和磁致伸缩性能的影响[J].金属学报,2007(07):683-687. |
| [7] | Clark A E;Wun-Fogle M;Restorff J B et al.Effect of quenching on the magnetostriction of Fe1-x Gax[J].IEEE Transactions on Magnetics,2001,37(04):2678-2680. |
| [8] | Jiang Liping;Zhang Guangrui;Yang Jiandong .Research on microstructure and magnetostriction of Fe83 Ga17 Dyx alloys[J].Journal of Rare Earths,2010,28(z1):409-412. |
| [9] | 于全功,江丽萍,张光睿,郝宏波,吴双霞,赵增祺.Tb对Fe83Ga17合金磁致伸缩性能影响[J].稀土,2010(04):21-24. |
| [10] | Yao Zhanquan;Zhao Zengqi;Jiang Liping et al.Effect of Ce addition on the microstructure and magnetostric-tion of Fe83 Ga17 alloy[J].ACTA METALLURGICA SINICA,2013,49(01):87-91. |
| [11] | T. A. Lograsso;A. R. Ross;D. L. Schlagel .Structural transformations in quenched Fe-Ga alloys[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2003(1/2):95-101. |
| [12] | Tingyan Jin;Wei Wu;Chengbao Jiang.Improved magnetostriction of Dy-doped Fe_(83)Ga_(17) melt-spun ribbons[J].Scripta materialia,2014:100-103. |
| [13] | N.J. Mellors;X. Zhao;L.M. Simmons;C.J. Quinn;S.H. Kilcoyne .A M?ssbauer spectroscopy and neutron diffraction study of magnetostrictive, melt-spun Fe-Ga alloy ribbons[J].Journal of Magnetism and Magnetic Materials,2012(22):3817-3823. |
| [14] | 王庆伟,张晶晶,马天宇,严密.快淬Fe81Ga19合金薄带的相结构和磁致伸缩[J].稀有金属材料与工程,2009(07):1234-1237. |
| [15] | 胡勇,丁雨田,刘芬霞,张艳龙,王璟.快淬Fe_(85)Ga_(15)合金的显微组织和磁致伸缩性能[J].材料热处理学报,2009(06):16-20. |
| [16] | 田晓,云国宏,尚涛,王鸿钰,海山.退火温度对Mm(NiCoMnAl)5/5 wt%Mg2 Ni储氢合金结构和电化学性能的影响[J].功能材料,2013(19):2859-2863. |
| [17] | Tian Xiao;Liu Xiangdong;Yao Zhanquan et al.Micro-structures and electrochemical properies of AB5-type rare earth hydrogen storage alloys prepared by rapid quenching[J].Journal of Inner Mongolia University(natural science edition),2011,42(06):671-676. |
| [18] | Koon N C;Schimdler A I;Carter F L .Giant magneto-striction in cubic rare earth-iron compounds of the type RFe2[J].Physics Letters A,1971,37(05):413-414. |
| [19] | 刘国栋,李养贤,胡海宁,曲静萍,柳祝红,代学芳,张铭,崔玉亭,陈京兰,吴光恒.甩带Fe85Ga15合金的巨磁致伸缩研究[J].物理学报,2004(09):3191-3195. |
| [20] | Jingjing Zhang;Tianyu Ma;Mi Yan .Effect of heat treatment on structure, magnetization and magnetostriction of Fe_(81)Ga_(19)melt-spun ribbons[J].Physica, B. Condensed Matter,2009(21):4155-4158. |
| [21] | G. D. Liu;L. B. Liu;Z. H. Liu;M. Zhang;J. L. Chen;J. Q. Li;G. H. Wu;Y. X. Li;J. P. Qu;T. S. Chin .Giant magnetostriction on Fe_(85)Ga_(15) stacked ribbon samples[J].Applied physics letters,2004(12):2124-2126. |
| [22] | 张艳龙,丁雨田,胡勇,刘芬霞,王璟.Fe82Ga18合金的磁致伸缩效应及显微组织研究[J].铸造技术,2008(12):1703-1707. |
| [23] | Liu Heyan .The study on the synthesis and properties for giant magnetostrictive materials with light rare earth[D].Tianjin:Doctoral Dissertation of Hebei University of Technology,2006. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%