Zirconium content induced mitigation of mechanical anisotropy in 2:17 type SmCo magnets 被引量：6

Zirconium content induced mitigation of mechanical anisotropy in 2:17 type SmCo magnets

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摘要 The mitigation of mechanical anisotropy is observed in 2:17 type SmCo magnets by adjusting the Zr content This behavior is supposed to be closely related to the density of lamellar phase,the density of which is enhanced obviously with increasing Zr content.The other reasons which could cause the reduction of the mechanical anisotropy is discussed from the Zr-rich impurity phase to the atom substitutions and crystal lattice distortion.The observation of crack in nano scale that dearly forms angles of 60° and 90° with respect to the lamellar phase,indicates that the probable cleavage planes are crystal faces(1011) and(1010).The results of investigation can deepen the understanding of mechanical anisotropy and cleavage fracture in the SmCo magnets. The mitigation of mechanical anisotropy is observed in 2:17 type SmCo magnets by adjusting the Zr content This behavior is supposed to be closely related to the density of lamellar phase,the density of which is enhanced obviously with increasing Zr content.The other reasons which could cause the reduction of the mechanical anisotropy is discussed from the Zr-rich impurity phase to the atom substitutions and crystal lattice distortion.The observation of crack in nano scale that dearly forms angles of 60° and 90° with respect to the lamellar phase,indicates that the probable cleavage planes are crystal faces(1011) and(1010).The results of investigation can deepen the understanding of mechanical anisotropy and cleavage fracture in the SmCo magnets.

作者 Guanghui Yan Zhuang Liu Yanping Feng Weixing Xia Chaoyue Zhang Guangqing Wang Aru Yan

机构地区 University of Chinese Academy of Sciences Laboratory of Rare Earth Magnetic Functional Materials CAS Key Laboratory of Magnetic Materials and Devices

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2020年第2期182-187,共6页 稀土学报（英文版）

基金 supported by National Natural Science Foundation of China(51877094) Zhejiang Province Technology Application Research(2016C31027) Ningbo International Cooperation Project(2015D1009).

关键词 2 type SmCo magnet Mechanical anisotropy Cleavage plane Lamellar phase Rare earths

分类号 TM273 [一般工业技术—材料科学与工程]

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参考文献1

1张文臣,赵睿,方以坤,周鸣鸽,朱明刚,李卫.Effect of Sm-rich liquid phase on magnetic properties and microstructures of sintered 2:17-type Sm-Co magnet[J].Journal of Rare Earths,2011,29(10):934-938. 被引量：5

二级参考文献19

1Ya. G. Bogatin,E. G. Povolotskii.Crystal structure and magnetic properties of SmCo5 permanent magnets produced by deformation sintering[J]. Soviet Powder Metallurgy and Metal Ceramics . 1981 (1) 被引量：1
2Sugimoto S.Current status and recent topics of rare-earth permanent magnets. Journal of Physics . 2011 被引量：1
3Guo Zhaohui,Pan Wei,Li Wei.Sm(Co,Fe,Cu,Zr)z sintered magnets with a maximum operating temperature of 500 oC. Journal of Magnetism and Magnetic Materials . 2006 被引量：1
4Goll D,Kronmuller H,Stadelmaier H H.Micromagnetism and the microstructure of high temperature permanent magnets. Journal of Applied Physics . 2004 被引量：1
5Wohlfarth E P.Ferromagnetic materials: a handbook on the properties of magnetically ordered substances. . 1980 被引量：1
6Tang W,Zhang Y,Hadjipanayis G C.Microstructure and magnetic properties of Sm (CobalFexCu0.128Zr0.02)7.0 magnets with Fe substitution. Journal of Magnetism and Magnetic Materials . 2000 被引量：1
7Peng Long,Yang Qiuhui,Zhang Huaiwu,Xu Guangliang,Zhang Ming,Wang Jingdong.Rare earth permanent magnets Sm2 (Co,Fe,Cu,Zr)17 for high temperature applications. Scripta Materialia . 2008 被引量：1
8Liu Sam,Potts Gregory,Doyle George,Yang Jie,Kuhl Edward G,Chen C,Marlin S Walmer,Michael H Walmer.Effect of Z value on high temperature performance of Sm (Co,Fe,Cu,Zr)z with z=7.14-8.10. IEEE Transactions on Magnetics . 2000 被引量：1
9Livingston J D,Martin D L.Microstructure of aged (Co,Cu,Fe)7Sm magnets. Journal of Applied Physics . 1977 被引量：1
10Luo J,Guo Y Q,Li W.Effects of Cu on crystallographic and magnetic properties of Sm(Co,Cu)7. Journal of Physics . 2003 被引量：1

共引文献4

1冯丹,车云霞,郑吉民.An acentric lanthanide-formate complex: synthesis, structure, ferroelectric and magnetic properties[J].Journal of Rare Earths,2012,30(8):798-801.
2Wei Sun,Ming-Gang Zhu,Yi-Kun Fang,Wei Pan,Man-Long Xia,Wei Li.Microstructure and magnetic properties of sintered CeCo_(4.3252-x)Cu_(0.675)Fe_x magnets[J].Rare Metals,2015,34(3):164-167. 被引量：1
3Donghui Liu,Fei Niu,Xiaolin Zhang,Yuning Meng,Youming Yang.Fabrication of SmCo_(5) alloy via cobalt-induced calciothermic reduction and magnetic properties of its ribbon[J].Journal of Rare Earths,2021,39(5):572-578. 被引量：1
4Kuikui Songa,Wei Suna,Yikun Fang,Shuai Wang,Nengjun Yu,Meiling Zhang,Minggang Zhu,Wei Li.Optimization of microstructures and magnetic properties of Sm(Co_(bal)Fe_(0.227)Cu_(0.07)Zr_(0.023))_(7.6) magnets by sintering treatment[J].Journal of Rare Earths,2019,37(2):171-177. 被引量：12

同被引文献19

1张文臣,方以坤,朱明刚,赵睿,王景代.磁粉粒度对2:17型Sm-Co烧结磁体性能及微结构的影响[J].功能材料,2011,42(3):498-500. 被引量：6
2李海龙,张敏刚,宫长伟,陈峰华.温压压力对钕铁硼磁性能和抗压强度的影响[J].电子元件与材料,2012,31(2):36-39. 被引量：2
3Sofoklis S. Makridis,Wei Tang.Structural and magnetic properties of Sm(Co_(0.7)Fe_(0.1)Ni_(0.12)Zr_(0.04)B_(0.04))_(7.5) melt spun isotropic and anisotropic ribbons[J].Journal of Rare Earths,2012,30(7):691-695. 被引量：9
4Cheng-Bao Jiang,Shi-Zhong An.Recent progress in high temperature permanent magnetic materials[J].Rare Metals,2013,32(5):431-440. 被引量：22
5李安华,董生智,李卫.稀土永磁材料的力学性能[J].金属功能材料,2002,9(4):7-10. 被引量：21
6李安华,董生智,李卫.烧结SmCo永磁材料的断裂[J].中国科学（A辑）,2002,32(10):870-875. 被引量：7
7G P Zhao,L Zhao,L C Shen,J Zou,L Qiu.Coercivity mechanisms in nanostructured permanent magnets[J].Chinese Physics B,2019,28(7):1-13. 被引量：4
8李安华,董生智,李卫.烧结Sm_2Co_(17)型永磁材料的力学性能及断裂行为的各向异性[J].物理学报,2002,51(10):2320-2324. 被引量：12
9Allan Trench,John P.Sykes.Rare Earth Permanent Magnets and Their Place in the Future Economy[J].Engineering,2020,6(2):115-118. 被引量：12
10J.M.D.Coey.Perspective and Prospects for Rare Earth Permanent Magnets[J].Engineering,2020,6(2):119-131. 被引量：61

引证文献6

1闫阿儒.2:17型钐钴永磁材料的研究进展[J].金属功能材料,2021,28(1):1-11. 被引量：7
2吕贵红,马峥,肖滕龙,李孝森,刘夏琳,安士忠.稀土永磁材料力学性能改善方法及加工方法的研究进展[J].机械工程材料,2021,45(9):1-7. 被引量：1
3王磊,李强峰,刘友好,方以坤,衣晓飞,李卫.Sm_(2)Co_(17)型永磁材料弹塑变形阶段的微纳压痕尺寸效应[J].中国稀土学报,2022,40(3):425-430. 被引量：4
4Lei Wang,Chao Wang,Qiangfeng Li,Youhao Liu,Yikun Fang,Xiaofei Yi,Wei Li.Correlation of mechanical anisotropy with fine grain strengthening for Sm_(2)Co_(17)-type sintered permanent magnets[J].Journal of Rare Earths,2022,40(10):1584-1591. 被引量：3
5王帅,雍辉,韩婷,朱亚武,胡季帆.富铁低锆Sm_(2)Co_(17)型烧结永磁材料磁性能提升机理研究[J].功能材料,2023,54(1):1202-1207.
6Yingchang Li,Zicao Xing,Nengjun Yu,Zesong Ren,Minxiang Pan,Qiong Wu,Hongliang Ge,Minggang Zhu,Wei Li.High-performance anisotropic SmCo-based magnet with novel microstructure[J].Journal of Rare Earths,2024,42(8):1539-1545.

二级引证文献14

1夏伟,刘荣明,张天丽,贾立颖,王永齐,孙威,刘辉,全小康,李炳山.短时高温加热对永磁体剩磁的影响[J].金属功能材料,2022,29(1):50-56. 被引量：1
2刘玉玲,冯雪娇,魏昌婷.基于专利信息的稀土永磁材料技术研发分析[J].江西科学,2022,40(3):611-618. 被引量：3
3朱治军,王朝安,曲鹏.还原温度及原料对钴粉晶型的影响[J].粉末冶金工业,2022,32(6):77-81.
4李永建,范子容,张长庚,耿惠.变温条件下钐钴永磁材料损耗特性测量与定量分析[J].电工电能新技术,2023,42(2):68-77. 被引量：2
5沈鹏,周栋,何亚洲,韩瑞,李卫.稀土永磁材料增材制造技术的回顾与展望[J].金属功能材料,2023,30(1):1-9. 被引量：5
6王立,张保国,张维民,刘风国,张丽鹏,石忠宁.新型室温熔盐电化学提取稀土金属Sm及其过程机制[J].稀有金属,2023,47(4):594-600. 被引量：4
7郑蒙,刘涛,王磊,王超,方以坤,朱明刚,李卫.钐钴永磁合金吸放氢特性及应用研究进展[J].中国稀土学报,2023,41(3):454-464.
8陈燕蕊,吕科,李岩,任少卿,赵明静,董瑞,定巍.烧结温度对2∶17H型高性能SmCo合金微观结构和磁性能的影响[J].金属热处理,2023,48(9):35-41.
9付子聪,杨诗婷,田宪会,郎风超,李继军,张伟光.激光选区熔化Ti-6Al-4V合金的微纳压痕尺寸效应[J].表面技术,2024,53(5):85-95. 被引量：1
10魏凤,邓阿妹,谷山强,李涛.专利视角下航空航天领域稀土应用技术分布研究[J].稀土,2024,45(1):149-158.

1Market of rare earth permanent magnet materials from January to October 2018[J].China Rare Earth Information,2019,25(1):4-5.
2K.Sahoo,A.K.Nayak,M.K.Ghosh,K.Sarangi.Preparation of Sm2O3 and Co3O4 from SmCo magnet swarf by hydrometallurgical processing in chloride media[J].Journal of Rare Earths,2018,36(7):725-732. 被引量：5
3Jia Sun,Ming Zhang,Zhi-Feng Wang,Hai-Yan Chen,Ye Chen,Naoya Murakami,Teruhisa Ohno.Synthesis of anatase TiO_(2) with exposed {001} and {101} facets and photocatalytic activity[J].Rare Metals,2019,38(4):287-291. 被引量：11
4Wen Wang,Peng Han,Jie Yuan,Pai Peng,Qiang Liu,Fei Qiang,Ke Qiao,Kuai-She Wang.Enhanced Mechanical Properties of Pure Zirconium via Friction Stir Processing[J].Acta Metallurgica Sinica(English Letters),2020,33(1):147-153.
5Yi Lv,Yuan Shi,无.Xi'an consensus on magnetic surgery[J].Hepatobiliary Surgery and Nutrition,2019,8(2):177-178. 被引量：5
6Minzhen Tao,Qiaochu Mu,Yurui Zhang,Zhen Xie.Construction of a CRISPR-based paired-sgRNA library for chromosomal deletion of long non-coding RNAs[J].Quantitative Biology,2020,8(1):31-42.
7GuangCun Shan,JiLiang Zhang.Guiding topological semimetals towards water oxidation in a Kagomé crystal lattice[J].Science China(Physics,Mechanics & Astronomy),2020,63(3):122-124.
8Sheng Lei,Jun Sun,Yinfeng Zhu,Huaqi Liang,Yansheng Yao,Rong Hu.Investigation on the Tensile Properties and Fracture Characteristics of Amorphous Ribbons Fe81.50B1.40Si7.95Nb7.37Cu1.73P0.05[J].Journal of Harbin Institute of Technology(New Series),2019,26(6):80-85.
9Shiming Cao,Yijun Cao,Zilong Ma,Yinfei Liao,Xiaolin Zhang.Structural and electronic properties of bastnaesite and implications for surface reactions in flotation[J].Journal of Rare Earths,2020,38(3):332-338. 被引量：6
10Dong-ping Zhan,Guo-xing Qiu,Chang-sheng Li,Min Qi,Zhou-hua Jiang,Hui-shu Zhang.Effects of yttrium and zirconium additions on inclusions and mechanical properties of a reduced activation ferritic/martensitic steel[J].Journal of Iron and Steel Research International,2020,27(2):197-207. 被引量：2

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