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行星式球磨工艺参数对SmCo_(5)粉体磁性能的影响研究
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作者 李奎 安士忠 +2 位作者 李邦振 赵金龙 任凤章 《功能材料》 CAS CSCD 北大核心 2024年第2期2224-2229,共6页
纳米晶SmCo_(5)粉体具有高矫顽力和强磁耦合的优点,是制备纳米复合永磁材料使用最广泛的硬磁材料之一。采用表面活性剂辅助球磨法制备SmCo_(5)微纳米片,采用行星式球磨机,系统研究了球磨时间、球料比和表面活性剂含量对SmCo_(5)粉体的... 纳米晶SmCo_(5)粉体具有高矫顽力和强磁耦合的优点,是制备纳米复合永磁材料使用最广泛的硬磁材料之一。采用表面活性剂辅助球磨法制备SmCo_(5)微纳米片,采用行星式球磨机,系统研究了球磨时间、球料比和表面活性剂含量对SmCo_(5)粉体的形貌和磁性能的影响。结果表明随着球磨时间和球料比的增加,SmCo_(5)粉末的粒径和厚度减小并转化为微、纳米片,当球磨时间和球料比大于4 h和12∶1后,SmCo_(5)粉末的粒径和厚度变化不明显。选用球料比16∶1、球磨时间2 h、表面活性剂含量30%参数,SmCo_(5)粉体具有最优的磁性能,剩磁(Mr)为45.9 Am^(2)/kg,矫顽力(Hc)为1.13×10^(6) A/m。 展开更多
关键词 表面活性剂 行星式球磨 球磨工艺 smco_(5)粉体 形貌 磁性能
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SmCo_(5)型中熵、高熵金属间化合物的结构与磁性 被引量:3
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作者 郭新鹏 郭永权 +1 位作者 王京南 殷林瀚 《华南师范大学学报(自然科学版)》 CAS 北大核心 2021年第3期1-9,共9页
以SmCo_(5)为原型,设计了3种中熵金属间化合物(Sm_(1/3)Ce_(1/3)Pr_(1/3))Co_(5)、(Sm_(1/3)Ce_(1/3)Nd_(1/3))Co_(5)、(Sm_(1/3)Pr_(1/3)Nd_(1/3))Co_(5)和1种高熵金属间化合物(Sm_(1/4)Ce_(1/4)Pr_(1/4)Nd_(1/4))Co_(5),并采用原子半... 以SmCo_(5)为原型,设计了3种中熵金属间化合物(Sm_(1/3)Ce_(1/3)Pr_(1/3))Co_(5)、(Sm_(1/3)Ce_(1/3)Nd_(1/3))Co_(5)、(Sm_(1/3)Pr_(1/3)Nd_(1/3))Co_(5)和1种高熵金属间化合物(Sm_(1/4)Ce_(1/4)Pr_(1/4)Nd_(1/4))Co_(5),并采用原子半径差和混合焓预测了形成单相结构的可能性.应用真空电弧熔炼技术成功制备了4种金属间化合物.采用X射线衍射仪(XRD)、能谱仪(EDS)和振动样品磁强计(VSM)表征了样品的物相、成分和磁学性能.结果表明:4种化合物均为单相,具有六方CaCu5结构,空间群为P6/mmm,稀土原子占据1a位置;稀土位置上的原子浓度为等原子比;化合物的室温磁化行为遵循Langevin模型,磁化强度依赖于化合物的成分;磁价模型计算证实了化合物(Sm_(1/3)Ce_(1/3)Pr_(1/3))Co_(5)、(Sm_(1/3)Ce_(1/3)Nd_(1/3))Co_(5)和(Sm_(1/4)Ce_(1/4)Pr_(1/4)Nd_(1/4))Co_(5)中的Ce为+4价,对磁矩没有贡献. 展开更多
关键词 高熵 smco_(5) 金属间化合物 单相 磁性
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THE RELATION BETWEEN THE TEMPERING EFFECTS AND THE INTRINSIC COERCIVITY OF SINTERED SmCo5 ALLOY AT 750℃
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作者 Pan Shuming 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 1992年第1期73-76,共4页
The relation between the tempering effects of sinterd SmCo^(5)alloy at 750℃and its intrinsic coercivity(i^(Hc))has been studied by the use of photoelectron energy spectrum.X-ray diffraction and high-voltage electron ... The relation between the tempering effects of sinterd SmCo^(5)alloy at 750℃and its intrinsic coercivity(i^(Hc))has been studied by the use of photoelectron energy spectrum.X-ray diffraction and high-voltage electron microscope.The result is that the cause of iHc dropping seriously for sintered SmCo_(5)alloy tempered at 750 t is not the eutectoid decomposition of SmCo_(5)and the increase of oxygen.In fact,iHcdropping is caused by that some defect-rich regions in Sm_(2)Co_(17)decomposed form SmC0_(5)from nucleation centers in reversed magnetization course. 展开更多
关键词 sintered alloy tempering effect intrinsic coercivity smco_(5)
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Microstructure and magnetic properties of SmCo_(5) sintered magnets 被引量:4
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作者 Dong-Tao Zhang Rong-Chun Zhu +1 位作者 Ming Yue Wei-Qiang Liu 《Rare Metals》 SCIE EI CAS CSCD 2020年第11期1295-1299,共5页
SmCo_(5)sintered magnets with good thermal stability are mainly used in high-temperature field.In this study,two types of SmCo_(5) powders with different nominal z values were mixed and synthesized into SmCo_(5) magne... SmCo_(5)sintered magnets with good thermal stability are mainly used in high-temperature field.In this study,two types of SmCo_(5) powders with different nominal z values were mixed and synthesized into SmCo_(5) magnets by the traditional powder metallurgy method.The magnetic properties of the SmCo_(5) sintered magnet are maximum energy product of(BH)_(max)=172.29 kJ·m^(-3),remanence of B_(r)=7.47×10^(5)A·m^(-1)and coercivity of H_(ci)=2.42 T.The results show that there are three coexisting phases in the magnet,which are SmCo_(5)phase,Sm_(2)Co_(7)phase and Sm_(2)O_(3)phase.The microstructural observation indicates that the average grain size in the magnet is about 8μm,and the high coercivity of this magnet is attributed to these fine grains.X-ray diffraction(XRD)and electron backscatter diffraction(EBSD)results indicate that the magnet has a well-aligned(00l)orientation texture. 展开更多
关键词 smco_(5) Sintered magnets Magnetic properties
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Chemically synthesizing exchange-coupled SmCo_(5)/Sm_(2)Co_(17) nanocomposites 被引量:2
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作者 Yao-Hui Xu Qiang Jiang +1 位作者 Kun Li Zhen-Hui Ma 《Rare Metals》 SCIE EI CAS CSCD 2021年第3期575-581,共7页
A new strategy to chemically synthesize exchange-coupled SmCo_(5)/Sm_(2) Co_(17) nanocomposites by in situ decomposition of SmCox(5<x<8.5)is reported in this work.Our synthesis starts with the fabrication of Co/... A new strategy to chemically synthesize exchange-coupled SmCo_(5)/Sm_(2) Co_(17) nanocomposites by in situ decomposition of SmCox(5<x<8.5)is reported in this work.Our synthesis starts with the fabrication of Co/Sm_(2) O_(3)(Sm to Co atomic ratio of Sn/Co=1:4.2),which can be reduced into 40-nm SmCo_(5) single crystal nanoparticles by Ca under the protection of CaO,showing a high coercivity of 2.85 T and saturation magnetization(Ms)of 0.0671 A·m^(2)·g^(-1).By changing the Sm/Co to 1:4.5,1:4.8 and 1:5.2,SmCo_(5)/Sm_(2) Co_(17) nanocomposites with different proportions were acquired using the same process.Owing to the in situ decomposition of SmCo_(x) intermediate,the small size(both of their size less than 10 nm)and uniform phase distribution were achieved in our nanocomposites.Thus,the as-prepared nanocomposites display a strong exchange-coupling interaction.As a consequence,SMCo_(5)/Sm_(2)Co_(17)(Sm/Co=1:5.2)exhibits a coercivity of 1.23 T and enhanced M7 T(magnetization at 7 T)of 0.0812 A·m^(2)·g^(-1),increasing by 21%than pure SmCo_(5).Our synthesis provides a new protocol to prepare exchange-coupled high-performance nanocomposites. 展开更多
关键词 smco_(5) NANOCOMPOSITES Exchange coupling COERCIVITY
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Fabrication of SmCo_(5) alloy via cobalt-induced calciothermic reduction and magnetic properties of its ribbon 被引量:1
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作者 Donghui Liu Fei Niu +2 位作者 Xiaolin Zhang Yuning Meng Youming Yang 《Journal of Rare Earths》 SCIE EI CAS CSCD 2021年第5期572-578,共7页
SmCo_(5)alloy was prepared via direct calciothermic reduction using anhydrous samarium fluoride(SmF_(3))as raw material and cobalt as inducer.Results of the thermodynamic calculation show that the direct reduction of ... SmCo_(5)alloy was prepared via direct calciothermic reduction using anhydrous samarium fluoride(SmF_(3))as raw material and cobalt as inducer.Results of the thermodynamic calculation show that the direct reduction of cobalt-induced SmF_(3)for preparing SmCo_(5)alloy is feasible.An alloy with 33.89 wt%samarium and a yield of 96.45%were achieved under the optimal conditions of 10%and 20%excess of SmF_(3)and calcium over the stoichiometry,respectively,and 1450℃for 4 min.The X-ray diffraction results show that the reduction products are SmCo_(5)alloy and CaF_(2).The scanning electron microscopy micrograph of the SmCo_(5)alloy ingot exhibits a distinct dendritic morphology composed of samarium and cobalt.The X-ray photoelectron spectroscopy shows that the atomic ratio of samarium to cobalt is approximately 1:5 and both elements demonstrate zero valency(Sm^(0),Co^(0)).The magnetic properties measurement of the SmCo_(5)alloy melt-spun ribbon shows the remanent magnetization B_r=0.59 T,intrinsic coercivity H_(Ci)=345.82 kA/m and maximum magnetic energy density(BH)_(max)=42.20 kJ/m^(3).These results may be helpful for the development of novel valence-variable rare-earth alloys. 展开更多
关键词 Calciothermic reduction Cobalt-induced SmF_(3) smco_(5) Preparation Rare earths
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