Improvement of Heat Generation Ability in AC magnetic field and Magnetic Properties for Spinel Type MgFe2O4 ferrite by Cu Substitution and Beads Milling

机译：Cu代替和珠粒晶型MgFe2O4铁氧体的AC磁场中发热能力的提高

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Mg1-XCuXFe2O4 type spinel ferrite was prepared by solid reaction method in order to discuss the heat generation ability in AC magnetic field.The cubic type ferrite structure was obtained for X=0-0.6 samples calcined at 1200oC,and the mixture phase of cubic and tetragonal structures were obtained for X=0.7,0.8 samples from XRD result.The highest lattice parameter and highest hysteresis loss value were also shown at X=0.6 sample,the crystal distortion was increased with increase the Cu2+substitution in cubic type ferrite structure.The sized nano Mg0.4Cu0.6Fe2O4 powder was prepared by physical milling method using beads milling.The highest heat generation in the AC magnetic field was obtained for the 6 h milled samples using 0.1mm beads.The Cu2+substitution for MgFe2O4 ferrite and the beads milling were very effective for the improvement of their heat generation ability in AC magnetic field.

机译：通过固体反应方法制备Mg1-Xcuxfe2O4型尖晶石铁氧体，以便在AC磁场中讨论发热能力。在1200℃下煅烧的X = 0-0.6样品，以及立方体的混合物相和立方体和Cubic的混合阶段获得立方型铁氧体结构。从XRD结果获得X = 0.7,0.8样品的四边形结构。最高的晶格参数和最高滞后损失值也显示在x = 0.6样品中，随着立方型铁氧体结构中的Cu2 +取代而增加了晶体变形。通过使用珠粒研磨的物理研磨方法制备大小的纳米Mg0.4Cu0.6Fe2O4粉末。使用0.1mm珠子的6个碾磨样品获得AC磁场中的最高发热。Cu2 +替代MgFe2O4铁氧体和珠粒研磨对于改善AC磁场中的发热能力非常有效。

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《International Conference on Electromagnetic Processing of Materials》|2012年||共4页
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Hideyuki HIRAZAWA; Hiromichi AONO; Takashi Naohara; Tsunehiro MAEHARA; Yuji WATANABE;
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中图分类一般性问题;
关键词
heat generation ability; AC magnetic field; spinel ferrite; beads milling;

机译：发热能力;交流磁场;尖晶石铁氧体;珠铣;

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1. High heat generation ability in AC magnetic field of nano-sized superparamagnetic Y_3Fe_5O_(12) ferrite powder prepared by physical bead milling [J] . Hiromichi Aono, Takashi Naohara, Tsunehiro Maehara, International journal of applied electromagnetics and mechanics . 2014,第2期

机译：物理珠磨制备纳米级超顺磁性Y_3Fe_5O_（12）铁氧体粉末在交流磁场中的高发热能力
2. Effect of particle growth on heat generation ability in AC magnetic field for nano-sized magnetic Y3Fe5O12 powder prepared by bead milling [J] . Tadahiko NISHIMORI, Yusuke AKIYAMA, Takashi NAOHARA, Journal of the Ceramic Society of Japan . 2013,第1409期

机译：珠磨制备纳米Y3Fe5O12磁性纳米粉体中颗粒生长对交流磁场中生热能力的影响
3. High heat generation ability in AC magnetic field for nano-sized magnetic Y_3Fe_5O_(12) powder prepared by bead milling [J] . Hiromichi Aono, Hiroki Ebara, Ryota Senba, Journal of magnetism and magnetic materials . 2012,第12期

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4. Improvement of Heat Generation Ability in AC magnetic field and Magnetic Properties for Spinel Type MgFe2O4 ferrite by Cu Substitution and Beads Milling [C] . Hideyuki HIRAZAWA, Hiromichi AONO, Takashi Naohara, 7th International Conference on Electromagnetic Processing of Materials . 2012

机译：Cu替代和珠磨改善尖晶石型MgFe2O4铁氧体在交流磁场中的生热能力和磁性能
5. Development of synthesis method for spinel ferrite magnetic nanoparticle and its superparamagnetic properties. [D] . Han, Man Huon. 2008

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Improvement of Heat Generation Ability in AC magnetic field and Magnetic Properties for Spinel Type MgFe2O4 ferrite by Cu Substitution and Beads Milling

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