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    FERRITE CALCINED BODY, FERRITE SINTERED MAGNET, AND MANUFACTURING METHOD THEREOF

    Neue Suche nach: TANIOKU YASUAKI
    Neue Suche nach: KOBAYASHI YOSHINORI

    To provide a ferrite sintered magnet that has a high Br and a small decrease in HcJ, and uses less La than a conventional Ca-La-Co-based ferrite sintered magnet by reducing the amount of Co used by 25% or more compared to a general Sr-La-Co-based ferrite sintered magnet.SOLUTION: In a general formula indicating the atomic ratio of metal elements of Ca, R, A, Fe, Co, and Zn: Ca1-x-x'RxAx'Fe2n-y-zCoyZnz, in a ferrite calcined body, x, x', y, and z, and n (2n is a molar ratio, and 2n=(Fe+Co+Zn)/(Ca+R+A)) satisfies 0.1≤x≤0.4, 0x, and 4.5≤n≤5.5.SELECTED DRAWING: None

    【課題】高いBrを有しかつHcJの低下が少なく、一般的なSr−La−Co系フェライト焼結磁石よりもCoの使用量を25%以上削減し、さらに従来のCa−La−Co系フェライト焼結磁石よりもLaの使用量を削減したフェライト焼結磁石の提供。【解決手段】Ca、R、A、Fe、Co及びZnの金属元素の原子比を示す一般式:Ca1−x−x’RxAx’Fe2n−y−zCoyZnzにおいて、前記x、x’、y及びz、並びにn(2nはモル比であって、2n=(Fe+Co+Zn)/(Ca+R+A)で表される)が、0.1≦x≦0.4、0<x’≦0.3、0<y<0.15、0<z<0.15、1−x−x’>x、及び4.5≦n≦5.5、を満足するフェライト仮焼体。【選択図】なし

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    FERRITE CALCINED BODY, FERRITE SINTERED MAGNET, AND MANUFACTURING METHOD THEREOF

    Neue Suche nach: TANIOKU YASUAKI
    Neue Suche nach: KOBAYASHI YOSHINORI

    To provide a ferrite sintered magnet that has a high Br and a small decrease in HcJ, and uses less La than a conventional Ca-La-Co-based ferrite sintered magnet by reducing the amount of Co used by 25% or more compared to a general Sr-La-Co-based ferrite sintered magnet.SOLUTION: In a general formula indicating the atomic ratio of metal elements of Ca, R, A, Fe, Co, and Zn: Ca1-x-x'RxAx'Fe2n-y-zCoyZnz, in a ferrite calcined body, x, x', y, and z, and n (2n is a molar ratio, and 2n=(Fe+Co+Zn)/(Ca+R+A)) satisfies 0.1≤x≤0.4, 0x, and 4.5≤n≤5.5.SELECTED DRAWING: None

    【課題】高いBrを有しかつHcJの低下が少なく、一般的なSr−La−Co系フェライト焼結磁石よりもCoの使用量を25%以上削減し、さらに従来のCa−La−Co系フェライト焼結磁石よりもLaの使用量を削減したフェライト焼結磁石の提供。【解決手段】Ca、R、A、Fe、Co及びZnの金属元素の原子比を示す一般式:Ca1−x−x’RxAx’Fe2n−y−zCoyZnzにおいて、前記x、x’、y及びz、並びにn(2nはモル比であって、2n=(Fe+Co+Zn)/(Ca+R+A)で表される)が、0.1≦x≦0.4、0<x’≦0.3、0<y<0.15、0<z<0.15、1−x−x’>x、及び4.5≦n≦5.5、を満足するフェライト仮焼体。【選択図】なし

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    FERRITE CALCINED BODY, FERRITE SINTERED MAGNET, AND MANUFACTURING METHOD THEREOF

    Neue Suche nach: TANIOKU YASUAKI
    Neue Suche nach: KOBAYASHI YOSHINORI

    To provide a ferrite sintered magnet that has a high Br and a small decrease in HcJ, and uses less La than a conventional Ca-La-Co-based ferrite sintered magnet by reducing the amount of Co used by 25% or more compared to a general Sr-La-Co-based ferrite sintered magnet.SOLUTION: In a general formula indicating the atomic ratio of metal elements of Ca, R, A, Fe, Co, and Zn: Ca1-x-x'RxAx'Fe2n-y-zCoyZnz, in a ferrite calcined body, x, x', y, and z, and n (2n is a molar ratio, and 2n=(Fe+Co+Zn)/(Ca+R+A)) satisfies 0.1≤x≤0.4, 0x, and 4.5≤n≤5.5.SELECTED DRAWING: None

    【課題】高いBrを有しかつHcJの低下が少なく、一般的なSr−La−Co系フェライト焼結磁石よりもCoの使用量を25%以上削減し、さらに従来のCa−La−Co系フェライト焼結磁石よりもLaの使用量を削減したフェライト焼結磁石の提供。【解決手段】Ca、R、A、Fe、Co及びZnの金属元素の原子比を示す一般式:Ca1−x−x’RxAx’Fe2n−y−zCoyZnzにおいて、前記x、x’、y及びz、並びにn(2nはモル比であって、2n=(Fe+Co+Zn)/(Ca+R+A)で表される)が、0.1≦x≦0.4、0<x’≦0.3、0<y<0.15、0<z<0.15、1−x−x’>x、及び4.5≦n≦5.5、を満足するフェライト仮焼体。【選択図】なし

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    Titel:

    FERRITE CALCINED BODY, FERRITE SINTERED MAGNET, AND MANUFACTURING METHOD THEREOF

    Weitere Titelangaben:

    フェライト仮焼体、フェライト焼結磁石及びその製造方法

    Beteiligte:

    TANIOKU YASUAKI (Autor:in) / KOBAYASHI YOSHINORI (Autor:in)

    Erscheinungsdatum:

    08.04.2021

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Japanisch

    Klassifikation:

    IPC:  H01F MAGNETS , Magnete / C01G Verbindungen der von den Unterklassen C01D oder C01F nicht umfassten Metalle , COMPOUNDS CONTAINING METALS NOT COVERED BY SUBCLASSES C01D OR C01F / C04B Kalk , LIME

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