Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
FERRITE CALCINED BODY, SINTERED FERRITE MAGNET, AND METHOD FOR MANUFACTURING SINTERED FERRITE MAGNET
To provide a sintered ferrite magnet having a residual magnetic flux density Br exceeding that of a conventional SrLaCo magnet and a coercive force HcJ equivalent to that of the conventional SrLaCo magnet.SOLUTION: Provided is a ferrite calcined body in which the atomic ratios of metal elements Ca, R, Fe, and Co (R is at least one rare earth element and essentially includes La) are expressed by the general formula CaxR1-xFe2n-yCoy, where x, y, and n (2n is a molar ratio and is expressed as 2n=(Fe+Co)/(Ca+R)) satisfy 0.6≤x≤0.8, 0<11.0.SELECTED DRAWING: None
【課題】 従来のSrLaCo磁石を上回る残留磁束密度Brと従来のSrLaCo磁石と同等の保磁力HcJとを有するフェライト焼結磁石の提供。【解決手段】 Ca、R、Fe及びCoの金属元素(ただし、Rは希土類元素の少なくとも1種であってLaを必須に含む元素)の原子比を示す一般式:CaxR1-xFe2n-yCoyにおいて、前記x及びy、並びにn(ただし、2nはモル比であって、2n=(Fe+Co)/(Ca+R)で表される)が、0.6≦x≦0.8、0<y≦0.2、7.0≦2n-y<11.0、を満足するフェライト仮焼体。【選択図】なし
FERRITE CALCINED BODY, SINTERED FERRITE MAGNET, AND METHOD FOR MANUFACTURING SINTERED FERRITE MAGNET
To provide a sintered ferrite magnet having a residual magnetic flux density Br exceeding that of a conventional SrLaCo magnet and a coercive force HcJ equivalent to that of the conventional SrLaCo magnet.SOLUTION: Provided is a ferrite calcined body in which the atomic ratios of metal elements Ca, R, Fe, and Co (R is at least one rare earth element and essentially includes La) are expressed by the general formula CaxR1-xFe2n-yCoy, where x, y, and n (2n is a molar ratio and is expressed as 2n=(Fe+Co)/(Ca+R)) satisfy 0.6≤x≤0.8, 0<11.0.SELECTED DRAWING: None
【課題】 従来のSrLaCo磁石を上回る残留磁束密度Brと従来のSrLaCo磁石と同等の保磁力HcJとを有するフェライト焼結磁石の提供。【解決手段】 Ca、R、Fe及びCoの金属元素(ただし、Rは希土類元素の少なくとも1種であってLaを必須に含む元素)の原子比を示す一般式:CaxR1-xFe2n-yCoyにおいて、前記x及びy、並びにn(ただし、2nはモル比であって、2n=(Fe+Co)/(Ca+R)で表される)が、0.6≦x≦0.8、0<y≦0.2、7.0≦2n-y<11.0、を満足するフェライト仮焼体。【選択図】なし
FERRITE CALCINED BODY, SINTERED FERRITE MAGNET, AND METHOD FOR MANUFACTURING SINTERED FERRITE MAGNET
フェライト仮焼体、フェライト焼結磁石及びフェライト焼結磁石の製造方法
KOBAYASHI YOSHINORI (Autor:in)
20.09.2024
Patent
Elektronische Ressource
Japanisch
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