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    MNZN FERRITE AND ITS PRODUCTION METHOD

    New search for: MIYOSHI YASUHARU
    New search for: KOYUHARA NORIKAZU
    New search for: TADA TOMOYUKI

    A method for producing MnZn ferrite comprising Fe, Mn and Zn as main components, and Ca, Si and Co, and at least one selected from the group consisting of Ta, Nb and Zr as sub-components, comprising a step of molding a raw material powder for the MnZn ferrite to obtain a green body, and a step of sintering the green body; the sintering step comprising a temperature-elevating step, a high-temperature-keeping step, and a cooling step; the cooling step including a slow cooling step of cooling in a temperature range of 1100° C. to 1250° C. at a cooling speed of 0° C./hour to 20° C./hour for 1 hours to 20 hours, and a cooling speed before and after the slow cooling step being higher than 20° C./hour; the MnZn ferrite having a volume resistivity of 8.5 Ω·m or more at room temperature, an average crystal grain size of 7 μm to 15 μm, and core loss of 420 kW/m3 or less between 23° C. and 140° C. at a frequency of 100 kHz and an exciting magnetic flux density of 200 mT.

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    MNZN FERRITE AND ITS PRODUCTION METHOD

    New search for: MIYOSHI YASUHARU
    New search for: KOYUHARA NORIKAZU
    New search for: TADA TOMOYUKI

    A method for producing MnZn ferrite comprising Fe, Mn and Zn as main components, and Ca, Si and Co, and at least one selected from the group consisting of Ta, Nb and Zr as sub-components, comprising a step of molding a raw material powder for the MnZn ferrite to obtain a green body, and a step of sintering the green body; the sintering step comprising a temperature-elevating step, a high-temperature-keeping step, and a cooling step; the cooling step including a slow cooling step of cooling in a temperature range of 1100° C. to 1250° C. at a cooling speed of 0° C./hour to 20° C./hour for 1 hours to 20 hours, and a cooling speed before and after the slow cooling step being higher than 20° C./hour; the MnZn ferrite having a volume resistivity of 8.5 Ω·m or more at room temperature, an average crystal grain size of 7 μm to 15 μm, and core loss of 420 kW/m3 or less between 23° C. and 140° C. at a frequency of 100 kHz and an exciting magnetic flux density of 200 mT.

    Access

    Download

    MNZN FERRITE AND ITS PRODUCTION METHOD

    New search for: MIYOSHI YASUHARU
    New search for: KOYUHARA NORIKAZU
    New search for: TADA TOMOYUKI

    A method for producing MnZn ferrite comprising Fe, Mn and Zn as main components, and Ca, Si and Co, and at least one selected from the group consisting of Ta, Nb and Zr as sub-components, comprising a step of molding a raw material powder for the MnZn ferrite to obtain a green body, and a step of sintering the green body; the sintering step comprising a temperature-elevating step, a high-temperature-keeping step, and a cooling step; the cooling step including a slow cooling step of cooling in a temperature range of 1100° C. to 1250° C. at a cooling speed of 0° C./hour to 20° C./hour for 1 hours to 20 hours, and a cooling speed before and after the slow cooling step being higher than 20° C./hour; the MnZn ferrite having a volume resistivity of 8.5 Ω·m or more at room temperature, an average crystal grain size of 7 μm to 15 μm, and core loss of 420 kW/m3 or less between 23° C. and 140° C. at a frequency of 100 kHz and an exciting magnetic flux density of 200 mT.

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    Title:

    MNZN FERRITE AND ITS PRODUCTION METHOD

    Contributors:

    MIYOSHI YASUHARU (author) / KOYUHARA NORIKAZU (author) / TADA TOMOYUKI (author)

    Publication date:

    2019-02-28

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    English

    Classification:

    IPC:  C04B Kalk , LIME / H01F MAGNETS , Magnete

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