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    SUPER-PLASTIC COMPOUND CERAMIC

    New search for: HIRAGA KEIJIRO
    New search for: KIN HEINAN
    New search for: MORITA KOJI
    New search for: SAKKA YOSHIO

    To provide ceramics that achieve super plasticity in a strain rate of 1×10-3/s or more at 1,400°C or lower.SOLUTION: Superplastic composite ceramics of the present invention contain a magnesia phase, a spinel phase, and a tetragonal zirconia phase, in which: the magnesia phase ranges from 5% to 80%; the spinel phase ranges from 5% to 90%; and the tetragonal zirconia phase ranges from 1% to 50%, by volume. The sum of the magnesia, spinel, and tetragonal zirconia phases satisfies 90% or more of the volume fraction. The spinel phase contains aluminum (Al) and includes MgO-TiO2 spinel.SELECTED DRAWING: Figure 1

    【課題】 1400℃以下の温度域で1×10-3/s以上のひずみ速度で超塑性を発現するセラミックスを提供すること。【解決手段】 本発明の超塑性複合セラミックスは、マグネシア相と、スピネル相と、正方晶ジルコニア相とを含有し、体積率で、マグネシア相が5%以上80%以下の範囲であり、スピネル相が5%以上90%以下の範囲であり、記正方晶ジルコニア相が1%以上50%未満の範囲であり、マグネシア相とスピネル相と正方晶ジルコニア相との合計が、体積率で90%以上を満たし、スピネル相は、アルミニウム(Al)を含有し、MgO-TiO2系スピネルを含む。【選択図】 図1

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    SUPER-PLASTIC COMPOUND CERAMIC

    New search for: HIRAGA KEIJIRO
    New search for: KIN HEINAN
    New search for: MORITA KOJI
    New search for: SAKKA YOSHIO

    To provide ceramics that achieve super plasticity in a strain rate of 1×10-3/s or more at 1,400°C or lower.SOLUTION: Superplastic composite ceramics of the present invention contain a magnesia phase, a spinel phase, and a tetragonal zirconia phase, in which: the magnesia phase ranges from 5% to 80%; the spinel phase ranges from 5% to 90%; and the tetragonal zirconia phase ranges from 1% to 50%, by volume. The sum of the magnesia, spinel, and tetragonal zirconia phases satisfies 90% or more of the volume fraction. The spinel phase contains aluminum (Al) and includes MgO-TiO2 spinel.SELECTED DRAWING: Figure 1

    【課題】 1400℃以下の温度域で1×10-3/s以上のひずみ速度で超塑性を発現するセラミックスを提供すること。【解決手段】 本発明の超塑性複合セラミックスは、マグネシア相と、スピネル相と、正方晶ジルコニア相とを含有し、体積率で、マグネシア相が5%以上80%以下の範囲であり、スピネル相が5%以上90%以下の範囲であり、記正方晶ジルコニア相が1%以上50%未満の範囲であり、マグネシア相とスピネル相と正方晶ジルコニア相との合計が、体積率で90%以上を満たし、スピネル相は、アルミニウム(Al)を含有し、MgO-TiO2系スピネルを含む。【選択図】 図1

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    SUPER-PLASTIC COMPOUND CERAMIC

    New search for: HIRAGA KEIJIRO
    New search for: KIN HEINAN
    New search for: MORITA KOJI
    New search for: SAKKA YOSHIO

    To provide ceramics that achieve super plasticity in a strain rate of 1×10-3/s or more at 1,400°C or lower.SOLUTION: Superplastic composite ceramics of the present invention contain a magnesia phase, a spinel phase, and a tetragonal zirconia phase, in which: the magnesia phase ranges from 5% to 80%; the spinel phase ranges from 5% to 90%; and the tetragonal zirconia phase ranges from 1% to 50%, by volume. The sum of the magnesia, spinel, and tetragonal zirconia phases satisfies 90% or more of the volume fraction. The spinel phase contains aluminum (Al) and includes MgO-TiO2 spinel.SELECTED DRAWING: Figure 1

    【課題】 1400℃以下の温度域で1×10-3/s以上のひずみ速度で超塑性を発現するセラミックスを提供すること。【解決手段】 本発明の超塑性複合セラミックスは、マグネシア相と、スピネル相と、正方晶ジルコニア相とを含有し、体積率で、マグネシア相が5%以上80%以下の範囲であり、スピネル相が5%以上90%以下の範囲であり、記正方晶ジルコニア相が1%以上50%未満の範囲であり、マグネシア相とスピネル相と正方晶ジルコニア相との合計が、体積率で90%以上を満たし、スピネル相は、アルミニウム(Al)を含有し、MgO-TiO2系スピネルを含む。【選択図】 図1

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    Title:

    SUPER-PLASTIC COMPOUND CERAMIC

    Additional title:

    超塑性複合セラミックス

    Contributors:

    HIRAGA KEIJIRO (author) / KIN HEINAN (author) / MORITA KOJI (author) / SAKKA YOSHIO (author)

    Publication date:

    2023-03-23

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  C04B Kalk , LIME

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