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    CERAMIC BASE COMPOSITE MATERIAL AND PRODUCTION METHOD THEREOF

    New search for: KUBOTA YUKI
    New search for: UDA MICHIMASA
    New search for: TAKADA TAKUYA
    New search for: AOKI TAKUYA

    To provide a new technique for obtaining a matrix in a ceramic base composite material which suppresses crack generation while having heat resistance.SOLUTION: In a method for producing a ceramic base composite material comprising a matrix and reinforcement fibers provided in the matrix, the reinforcement fibers are arranged in the liquid raw material of the matrix (step S2), the reinforcement fibers in the liquid raw material are heated to a matrix formation temperature (step S31), and the reinforcement fibers in the liquid raw material are heated to heat resistance imparting temperature (step S32). The heat resistance imparting temperature is a temperature exceeding the matrix forming temperature. The step S31 and the step S32 are repeated.SELECTED DRAWING: Figure 4

    【課題】セラミックス基複合材料において、耐熱性を有しつつクラックの発生が抑えられたマトックスを得るための新たな技術を提供する。【解決手段】マトリックスと、マトリックス内に設けられた強化繊維とを備えるセラミックス基複合材料の製造方法では、マトリックスの液体原料内に強化繊維を配置し(ステップS2)、液体原料内の強化繊維をマトリックス形成温度に加熱し(ステップS31)、液体原料内の強化繊維を耐熱性付与温度に加熱する(ステップS32)。耐熱性付与温度は、マトリックス形成温度を超える温度であり、ステップS31とステップS32を繰り返し行う。【選択図】図4

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    CERAMIC BASE COMPOSITE MATERIAL AND PRODUCTION METHOD THEREOF

    New search for: KUBOTA YUKI
    New search for: UDA MICHIMASA
    New search for: TAKADA TAKUYA
    New search for: AOKI TAKUYA

    To provide a new technique for obtaining a matrix in a ceramic base composite material which suppresses crack generation while having heat resistance.SOLUTION: In a method for producing a ceramic base composite material comprising a matrix and reinforcement fibers provided in the matrix, the reinforcement fibers are arranged in the liquid raw material of the matrix (step S2), the reinforcement fibers in the liquid raw material are heated to a matrix formation temperature (step S31), and the reinforcement fibers in the liquid raw material are heated to heat resistance imparting temperature (step S32). The heat resistance imparting temperature is a temperature exceeding the matrix forming temperature. The step S31 and the step S32 are repeated.SELECTED DRAWING: Figure 4

    【課題】セラミックス基複合材料において、耐熱性を有しつつクラックの発生が抑えられたマトックスを得るための新たな技術を提供する。【解決手段】マトリックスと、マトリックス内に設けられた強化繊維とを備えるセラミックス基複合材料の製造方法では、マトリックスの液体原料内に強化繊維を配置し(ステップS2)、液体原料内の強化繊維をマトリックス形成温度に加熱し(ステップS31)、液体原料内の強化繊維を耐熱性付与温度に加熱する(ステップS32)。耐熱性付与温度は、マトリックス形成温度を超える温度であり、ステップS31とステップS32を繰り返し行う。【選択図】図4

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    CERAMIC BASE COMPOSITE MATERIAL AND PRODUCTION METHOD THEREOF

    New search for: KUBOTA YUKI
    New search for: UDA MICHIMASA
    New search for: TAKADA TAKUYA
    New search for: AOKI TAKUYA

    To provide a new technique for obtaining a matrix in a ceramic base composite material which suppresses crack generation while having heat resistance.SOLUTION: In a method for producing a ceramic base composite material comprising a matrix and reinforcement fibers provided in the matrix, the reinforcement fibers are arranged in the liquid raw material of the matrix (step S2), the reinforcement fibers in the liquid raw material are heated to a matrix formation temperature (step S31), and the reinforcement fibers in the liquid raw material are heated to heat resistance imparting temperature (step S32). The heat resistance imparting temperature is a temperature exceeding the matrix forming temperature. The step S31 and the step S32 are repeated.SELECTED DRAWING: Figure 4

    【課題】セラミックス基複合材料において、耐熱性を有しつつクラックの発生が抑えられたマトックスを得るための新たな技術を提供する。【解決手段】マトリックスと、マトリックス内に設けられた強化繊維とを備えるセラミックス基複合材料の製造方法では、マトリックスの液体原料内に強化繊維を配置し(ステップS2)、液体原料内の強化繊維をマトリックス形成温度に加熱し(ステップS31)、液体原料内の強化繊維を耐熱性付与温度に加熱する(ステップS32)。耐熱性付与温度は、マトリックス形成温度を超える温度であり、ステップS31とステップS32を繰り返し行う。【選択図】図4

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    Title:

    CERAMIC BASE COMPOSITE MATERIAL AND PRODUCTION METHOD THEREOF

    Additional title:

    セラミックス基複合材料とその製造方法

    Contributors:

    KUBOTA YUKI (author) / UDA MICHIMASA (author) / TAKADA TAKUYA (author) / AOKI TAKUYA (author)

    Publication date:

    2023-12-13

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  C04B Kalk , LIME

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