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    INORGANIC SINTERED COMPACT

    New search for: TAKAGI OSAMU
    New search for: YAMADA TOMOYUKI

    To increase emissivity of a heat reservoir used for preheating a newly-supplied gas by heat of an exhaust gas which is recovered in an industrial furnace, and emissivity of an inorganic sintered compact used as a structure such as a furnace wall of the industrial furnace.SOLUTION: A substrate composed of a ceramic sintered compact or a refractory brick is coated with a high-emissivity coating layer which is a layer of silica-based glass containing elemental silicon. It is desirable that the high-emissivity coating layer does not include a cobalt component. Even when the cobalt component is included, the content of the cobalt component is preferably 2.2 parts by weight or less based on 100 parts by weight of the silicon atoms in terms of cobalt (III) oxide.SELECTED DRAWING: Figure 1

    【課題】工業炉において排ガスの熱を回収し、回収された熱によって新たに供給されるガスを予熱するために使用される蓄熱体や、工業炉の炉壁などの構造体として使用される無機焼結体の放射率を高める。【解決手段】セラミックス焼結体または耐火レンガの基体を、単体ケイ素を含有するケイ酸系ガラスの層である高放射率コーティング層で被覆する。この高放射率コーティング層は、コバルト成分を含まないことが望ましく、コバルト成分を含有するとしても、酸化コバルト(III)換算でケイ素原子100重量部に対して2.2重量部以下とすることが望ましい。【選択図】図1

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    INORGANIC SINTERED COMPACT

    New search for: TAKAGI OSAMU
    New search for: YAMADA TOMOYUKI

    To increase emissivity of a heat reservoir used for preheating a newly-supplied gas by heat of an exhaust gas which is recovered in an industrial furnace, and emissivity of an inorganic sintered compact used as a structure such as a furnace wall of the industrial furnace.SOLUTION: A substrate composed of a ceramic sintered compact or a refractory brick is coated with a high-emissivity coating layer which is a layer of silica-based glass containing elemental silicon. It is desirable that the high-emissivity coating layer does not include a cobalt component. Even when the cobalt component is included, the content of the cobalt component is preferably 2.2 parts by weight or less based on 100 parts by weight of the silicon atoms in terms of cobalt (III) oxide.SELECTED DRAWING: Figure 1

    【課題】工業炉において排ガスの熱を回収し、回収された熱によって新たに供給されるガスを予熱するために使用される蓄熱体や、工業炉の炉壁などの構造体として使用される無機焼結体の放射率を高める。【解決手段】セラミックス焼結体または耐火レンガの基体を、単体ケイ素を含有するケイ酸系ガラスの層である高放射率コーティング層で被覆する。この高放射率コーティング層は、コバルト成分を含まないことが望ましく、コバルト成分を含有するとしても、酸化コバルト(III)換算でケイ素原子100重量部に対して2.2重量部以下とすることが望ましい。【選択図】図1

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    INORGANIC SINTERED COMPACT

    New search for: TAKAGI OSAMU
    New search for: YAMADA TOMOYUKI

    To increase emissivity of a heat reservoir used for preheating a newly-supplied gas by heat of an exhaust gas which is recovered in an industrial furnace, and emissivity of an inorganic sintered compact used as a structure such as a furnace wall of the industrial furnace.SOLUTION: A substrate composed of a ceramic sintered compact or a refractory brick is coated with a high-emissivity coating layer which is a layer of silica-based glass containing elemental silicon. It is desirable that the high-emissivity coating layer does not include a cobalt component. Even when the cobalt component is included, the content of the cobalt component is preferably 2.2 parts by weight or less based on 100 parts by weight of the silicon atoms in terms of cobalt (III) oxide.SELECTED DRAWING: Figure 1

    【課題】工業炉において排ガスの熱を回収し、回収された熱によって新たに供給されるガスを予熱するために使用される蓄熱体や、工業炉の炉壁などの構造体として使用される無機焼結体の放射率を高める。【解決手段】セラミックス焼結体または耐火レンガの基体を、単体ケイ素を含有するケイ酸系ガラスの層である高放射率コーティング層で被覆する。この高放射率コーティング層は、コバルト成分を含まないことが望ましく、コバルト成分を含有するとしても、酸化コバルト(III)換算でケイ素原子100重量部に対して2.2重量部以下とすることが望ましい。【選択図】図1

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    Title:

    INORGANIC SINTERED COMPACT

    Additional title:

    無機焼結体

    Contributors:

    TAKAGI OSAMU (author) / YAMADA TOMOYUKI (author)

    Publication date:

    2020-05-07

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Japanese

    Classification:

    IPC:  C04B Kalk , LIME

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