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    High-weatherability nanometer composite material for buildings

    New search for: PENG XIAORU

    A high-weatherability nanometer composite material for buildings comprises the following raw materials in percent by weight: 20-40% of natural chevkinite modified powder, 15-30% of mica-quartzose schist powder, 10-15% of fine muscovite powder, 5-10% of hole-closed perlite, 15-30% of ceramic micro powder, and 5-10% of heavy calcium powder. By reasonably selecting the raw materials, the high-weatherability high-acid-alkali-resistance nanometer composite material for buildings is obtained, is applied to building external walls for prolonging service life of buildings, and is energy-saving and environment-friendly.

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    High-weatherability nanometer composite material for buildings

    New search for: PENG XIAORU

    A high-weatherability nanometer composite material for buildings comprises the following raw materials in percent by weight: 20-40% of natural chevkinite modified powder, 15-30% of mica-quartzose schist powder, 10-15% of fine muscovite powder, 5-10% of hole-closed perlite, 15-30% of ceramic micro powder, and 5-10% of heavy calcium powder. By reasonably selecting the raw materials, the high-weatherability high-acid-alkali-resistance nanometer composite material for buildings is obtained, is applied to building external walls for prolonging service life of buildings, and is energy-saving and environment-friendly.

    Access

    Download

    High-weatherability nanometer composite material for buildings

    New search for: PENG XIAORU

    A high-weatherability nanometer composite material for buildings comprises the following raw materials in percent by weight: 20-40% of natural chevkinite modified powder, 15-30% of mica-quartzose schist powder, 10-15% of fine muscovite powder, 5-10% of hole-closed perlite, 15-30% of ceramic micro powder, and 5-10% of heavy calcium powder. By reasonably selecting the raw materials, the high-weatherability high-acid-alkali-resistance nanometer composite material for buildings is obtained, is applied to building external walls for prolonging service life of buildings, and is energy-saving and environment-friendly.

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    Download

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    Download

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    Document information
    Similar titles

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    Document information
    Title:

    High-weatherability nanometer composite material for buildings

    Contributors:

    PENG XIAORU (author)

    Publication date:

    2016-01-27

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    English

    Classification:

    IPC:  C04B Kalk , LIME

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