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    Research on the Strength Optimization of Carbon Fiber Reinforced RMC based Micromechanical Modeling

    New search for: Wang, Tao
    New search for: Zhang, Jianhua
    New search for: Zhang, Yi

    Carbon fiber reinforced resin mineral composite (RMC) has ten times the vibration alleviating property than cast iron, which can be used to produce the mechanical basic parts of high precision machine tools. Aggregate, resin matrix and fibers are the key component in RMC to bear loads, different component dosage and aggregate gradation design determine the compression strength of RMC directly. An optimal method to determine the critical dimension of aggregate is proposed based on particle interference theory and fractal aggregate gradation is used to adjust the proportion. The micromechanical model of carbon fiber reinforced RMC is established to certify its work mechanism. Carbon fibers are used after combined surface treatment, typical RMC samples are prepared and the compression strength tests are conducted respectively to get effective variation tendency. The optimal design has better compression strength performance and the fibers play an important role in strength reinforcing.

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    Research on the Strength Optimization of Carbon Fiber Reinforced RMC based Micromechanical Modeling

    New search for: Wang, Tao
    New search for: Zhang, Jianhua
    New search for: Zhang, Yi

    Carbon fiber reinforced resin mineral composite (RMC) has ten times the vibration alleviating property than cast iron, which can be used to produce the mechanical basic parts of high precision machine tools. Aggregate, resin matrix and fibers are the key component in RMC to bear loads, different component dosage and aggregate gradation design determine the compression strength of RMC directly. An optimal method to determine the critical dimension of aggregate is proposed based on particle interference theory and fractal aggregate gradation is used to adjust the proportion. The micromechanical model of carbon fiber reinforced RMC is established to certify its work mechanism. Carbon fibers are used after combined surface treatment, typical RMC samples are prepared and the compression strength tests are conducted respectively to get effective variation tendency. The optimal design has better compression strength performance and the fibers play an important role in strength reinforcing.

    Access

    Access via TIB
    Check availability in my library

    Research on the Strength Optimization of Carbon Fiber Reinforced RMC based Micromechanical Modeling

    New search for: Wang, Tao
    New search for: Zhang, Jianhua
    New search for: Zhang, Yi

    Carbon fiber reinforced resin mineral composite (RMC) has ten times the vibration alleviating property than cast iron, which can be used to produce the mechanical basic parts of high precision machine tools. Aggregate, resin matrix and fibers are the key component in RMC to bear loads, different component dosage and aggregate gradation design determine the compression strength of RMC directly. An optimal method to determine the critical dimension of aggregate is proposed based on particle interference theory and fractal aggregate gradation is used to adjust the proportion. The micromechanical model of carbon fiber reinforced RMC is established to certify its work mechanism. Carbon fibers are used after combined surface treatment, typical RMC samples are prepared and the compression strength tests are conducted respectively to get effective variation tendency. The optimal design has better compression strength performance and the fibers play an important role in strength reinforcing.

    Access

    Access via TIB
    Check availability in my library

    Access

    Access via TIB
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    Title:

    Research on the Strength Optimization of Carbon Fiber Reinforced RMC based Micromechanical Modeling

    Contributors:

    Wang, Tao (author) / Zhang, Jianhua (author) / Zhang, Yi (author)

    Published in:

    WCECS, World Congress on Engineering and Computer Science, 2013 ; 1-5

    Publication date:

    2013

    Size:

    5 Seiten, Bilder, Tabellen, 18 Quellen

    Remarks:

    (nicht paginiert)

    Type of media:

    Conference paper

    Type of material:

    Storage medium

    Language:

    English

    Keywords:

    Carbonfaser , Druckfestigkeit , Oberflächenbehandlung , Gusseisen , Mineral , Präzisionswerkzeug , Komposit , Fraktal , Lagerbelastung

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