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    Micromechanics Solution for the Elastic Moduli of Fiber-Reinforced Concrete

    New search for: Huan, Yu-Jia
    New search for: Yang, Liu
    New search for: Jin, Yu
    New search for: Guang, Jia-Lian
    New search for: Ming, Liu

    The overall elastic moduli of fiber-reinforced concrete composite materials are investigated by employing the theory of micromechanics. A method based on the Mori–Tanaka theory and triple inhomogeneities is found to provide a sufficiently accurate evaluation of the average elastic properties of fiber-reinforced concrete composite materials. The inhomogeneities of the materials are divided into three groups: a fine aggregate, a coarse aggregate, and fibers (steel or polymer). The elastic moduli of fiber-reinforced concrete composite materials are determined as functions of the physical properties and volume fraction of sand, gravel, fibers (steel or polymer), and cement paste as a matrix. The theoretical results obtained are compared with published experimental data. The parameters affecting the elastic moduli of fiber-reinforced concrete are discussed in detail.

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    Micromechanics Solution for the Elastic Moduli of Fiber-Reinforced Concrete

    New search for: Huan, Yu-Jia
    New search for: Yang, Liu
    New search for: Jin, Yu
    New search for: Guang, Jia-Lian
    New search for: Ming, Liu

    The overall elastic moduli of fiber-reinforced concrete composite materials are investigated by employing the theory of micromechanics. A method based on the Mori–Tanaka theory and triple inhomogeneities is found to provide a sufficiently accurate evaluation of the average elastic properties of fiber-reinforced concrete composite materials. The inhomogeneities of the materials are divided into three groups: a fine aggregate, a coarse aggregate, and fibers (steel or polymer). The elastic moduli of fiber-reinforced concrete composite materials are determined as functions of the physical properties and volume fraction of sand, gravel, fibers (steel or polymer), and cement paste as a matrix. The theoretical results obtained are compared with published experimental data. The parameters affecting the elastic moduli of fiber-reinforced concrete are discussed in detail.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Micromechanics Solution for the Elastic Moduli of Fiber-Reinforced Concrete

    New search for: Huan, Yu-Jia
    New search for: Yang, Liu
    New search for: Jin, Yu
    New search for: Guang, Jia-Lian
    New search for: Ming, Liu

    The overall elastic moduli of fiber-reinforced concrete composite materials are investigated by employing the theory of micromechanics. A method based on the Mori–Tanaka theory and triple inhomogeneities is found to provide a sufficiently accurate evaluation of the average elastic properties of fiber-reinforced concrete composite materials. The inhomogeneities of the materials are divided into three groups: a fine aggregate, a coarse aggregate, and fibers (steel or polymer). The elastic moduli of fiber-reinforced concrete composite materials are determined as functions of the physical properties and volume fraction of sand, gravel, fibers (steel or polymer), and cement paste as a matrix. The theoretical results obtained are compared with published experimental data. The parameters affecting the elastic moduli of fiber-reinforced concrete are discussed in detail.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

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    Title:

    Micromechanics Solution for the Elastic Moduli of Fiber-Reinforced Concrete

    Contributors:

    Huan, Yu-Jia (author) / Yang, Liu (author) / Jin, Yu (author) / Guang, Jia-Lian (author) / Ming, Liu (author)

    Published in:

    Mechanics of Composite Materials ; 50 ; 515-522

    Publication date:

    2014

    Size:

    8 Seiten

    ISSN:

    0191-5665

    DOI:

    https://doi.org/10.1007/s11029-014-9438-7

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    Mikromechanik , Elastizitätsmodul , Faserbeton , Kompositwerkstoff , Stahl , Polymer , Zementpaste , experimentelle Daten , Volumenfraktion , theoretisches Ergebnis

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