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    Fiber orientation during casting of UHPFRC: electrical resistivity measurements, image analysis and numerical simulations

    New search for: Martinie, Laetitia
    New search for: Roussel, Nicolas

    Abstract Fibers are added to cementitious materials to enhance their mechanical behavior in hardened state. This reinforcement is strongly influenced by the fiber preferred orientation induced by casting flow. In this paper, a model derived from the evolution of a single rigid fiber orientation in a Newtonian medium is proposed to numerically predict fiber orientation in a cementitious structure in hardened state. The main characteristics of fiber orientation during a pouring representative of industrial castings are detailed. Experimental measurements taken on the same reference casting confirm this hardened state orientation.

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    Fiber orientation during casting of UHPFRC: electrical resistivity measurements, image analysis and numerical simulations

    New search for: Martinie, Laetitia
    New search for: Roussel, Nicolas

    Abstract Fibers are added to cementitious materials to enhance their mechanical behavior in hardened state. This reinforcement is strongly influenced by the fiber preferred orientation induced by casting flow. In this paper, a model derived from the evolution of a single rigid fiber orientation in a Newtonian medium is proposed to numerically predict fiber orientation in a cementitious structure in hardened state. The main characteristics of fiber orientation during a pouring representative of industrial castings are detailed. Experimental measurements taken on the same reference casting confirm this hardened state orientation.

    Access

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    Fiber orientation during casting of UHPFRC: electrical resistivity measurements, image analysis and numerical simulations

    New search for: Martinie, Laetitia
    New search for: Roussel, Nicolas

    Abstract Fibers are added to cementitious materials to enhance their mechanical behavior in hardened state. This reinforcement is strongly influenced by the fiber preferred orientation induced by casting flow. In this paper, a model derived from the evolution of a single rigid fiber orientation in a Newtonian medium is proposed to numerically predict fiber orientation in a cementitious structure in hardened state. The main characteristics of fiber orientation during a pouring representative of industrial castings are detailed. Experimental measurements taken on the same reference casting confirm this hardened state orientation.

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    Title:

    Fiber orientation during casting of UHPFRC: electrical resistivity measurements, image analysis and numerical simulations

    Contributors:

    Martinie, Laetitia (author) / Lataste, Jean-François (author) / Roussel, Nicolas (author)

    Published in:

    Materials and Structures ; 48

    Publication date:

    2013

    ISSN:

    1871-6873

    DOI:

    https://doi.org/10.1617/s11527-013-0205-3

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Predictions , Orientation , Cementitious materials , Simulations , Electrical resistivities , Fibers

    Classification:

    BKL:  56.45 Baustoffkunde / 51.30 Werkstoffprüfung, Werkstoffuntersuchung

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