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    Performance of self‐compacting rubberized concrete against carbonation and chloride penetration

    New search for: Mallek, Jihen
    New search for: Daoud, Atef
    New search for: Loulizi, Amara

    This study assessed the performance of self‐compacting rubberized concrete against carbonation and chloride penetration. In addition to fresh‐state and compressive strength tests, durability of the studied mixes was evaluated by measuring carbonation and chloride penetration depths, total porosity, and pores'size distribution. It was found that an increase in rubber content leads to a decrease in compressive strength. However, stadequate strength for structural applications was achieved up to an incorporation of 15% rubber by volume. As for durability, the presence of rubber was found to enhance performance against carbonation, but to worsen the resistance to chloride ion penetration.

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    Performance of self‐compacting rubberized concrete against carbonation and chloride penetration

    New search for: Mallek, Jihen
    New search for: Daoud, Atef
    New search for: Loulizi, Amara

    This study assessed the performance of self‐compacting rubberized concrete against carbonation and chloride penetration. In addition to fresh‐state and compressive strength tests, durability of the studied mixes was evaluated by measuring carbonation and chloride penetration depths, total porosity, and pores'size distribution. It was found that an increase in rubber content leads to a decrease in compressive strength. However, stadequate strength for structural applications was achieved up to an incorporation of 15% rubber by volume. As for durability, the presence of rubber was found to enhance performance against carbonation, but to worsen the resistance to chloride ion penetration.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Performance of self‐compacting rubberized concrete against carbonation and chloride penetration

    New search for: Mallek, Jihen
    New search for: Daoud, Atef
    New search for: Loulizi, Amara

    This study assessed the performance of self‐compacting rubberized concrete against carbonation and chloride penetration. In addition to fresh‐state and compressive strength tests, durability of the studied mixes was evaluated by measuring carbonation and chloride penetration depths, total porosity, and pores'size distribution. It was found that an increase in rubber content leads to a decrease in compressive strength. However, stadequate strength for structural applications was achieved up to an incorporation of 15% rubber by volume. As for durability, the presence of rubber was found to enhance performance against carbonation, but to worsen the resistance to chloride ion penetration.

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    Title:

    Performance of self‐compacting rubberized concrete against carbonation and chloride penetration

    Contributors:

    Mallek, Jihen (author) / Daoud, Atef (author) / Omikrine‐Metalssi, Othman (author) / Loulizi, Amara (author)

    Published in:

    Structural Concrete ; 22 ; 2720-2735

    Publication date:

    2021-10-01

    Size:

    16 pages

    ISSN:

    1464-4177 , 1751-7648

    DOI:

    https://doi.org/10.1002/suco.202000687

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    durability , rubber , self‐compacting concrete , chloride ion penetration , carbonation

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