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    Experimental Investigation on Plastic Aggregate and Silica Fume In Concrete

    New search for: Kumar S. Pream
    New search for: Sankar K. Vijay
    New search for: Nandhini U.
    New search for: Priyanka M.
    New search for: Rahul J. Rabiun
    New search for: Mohanraj S.

    Plastic consumption is increasing on a daily basis, despite efforts to minimize it. On the other hand, the management of waste plastic was a significant issue in several countries around the world. A healthy and sustainable reuse of plastics has numerous benefits. The acceptability and benefits of recycled plastics as Coarse aggregate in concrete are explored here. Plastic aggregate parameters such as density and specific gravity were determined through tests. Because complete replacement of natural Coarse aggregate with plastic Coarse aggregate is impractical, partial replacement at various percentages was investigated. In addition to that silica fume is added as a binding material at a constant of 10%. The substitution of 15 Percent Plastic aggregate resulted in high compressive, splitting tensile, and flexural strength.

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    Experimental Investigation on Plastic Aggregate and Silica Fume In Concrete

    New search for: Kumar S. Pream
    New search for: Sankar K. Vijay
    New search for: Nandhini U.
    New search for: Priyanka M.
    New search for: Rahul J. Rabiun
    New search for: Mohanraj S.

    Plastic consumption is increasing on a daily basis, despite efforts to minimize it. On the other hand, the management of waste plastic was a significant issue in several countries around the world. A healthy and sustainable reuse of plastics has numerous benefits. The acceptability and benefits of recycled plastics as Coarse aggregate in concrete are explored here. Plastic aggregate parameters such as density and specific gravity were determined through tests. Because complete replacement of natural Coarse aggregate with plastic Coarse aggregate is impractical, partial replacement at various percentages was investigated. In addition to that silica fume is added as a binding material at a constant of 10%. The substitution of 15 Percent Plastic aggregate resulted in high compressive, splitting tensile, and flexural strength.

    Access

    Download

    Experimental Investigation on Plastic Aggregate and Silica Fume In Concrete

    New search for: Kumar S. Pream
    New search for: Sankar K. Vijay
    New search for: Nandhini U.
    New search for: Priyanka M.
    New search for: Rahul J. Rabiun
    New search for: Mohanraj S.

    Plastic consumption is increasing on a daily basis, despite efforts to minimize it. On the other hand, the management of waste plastic was a significant issue in several countries around the world. A healthy and sustainable reuse of plastics has numerous benefits. The acceptability and benefits of recycled plastics as Coarse aggregate in concrete are explored here. Plastic aggregate parameters such as density and specific gravity were determined through tests. Because complete replacement of natural Coarse aggregate with plastic Coarse aggregate is impractical, partial replacement at various percentages was investigated. In addition to that silica fume is added as a binding material at a constant of 10%. The substitution of 15 Percent Plastic aggregate resulted in high compressive, splitting tensile, and flexural strength.

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    Download

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    Title:

    Experimental Investigation on Plastic Aggregate and Silica Fume In Concrete

    Contributors:

    Kumar S. Pream (author) / Sankar K. Vijay (author) / Nandhini U. (author) / Priyanka M. (author) / Rahul J. Rabiun (author) / Mohanraj S. (author)

    Published in:

    E3S Web of Conferences, Vol 529, p 01013 (2024)

    Publication date:

    2024

    ISSN:

    2267-1242

    DOI:

    https://doi.org/10.1051/e3sconf/202452901013

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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