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    Investigation on Micromechanical Behavior of High-Performance Fiber Concrete

    New search for: Satyanarayanan, K. S.
    New search for: Seo, Hyung-Joon
    New search for: Gopalakrishnan, N.
    New search for: Arivusudar, N.
    New search for: Sureshbabu, S.

    Concrete is generally recognized to be a soft material when exposed to ordinary stresses and impact loads. Its tensile strength is only one-tenth of its compressive strength under such conditions. Hence, the development of microcracks in the structure needs to be controlled. The addition of fiber is the solution to prevent microcracks in concrete construction and improve concrete flexural and tensile properties. It also studies their behavior along with the fly ash, silica fume, and GGBS, the replacement materials with the cement to exhibit the high strength and Polyvinyl Alcohol (PVA), Polypropylene (PP). The mix developed with 30% of GGBS and 1.0% of volume fraction of PP fiber, and 1.0% volume fraction of Glass fiber exhibits better ductility than the other mixes. The ECC-layered beam performs equal to the fiber-reinforced HPC in all aspects.

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    Investigation on Micromechanical Behavior of High-Performance Fiber Concrete

    New search for: Satyanarayanan, K. S.
    New search for: Seo, Hyung-Joon
    New search for: Gopalakrishnan, N.
    New search for: Arivusudar, N.
    New search for: Sureshbabu, S.

    Concrete is generally recognized to be a soft material when exposed to ordinary stresses and impact loads. Its tensile strength is only one-tenth of its compressive strength under such conditions. Hence, the development of microcracks in the structure needs to be controlled. The addition of fiber is the solution to prevent microcracks in concrete construction and improve concrete flexural and tensile properties. It also studies their behavior along with the fly ash, silica fume, and GGBS, the replacement materials with the cement to exhibit the high strength and Polyvinyl Alcohol (PVA), Polypropylene (PP). The mix developed with 30% of GGBS and 1.0% of volume fraction of PP fiber, and 1.0% volume fraction of Glass fiber exhibits better ductility than the other mixes. The ECC-layered beam performs equal to the fiber-reinforced HPC in all aspects.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Investigation on Micromechanical Behavior of High-Performance Fiber Concrete

    New search for: Satyanarayanan, K. S.
    New search for: Seo, Hyung-Joon
    New search for: Gopalakrishnan, N.
    New search for: Arivusudar, N.
    New search for: Sureshbabu, S.

    Concrete is generally recognized to be a soft material when exposed to ordinary stresses and impact loads. Its tensile strength is only one-tenth of its compressive strength under such conditions. Hence, the development of microcracks in the structure needs to be controlled. The addition of fiber is the solution to prevent microcracks in concrete construction and improve concrete flexural and tensile properties. It also studies their behavior along with the fly ash, silica fume, and GGBS, the replacement materials with the cement to exhibit the high strength and Polyvinyl Alcohol (PVA), Polypropylene (PP). The mix developed with 30% of GGBS and 1.0% of volume fraction of PP fiber, and 1.0% volume fraction of Glass fiber exhibits better ductility than the other mixes. The ECC-layered beam performs equal to the fiber-reinforced HPC in all aspects.

    Access

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    Check availability in my library
    Order at Subito €

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    Title:

    Investigation on Micromechanical Behavior of High-Performance Fiber Concrete

    Additional title:

    Lecture Notes in Civil Engineering

    Contributors:

    Satyanarayanan, K. S. (editor) / Seo, Hyung-Joon (editor) / Gopalakrishnan, N. (editor) / Arivusudar, N. (author) / Sureshbabu, S. (author)

    Published in:

    Sustainable Construction Materials ; Chapter: 15 ; 177-191

    Lecture Notes in Civil Engineering ; 194

    Publication date:

    2021-12-15

    Size:

    15 pages

    ISBN:

    978-981-16-6403-8 , 978-981-16-6402-1

    ISSN:

    2366-2565 , 2366-2557

    DOI:

    https://doi.org/10.1007/978-981-16-6403-8_15

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Igh-Performance Concrete , Microstructure , Compressive Strength , Admixtures Engineering , Building Construction and Design , Building Materials , Construction Management

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