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    Finite element analysis of high strength reinforced concrete beams

    New search for: Oh CL
    New search for: Lee SW
    New search for: Mohd Raizamzamani MZ
    New search for: Azerai AR
    New search for: Norrul Azmi Y

    Development of high strength concrete as a new ecological construction material to sustain the gradually expanding construction industry has arisen. This paper presents nonlinear finite element analysis of three-dimensional high strength reinforced concrete beams using ABAQUS. The uniaxial compressive strength for the beam models were taken from the existing experimatal data on high strength concrete cubes. Eurocode 2 was also used to establish material parameters for the constitutive models for concrete and reinforcing bars. In this study, two 150mm x 200mm x 1200mm simply supported rectangular concrete beam models subjected to loads at different shear span to effective depth ratios (a/d = 1.0 and 2.0) were analysed. Numerical results were validated with the existing experimental data specifically on the load-deflection responses and von mises stresses. It was found that the finite element results show greater than 70% agreement with the experimental results.

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    Finite element analysis of high strength reinforced concrete beams

    New search for: Oh CL
    New search for: Lee SW
    New search for: Mohd Raizamzamani MZ
    New search for: Azerai AR
    New search for: Norrul Azmi Y

    Development of high strength concrete as a new ecological construction material to sustain the gradually expanding construction industry has arisen. This paper presents nonlinear finite element analysis of three-dimensional high strength reinforced concrete beams using ABAQUS. The uniaxial compressive strength for the beam models were taken from the existing experimatal data on high strength concrete cubes. Eurocode 2 was also used to establish material parameters for the constitutive models for concrete and reinforcing bars. In this study, two 150mm x 200mm x 1200mm simply supported rectangular concrete beam models subjected to loads at different shear span to effective depth ratios (a/d = 1.0 and 2.0) were analysed. Numerical results were validated with the existing experimental data specifically on the load-deflection responses and von mises stresses. It was found that the finite element results show greater than 70% agreement with the experimental results.

    Access

    Download

    Finite element analysis of high strength reinforced concrete beams

    New search for: Oh CL
    New search for: Lee SW
    New search for: Mohd Raizamzamani MZ
    New search for: Azerai AR
    New search for: Norrul Azmi Y

    Development of high strength concrete as a new ecological construction material to sustain the gradually expanding construction industry has arisen. This paper presents nonlinear finite element analysis of three-dimensional high strength reinforced concrete beams using ABAQUS. The uniaxial compressive strength for the beam models were taken from the existing experimatal data on high strength concrete cubes. Eurocode 2 was also used to establish material parameters for the constitutive models for concrete and reinforcing bars. In this study, two 150mm x 200mm x 1200mm simply supported rectangular concrete beam models subjected to loads at different shear span to effective depth ratios (a/d = 1.0 and 2.0) were analysed. Numerical results were validated with the existing experimental data specifically on the load-deflection responses and von mises stresses. It was found that the finite element results show greater than 70% agreement with the experimental results.

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    Title:

    Finite element analysis of high strength reinforced concrete beams

    Contributors:

    Oh CL (author) / Lee SW (author) / Mohd Raizamzamani MZ (author) / Azerai AR (author) / Norrul Azmi Y (author)

    Published in:

    MATEC Web of Conferences, Vol 250, p 03007 (2018)

    Publication date:

    2018

    ISSN:

    2261-236X

    DOI:

    https://doi.org/10.1051/matecconf/201825003007

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Engineering (General). Civil engineering (General) , TA1-2040

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

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