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    Analysis of dynamic size effect of recycled concrete using base force element method

    New search for: Peng, Yijiang
    New search for: Zakaria, Semaoui
    New search for: Ying, Liping
    New search for: Cao, Wei
    New search for: Yang, Hongming
    New search for: Sun, Yucheng

    A 2D meso models of recycled concrete with different sizes is established using the base force element method. The specimens are loaded with different strain rates. The meso damage of recycled concrete is analyzed. In addition, the structural performance of specimens under the joint actions with strain rate and size are also studied. The simulation results find that the compressive strength has little difference when the values of strain rates are lower than 0.1 s−1. The greater the strain rates, the greater the difference of compressive strength between different sizes when strain rates are larger than 0.1 s−1. In addition, the Bažant statistical theory can be used to analysis the mechanical properties of recycled concrete. Besides, a modified formula in calculating the dynamic size effect of recycled concrete is also given based on the Bažant statistical size effect theory.

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    Analysis of dynamic size effect of recycled concrete using base force element method

    New search for: Peng, Yijiang
    New search for: Zakaria, Semaoui
    New search for: Ying, Liping
    New search for: Cao, Wei
    New search for: Yang, Hongming
    New search for: Sun, Yucheng

    A 2D meso models of recycled concrete with different sizes is established using the base force element method. The specimens are loaded with different strain rates. The meso damage of recycled concrete is analyzed. In addition, the structural performance of specimens under the joint actions with strain rate and size are also studied. The simulation results find that the compressive strength has little difference when the values of strain rates are lower than 0.1 s−1. The greater the strain rates, the greater the difference of compressive strength between different sizes when strain rates are larger than 0.1 s−1. In addition, the Bažant statistical theory can be used to analysis the mechanical properties of recycled concrete. Besides, a modified formula in calculating the dynamic size effect of recycled concrete is also given based on the Bažant statistical size effect theory.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Analysis of dynamic size effect of recycled concrete using base force element method

    New search for: Peng, Yijiang
    New search for: Zakaria, Semaoui
    New search for: Ying, Liping
    New search for: Cao, Wei
    New search for: Yang, Hongming
    New search for: Sun, Yucheng

    A 2D meso models of recycled concrete with different sizes is established using the base force element method. The specimens are loaded with different strain rates. The meso damage of recycled concrete is analyzed. In addition, the structural performance of specimens under the joint actions with strain rate and size are also studied. The simulation results find that the compressive strength has little difference when the values of strain rates are lower than 0.1 s−1. The greater the strain rates, the greater the difference of compressive strength between different sizes when strain rates are larger than 0.1 s−1. In addition, the Bažant statistical theory can be used to analysis the mechanical properties of recycled concrete. Besides, a modified formula in calculating the dynamic size effect of recycled concrete is also given based on the Bažant statistical size effect theory.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

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    Title:

    Analysis of dynamic size effect of recycled concrete using base force element method

    Contributors:

    Peng, Yijiang (author) / Zakaria, Semaoui (author) / Ying, Liping (author) / Cao, Wei (author) / Yang, Hongming (author) / Sun, Yucheng (author)

    Published in:

    Structural Concrete ; 23 ; 4010-4022

    Publication date:

    2022-12-01

    Size:

    13 pages

    ISSN:

    1464-4177 , 1751-7648

    DOI:

    https://doi.org/10.1002/suco.202100850

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    base force element method , compressive strength , recycled concrete , size effect , strain rate

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