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    Seismic Performance of Steel tube-reinforced Steel Fiber high-strength Concrete Columns with ultra-high Strength Steel Bars

    New search for: Zhang, Jianwei
    New search for: Liu, Xiao
    New search for: Kan, Wenliang
    New search for: Zhang, Man
    New search for: Liu, Juan

    Quasi-static tests of five full-scale steel tube-reinforced high-strength concrete (STRHSC) column with ultra-high strength steel bars (UHSS) were conducted. Due to the large elastic range of UHSS, the column can obtain obvious drift-hardening behavior to reduce residual deformation. The research results reveal that steel fiber-reinforced STRHSC columns with UHSS had superior damage control capability and reparability. According the damage evolution theoretical analysis and measured result, a prediction model of skeleton curve, residual deformation, cumulative energy dissipation and hysteretic curve of STRHSC columns with UHSS was proposed. The model was then verified by comparing prediction results with test results.

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    Seismic Performance of Steel tube-reinforced Steel Fiber high-strength Concrete Columns with ultra-high Strength Steel Bars

    New search for: Zhang, Jianwei
    New search for: Liu, Xiao
    New search for: Kan, Wenliang
    New search for: Zhang, Man
    New search for: Liu, Juan

    Quasi-static tests of five full-scale steel tube-reinforced high-strength concrete (STRHSC) column with ultra-high strength steel bars (UHSS) were conducted. Due to the large elastic range of UHSS, the column can obtain obvious drift-hardening behavior to reduce residual deformation. The research results reveal that steel fiber-reinforced STRHSC columns with UHSS had superior damage control capability and reparability. According the damage evolution theoretical analysis and measured result, a prediction model of skeleton curve, residual deformation, cumulative energy dissipation and hysteretic curve of STRHSC columns with UHSS was proposed. The model was then verified by comparing prediction results with test results.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Seismic Performance of Steel tube-reinforced Steel Fiber high-strength Concrete Columns with ultra-high Strength Steel Bars

    New search for: Zhang, Jianwei
    New search for: Liu, Xiao
    New search for: Kan, Wenliang
    New search for: Zhang, Man
    New search for: Liu, Juan

    Quasi-static tests of five full-scale steel tube-reinforced high-strength concrete (STRHSC) column with ultra-high strength steel bars (UHSS) were conducted. Due to the large elastic range of UHSS, the column can obtain obvious drift-hardening behavior to reduce residual deformation. The research results reveal that steel fiber-reinforced STRHSC columns with UHSS had superior damage control capability and reparability. According the damage evolution theoretical analysis and measured result, a prediction model of skeleton curve, residual deformation, cumulative energy dissipation and hysteretic curve of STRHSC columns with UHSS was proposed. The model was then verified by comparing prediction results with test results.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

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    Title:

    Seismic Performance of Steel tube-reinforced Steel Fiber high-strength Concrete Columns with ultra-high Strength Steel Bars

    Contributors:

    Zhang, Jianwei (author) / Liu, Xiao (author) / Kan, Wenliang (author) / Zhang, Man (author) / Liu, Juan (author)

    Published in:

    Journal of Earthquake Engineering ; 27 ; 2088-2118

    Publication date:

    2023-06-11

    Size:

    31 pages

    ISSN:

    1363-2469 , 1559-808X

    DOI:

    https://doi.org/10.1080/13632469.2022.2104961

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Ultra-high strength steel bars , high-strength concrete , steel fiber , steel tube-reinforced concrete column , seismic performance

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