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    Evaluation of Strength and Ductility of Thin-Walled Stiffened Box Sectional Steel Bridge Piers Using Fiber Model

    New search for: Zhang, Jian-Dong
    New search for: Ge, Han-Bin
    New search for: Wang, Chun-Lin

    A simplified seismic evaluation method for steel members with thin-walled stiffened box sections is developed. First, a finite element model based on the shell element was carried out and its effectiveness was validated by comparison with the experiment. Twelve numerical cases were then simulated by the shell model and the fiber model, respectively, and their accuracies were discussed. Numerical results showed that the proposed method using the fiber model, employing the bilinear kinematic hardening relation, is of good accuracy. If the maximum strength is taken as the ultimate point, the bilinear stress-strain relation, replacing the yield point by the buckling stress, was recommended. If a point corresponding to 95% of the maximum strength after the peak is regarded as the ultimate point, the elastic-perfectly plastic stress-strain relation was suggested.

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    Evaluation of Strength and Ductility of Thin-Walled Stiffened Box Sectional Steel Bridge Piers Using Fiber Model

    New search for: Zhang, Jian-Dong
    New search for: Ge, Han-Bin
    New search for: Wang, Chun-Lin

    A simplified seismic evaluation method for steel members with thin-walled stiffened box sections is developed. First, a finite element model based on the shell element was carried out and its effectiveness was validated by comparison with the experiment. Twelve numerical cases were then simulated by the shell model and the fiber model, respectively, and their accuracies were discussed. Numerical results showed that the proposed method using the fiber model, employing the bilinear kinematic hardening relation, is of good accuracy. If the maximum strength is taken as the ultimate point, the bilinear stress-strain relation, replacing the yield point by the buckling stress, was recommended. If a point corresponding to 95% of the maximum strength after the peak is regarded as the ultimate point, the elastic-perfectly plastic stress-strain relation was suggested.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Evaluation of Strength and Ductility of Thin-Walled Stiffened Box Sectional Steel Bridge Piers Using Fiber Model

    New search for: Zhang, Jian-Dong
    New search for: Ge, Han-Bin
    New search for: Wang, Chun-Lin

    A simplified seismic evaluation method for steel members with thin-walled stiffened box sections is developed. First, a finite element model based on the shell element was carried out and its effectiveness was validated by comparison with the experiment. Twelve numerical cases were then simulated by the shell model and the fiber model, respectively, and their accuracies were discussed. Numerical results showed that the proposed method using the fiber model, employing the bilinear kinematic hardening relation, is of good accuracy. If the maximum strength is taken as the ultimate point, the bilinear stress-strain relation, replacing the yield point by the buckling stress, was recommended. If a point corresponding to 95% of the maximum strength after the peak is regarded as the ultimate point, the elastic-perfectly plastic stress-strain relation was suggested.

    Access

    Access via TIB
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    Title:

    Evaluation of Strength and Ductility of Thin-Walled Stiffened Box Sectional Steel Bridge Piers Using Fiber Model

    Contributors:

    Zhang, Jian-Dong (author) / Ge, Han-Bin (author) / Wang, Chun-Lin (author)

    Published in:

    Vibration, Structural Engineering and Measurement II, ICVSEM, International Conference on Vibration, Structural Engineering and Measurement, 2012 ; 1561-1566

    Applied Mechanics and Materials ; 226-228

    Publication date:

    2012

    Size:

    6 Seiten

    ISSN:

    1660-9336

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMM.226-228.1561

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    Stahlbrücke , Kaianlage , Methode der finiten Elemente , Schalenmodell , Streckgrenze , Knickspannung , Kunststoff , Duktilität

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