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    Out-of-Plane Stability Analysis of U-Section Pin-End Steel Arch

    New search for: Xi, Kuan Tang
    New search for: Li, Jin
    New search for: Zhou, Tie Gang
    New search for: Xu, Qing Xing

    Two kinds of finite element model which can reflect the effects of different loading positions were constructed with Beam 188 and Shell 181. Effects of different restraints, load models and rise-span ratios on out-of-plane buckling were studied by comparing results of fixed arches with that of pin-end arches under three loading models. It is conservative to design by employing results of radial loading. As for out-of-plane stability, pin-end arches are better than fixed arches when rise-span ratio is big. Compared with U-section pin-end circular arches with diaphragm, those with batten plates have batter out-of-plane stability, and they are more economical and easier to construct.

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    Out-of-Plane Stability Analysis of U-Section Pin-End Steel Arch

    New search for: Xi, Kuan Tang
    New search for: Li, Jin
    New search for: Zhou, Tie Gang
    New search for: Xu, Qing Xing

    Two kinds of finite element model which can reflect the effects of different loading positions were constructed with Beam 188 and Shell 181. Effects of different restraints, load models and rise-span ratios on out-of-plane buckling were studied by comparing results of fixed arches with that of pin-end arches under three loading models. It is conservative to design by employing results of radial loading. As for out-of-plane stability, pin-end arches are better than fixed arches when rise-span ratio is big. Compared with U-section pin-end circular arches with diaphragm, those with batten plates have batter out-of-plane stability, and they are more economical and easier to construct.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Out-of-Plane Stability Analysis of U-Section Pin-End Steel Arch

    New search for: Xi, Kuan Tang
    New search for: Li, Jin
    New search for: Zhou, Tie Gang
    New search for: Xu, Qing Xing

    Two kinds of finite element model which can reflect the effects of different loading positions were constructed with Beam 188 and Shell 181. Effects of different restraints, load models and rise-span ratios on out-of-plane buckling were studied by comparing results of fixed arches with that of pin-end arches under three loading models. It is conservative to design by employing results of radial loading. As for out-of-plane stability, pin-end arches are better than fixed arches when rise-span ratio is big. Compared with U-section pin-end circular arches with diaphragm, those with batten plates have batter out-of-plane stability, and they are more economical and easier to construct.

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    Title:

    Out-of-Plane Stability Analysis of U-Section Pin-End Steel Arch

    Contributors:

    Xi, Kuan Tang / Li, Jin / Zhou, Tie Gang / Xu, Qing Xing

    Published in:

    Applied Mechanics and Materials ; 351-352 ; 169-173

    Publication date:

    2013-08-08

    Size:

    5 pages

    ISSN:

    1662-7482 , 1660-9336

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMM.351-352.169

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Circular Arch , U-Section , Pin Bearing , With Batten Plate , Out-Of-Plane Instability

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