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    Revisiting the Ambient and Postfire Strength of Channel-Type Shear Connectors

    Source: Journal of Structural Engineering:;2025:;Volume ( 151 ):;issue: 002::page 04024214-1
    Author:
    Erfan Maliji
    ,
    Hossein Yousefpour
    DOI: 10.1061/JSENDH.STENG-14090
    Publisher: American Society of Civil Engineers
    Abstract: The ability of steel-concrete composite floor systems to withstand loads relies on shear connectors, which prevent or limit slip between the two materials. This paper presents an experimentally validated numerical investigation along with parametric studies aimed at evaluating the behavior of channel-type shear connectors in ambient and postfire conditions. A three-dimensional finite-element model of a push-out test was developed, which incorporated the nonlinear material properties of steel and concrete in ambient conditions as well as their thermomechanical properties to simulate heating and cooling and the effects of fire exposure. The model was validated using experimental data obtained by the authors and those from previous studies. Subsequently, a parametric study assessed the load-slip behavior of the channel-type connectors assuming different compressive strengths of concrete, slab thicknesses, connector dimensions, and maximum temperatures experienced. The failure mode in ambient and postfire conditions was observed to be affected by the length, web thickness, and height of the channel, but not by its flange thickness. The numerical results, combined with an analytical investigation of failure mechanisms, were then used to develop an improved design equation for channel-type shear connectors, which performs noticeably better than current design provisions in comparison with experimental data.
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      Revisiting the Ambient and Postfire Strength of Channel-Type Shear Connectors

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    contributor authorErfan Maliji
    contributor authorHossein Yousefpour
    date accessioned2025-08-17T22:19:25Z
    date available2025-08-17T22:19:25Z
    date copyright2/1/2025 12:00:00 AM
    date issued2025
    identifier otherJSENDH.STENG-14090.pdf
    identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4306765
    description abstractThe ability of steel-concrete composite floor systems to withstand loads relies on shear connectors, which prevent or limit slip between the two materials. This paper presents an experimentally validated numerical investigation along with parametric studies aimed at evaluating the behavior of channel-type shear connectors in ambient and postfire conditions. A three-dimensional finite-element model of a push-out test was developed, which incorporated the nonlinear material properties of steel and concrete in ambient conditions as well as their thermomechanical properties to simulate heating and cooling and the effects of fire exposure. The model was validated using experimental data obtained by the authors and those from previous studies. Subsequently, a parametric study assessed the load-slip behavior of the channel-type connectors assuming different compressive strengths of concrete, slab thicknesses, connector dimensions, and maximum temperatures experienced. The failure mode in ambient and postfire conditions was observed to be affected by the length, web thickness, and height of the channel, but not by its flange thickness. The numerical results, combined with an analytical investigation of failure mechanisms, were then used to develop an improved design equation for channel-type shear connectors, which performs noticeably better than current design provisions in comparison with experimental data.
    publisherAmerican Society of Civil Engineers
    titleRevisiting the Ambient and Postfire Strength of Channel-Type Shear Connectors
    typeJournal Article
    journal volume151
    journal issue2
    journal titleJournal of Structural Engineering
    identifier doi10.1061/JSENDH.STENG-14090
    journal fristpage04024214-1
    journal lastpage04024214-19
    page19
    treeJournal of Structural Engineering:;2025:;Volume ( 151 ):;issue: 002
    contenttypeFulltext
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