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    Numerical approach of the steel-concrete bond behavior using pull-out models

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    This paper deals with the analysis of monotonic loading behavior in pull-out tests. The main objective is toobtain a reliable numerical model to represent the steel-concrete bond behavior using previously obtainedexperimental results. The tests were performed in RILEM pull-out specimen using 10 mm steel bar andconcrete with compressive strength of 30 MPa. The numerical study used Ansys¼ software, based on FEM(Finite Elements Method). The numerical simulation adopted non-linear constitutive relationships to representthe behavior of both concrete and steel. A contact surface composed of special finite elements modeled theinterface between the concrete and the steel bar, allowing a steel–concrete slip. The numerical analysisperformed with variation of the main parameters of the software permitted determining the best ones, andchoosing them to obtain a good representation of the bond phenomena. The numerical results had a goodagreement with the experimental results. Both linear and non-linear approaches represented the pre-peakbehavior, however only the non-linear model gave the best approach for the pull-out force. In addition, thenumerical results had shown the simplified model can be used to represent the steel-concrete bond behaviorreducing the processing time for current structures analysis.Keywords: bond strength, pull-out tests, numerical approach, contact surface, finite element method
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