Determinación de la capacidad a fuerzas cortantes de perfiles angulares para sistemas compuestos de acero y hormigón utilizando el método de elementos finitos.

Abstract

The present theoretical and experimental research investigates the behavior and resistance of angle shear connectors embedded in concrete, using the finite element method in the computational software “ABAQUS”, comparing the experimental results with the computational results of the research projects carried out by: Franco & Martínez (2020), Castañeda & Vera (2021) and Chicaiza & Ayala (2021). Who tested the angle shear connectors with the same dimensions, but with a different position on the flange of the beam. Also, this research shows the influence of different variables that change the capacity of the angle shear connector in the computational model, taking into account the non-linearities and the boundary conditions present in the model. When comparing the load capacity curves of these research projects, the best position of the angle shear connector was chosen, considering the behavior in the two seismic analysis planes (X, Y). With this position, multiple computational models were made, in which the compressive strength of the concrete [f'c], the thickness, length and height of the angle were varied. Finally, an approximate equation is proposed that allows the calculation of the shear capacity of the angular profile, based on its dimensions and the compressive strength of the concrete.