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Steel and Composite Structures Volume 46, Number 4, February25 2023 , pages 451-469 DOI: https://doi.org/10.12989/scs.2023.46.4.451 |
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Modelling headed stud shear connectors of steel-concrete pushout tests with PCHCS and concrete topping |
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Lucas Mognon Santiago Prates, Felipe Piana Vendramell Ferreira, Alexandre Rossi and Carlos Humberto Martins
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Abstract | ||
The use of precast hollow-core slabs (PCHCS) in civil construction has been increasing due to the speed of execution and reduction in the weight of flooring systems. However, in the literature there are no studies that present a finite element model (FEM) to predict the load-slip relationship behavior of pushout tests, considering headed stud shear connector and PCHCS placed at the upper flange of the downstand steel profile. Thus, the present paper aims to develop a FEM, which is based on tests to fill this gap. For this task, geometrical non-linear analyses are carried out in the ABAQUS software. The FEM is calibrated by sensitivity analyses, considering different types of analysis, the friction coefficient at the steel-concrete interface, as well as the constitutive model of the headed stud shear connector. Subsequently, a parametric study is performed to assess the influence of the number of connector lines, type of filling and height of the PCHCS. The results are compared with analytical models that predict the headed stud resistance. In total, 158 finite element models are processed. It was concluded that the dynamic implicit analysis (quasi-static) showed better convergence of the equilibrium trajectory when compared to the static analysis, such as arc-length method. The friction coefficient value of 0.5 was indicated to predict the load-slip relationship behavior of all models investigated. The headed stud shear connector rupture was verified for the constitutive model capable of representing the fracture in the stress-strain relationship. Regarding the number of connector lines, there was an average increase of 108% in the resistance of the structure for models with two lines of connectors compared to the use of only one. The type of filling of the hollow core slab that presented the best results was the partial filling. Finally, the greater the height of the PCHCS, the greater the resistance of the headed stud. | ||
Key Words | ||
concrete topping; finite element model; headed stud; PCHCS; pushout | ||
Address | ||
Lucas Mognon Santiago Prates:Department of Civil Engineering, State University of Maringá, Av. Colombo n | ||