Finite Element Modelling of Headed Stud Shear Connectors in Steel-Concrete Composite Beam

Lam, Dennis, El-Lobody, E.

January 2001

In steel-concrete composite construction, headed stud shear connectors are commonly used to transfer longitudinal shear forces across the steel-concrete interface. Present knowledge of the load-slip behavior of the shear stud in composite beam is limited to data obtained from the experimental push-off tests. A finite element model to simulate the structural behavior of headed stud shear connector in steel-concrete composite beam is described in the chapter. The model is based on finite element method and takes into account linear and nonlinear behavior of the materials. The model has been validated against test results and compared with data given in the current Code of Practices, for which both demonstrate the accuracy of the model used. Parametric studies using the model to investigate variations in concrete strength and shear stud diameter are also discussed in the chapter. The model takes into account the linear and nonlinear material properties of the concrete and shear stud. The FE results compare well with the experimental push-off test results and specified data from the codes. The FE model accurately predicts the mode of failure.

Finite Element Modelling

Headed Stud Shear Connectors

Steel-Concrete Composite Beam

Composite behaviour of headed stud shear connectors in pairs with profiled metal deck flooring

Lam, Dennis, Qureshi, J., Ye, J.

January 2010

No / This paper presents the experimental and numerical investigation into the behaviour of headed shear studs in composite beams with profiled metal deck flooring. A new single-sided horizontal push test arrangement is proposed to evaluate the shear capacity of the headed shear connectors in pairs with metal deck profiled sheeting. The characteristic resistance obtained from the horizontal push test is compared with Eurocode 4. A three-dimensional finite element model was developed using general purpose finite element program ABAQUS/Explicit. The shear connector capacity, load-slip behaviour and failure modes are validated against experimental results and close correlations were obtained.

Headed stud shear connectors

Profiled metal decking

Composite beams

Push test

Finite element modelling of headed stud shear connectors in composite steel beam with precast hollow core slabs

Lam, Dennis, El-Lobody, E.

January 2001

No

Finite Element Modelling

Headed Stud Shear Connectors

Composite Steel Beam

Precast Hollow Core Slabs

Behaviour of Headed Stud Shear Connectors in Composite Beam.

Lam, Dennis, El-Lobody, E.

January 2005

In composite beam design, headed stud shear connectors are commonly used to transfer longitudinal shear forces across the steel¿concrete interface. Present knowledge of the load¿slip behavior and the shear capacity of the shear stud in composite beam are limited to data obtained from the experimental push-off tests. For this purpose, an effective numerical model using the finite element method to simulate the push-off test was proposed. The model has been validated against test results and compared with data given in the current Code of Practices, i.e., BS5950, EC4, and AISC. Parametric studies using this model were preformed to investigate variations in concrete strength and shear stud diameter. The finite element model provided a better understanding to the different modes of failure observed during experimental testing and hence shear capacity of headed shear studs in solid concrete slabs

Headed stud shear connectors

Load¿slip behavior

Modes of failure

Solid concrete slabs

Composite beams

Pull-out resistance

Shear deformation

Finite element method

Steel structures