Faculty of Civil Engineering, University of Belgrade , Belgrade , Serbia
Faculty of Civil Engineering, University of Belgrade , Belgrade , Serbia
Institute for Applied Mechanics, Graz University of Technology , Graz , Austria
This paper considers the dynamic analysis of a spatially curved Bernoulli-Euler beam subjected to a moving load. The isogeometric approach is used for the spatial discretization of the weak form of the equation of motion. Both the reference geometry and the solution space are represented using the same NURBS basis functions that guarantee an accurate description of the beam centerline. The time integration is done by the explicit technique. The presented formulation is validated by the comparison with the existing results from the literature for the curved beam subjected to a constant load moving with a constant velocity. In addition, the influence of the moving load velocity on the dynamic response of a spatially curved beam has been investigated.
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