Simulation of Shake Table Tests on Out-of-Plane Masonry Buildings. Part (V): Discrete Element Approach |
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| Authors: | J.V. Lemos Alfredo Campos Costa |
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| Affiliation: | 1. Dams Department, LNEC - Laboratório Nacional de Engenharia Civil, Lisboa, Portugalvlemos@lnec.pt;3. Structures Department, LNEC - Laboratório Nacional de Engenharia Civil, Lisboa, Portugal |
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| Abstract: | ABSTRACTThe analysis of the shaking table test of a 3-wall stone masonry structure performed with a discrete element model is presented. The numerical model, created with the code 3DEC, employed a rigid block representation and a Mohr-Coulomb joint model. Joint stiffness calibration to match the experimental natural frequencies is discussed, as well as the boundary conditions to simulate the shake table. Comparisons are made with the measured displacements at key locations, and the modes of deformation and fracture of the walls. The DEM model was able to reproduce important features of the shaking table tests. The experimental deformation and near collapse patterns were clearly identifiable in the numerical simulations, which produced displacements within the observed orders of magnitude, for the various levels of excitation. |
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| Keywords: | Discrete elements dynamic response numerical modelling shake table test Stone masonry |
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