Application of T-bar in numerical simulations of a monopile subjected to lateral cyclic load |
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| Authors: | Jian Yu Chun Fai Leung Ser Chai Jeremy Goh |
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| Affiliation: | 1. Department of Geotechnical Engineering, Tongji University, Shanghai, China;2. Centre for Offshore Research and Engineering, Department of Civil and Environmental Engineering, National University of Singapore, Singapore, Singapore;3. Centre for Offshore Research and Engineering, Department of Civil and Environmental Engineering, National University of Singapore, Singapore, Singapore |
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| Abstract: | A series of centrifuge tests were performed to investigate the response of a free-head monopile due to cyclic lateral loading in normally consolidated clay. By linking the maximum reaction-force point of the final cycles in all tests with various amplitudes, a postcyclic reaction-force curve is obtained, which can be used to assess the postcyclic remolded lateral stiffness. To numerically analyze the tests, a strength degradation model of the clay is calibrated by the T-bar cyclic test. However, this model is T-bar-dependent, which is unable to capture the degrading behavior of the monopile stiffness. Thus, a modification approach is proposed based on the upper bound theory, and the modified model is further combined with finite element analysis to simulate the cyclic behavior of the model pile. The simulation results show similar degrading trend and consistent postcyclic remolded lateral stiffness with the model tests. This further demonstrates that the remolded lateral stiffness mainly depends on the soil remolded strength, which is one of the parameters calibrated by the T-bar tests. Based on this finding, a simplified numerical analysis is proposed, which can predict the postcyclic reaction-force curve by performing one monotonic loading instead of modeling the whole process of cyclic loading. |
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| Keywords: | Centrifuge test cyclic loading finite element method laterally loaded pile T-BAR cyclic test |
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