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Large-scale two-dimensional nonlinear FE analysis vs. one-dimensional quivalent linearization analysis on seismic effect of Fuzhou Basin

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ã€Authorã€‘ Jin Dandan Chen Guoxing(Institute of Geotechnical Engineering,Nanjing University of Technology,Nanjing 210009,China)

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ã€Abstractã€‘ Based on the explicit FE method and 32 CPU parallel computing cluster platform of ABAQUS,considering the inhomogeneity of ground soils and concave-convex fluctuation of topography and bedrock surface,large-scale refined two-dimensional(2D) FE nonlinear analytical models for Fuzhou Basin were established in the time domain.Meanwhile,one-dimensional(1D) analysis models by equivalent linearization method were established for the sake of contrast.The results indicate that the 2D nonlinear analytical models show a more obvious seismic amplification effect,also there are focusing effect caused by the fluctuant bedrock surface and topography in the 2D models.the PGA display a non-monotonic decreasing characteristics with depth and a greater focusing effect of some particular soil layers by the 2D model,while the 1D results turn out that the PGA decreases monotonously with depth,In some degree,the large-scale 2D nonlinear analysis could truly reflect the notable PGA amplification effect in particular period;also it has a better simulating ability of low frequency amplification.In general,it will bring obvious errors by the 1D model when the soil layer distribution is inhomogeneous and the terrain or bedrock surface is obviously fluctuant.æ›´å¤š è¿˜åŽŸ