Nonlinear 3D Finite Element Analysis of a Coupled Soil–Structure System by a Deterministic Approach

Geosciences Pub Date : 2024-04-05 DOI:10.3390/geosciences14040100

Francesco Castelli, S. Grasso, V. Lentini, M. Sammito

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Abstract

Fully coupled soil–structure analyses were performed for a building of strategic importance located in the city of Messina (Sicily, Italy). The structure was built after the destructive 1908 earthquake, also known as the ‘Messina and Reggio Calabria earthquake’, which caused severe ground shaking. A parametric study considering three seismograms of this earthquake was performed. Deep in situ and laboratory investigations allowed the definition of the geometric and geotechnical model of the subsoil. Numerical analyses were performed with PLAXIS3D finite element software (Version 21.01.00.479). The Hardening Soil model with small-strain stiffness was accurately calibrated using laboratory and field data. The dynamic response was investigated in terms of accelerations, response spectra, amplification functions, displacements and stress–strain hysteretic loops. The findings show that many aspects must be investigated for the retrofitting of buildings with shallow foundation in areas characterized by a medium to high level of seismic risk: (i) a key role is played by an accurate investigation of the soil; taking into account the specific conditions of the soil, it was possible to investigate its filtering effects; (ii) the dynamic response of the fully-coupled soil–structure system deviates from the free field-site response analysis; (iii) the results reveal the importance of considering the soil nonlinearity in seismic soil–structure interaction problems.

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用确定性方法对耦合土-结构系统进行非线性三维有限元分析

对位于墨西拿市（意大利西西里岛）的一座具有重要战略意义的建筑进行了土壤-结构全耦合分析。该建筑建于 1908 年破坏性地震（又称 "墨西拿和雷焦卡拉布里亚地震"）之后，地震造成了严重的地面震动。对这次地震的三幅地震图进行了参数研究。通过深入现场和实验室调查，确定了底土的几何和岩土模型。使用 PLAXIS3D 有限元软件（版本 21.01.00.479）进行了数值分析。利用实验室和现场数据对具有小应变刚度的硬化土模型进行了精确校准。从加速度、响应谱、放大函数、位移和应力-应变滞环等方面对动态响应进行了研究。研究结果表明，在中高地震风险地区对浅基础建筑物进行改造时，必须对许多方面进行研究：(i) 对土壤的精确研究起着关键作用；考虑到土壤的具体条件，可以研究其过滤效应；(ii) 全耦合土壤-结构系统的动态响应偏离自由现场响应分析；(iii) 研究结果揭示了在地震土壤-结构相互作用问题中考虑土壤非线性的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Geosciences

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