Finite Element Method Analysis Applied to Different Foundations Structures Systems

,Dr Eng Guillaume Hervé Poh’Sie*,Professor, Structural Mechanics And Engineering, University Of Padua, Italy ,Eng Gabrielle Laure Djeukoua Nathou,Eng Linda Kevine Guiameugne Guabiapsie,Eng Giuseppe Cardillo,Prof Carmelo Majorana

doi:10.35940/ijisme.c1289.087321

, Dr Eng Guillaume Hervé Poh’Sie* + Show 5 more

Open Access

https://doi.org/10.35940/ijisme.c1289.087321

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Abstract

In the conventional static analysis of building frames, the base is idealised on rigid supports and the building is subdivided into three parts namely, the superstructure, the foundation and the ground soil, before design. In real life situations, the soil underneath the building undergoes deformations which may alter the performance of the structure. In this paper, it is studied the effect of soil type and foundation type on the response of a building frame system with both fixed base and flexible base. The Winkler model of soil-structure interaction is adopted to study the influence of soil flexibility and foundation rigidity on a 4 storey RC building with a regular plan resting on three types of soils namely, the light peat marshy ground, wet clay and medium gravel with fine sand. Three types of foundations are considered in the study: isolated footings, tied foundation and the raft (with and without overhangs) foundations. Winkler model is developed using springs by Finite Element Method in SAP2000. The settlement, the bending moment, the shear force and the axial force are the parameters placed forth for the comparative study. Results obtained reveal an increase in the response of the structure with respect to the soil flexibility and foundation rigidity.

Highlights

The rapid urbanisation and increase in population have led to construction of buildings on all types of soils
Today with the advent of sophisticated computer programs which makes it possible to take into account soil deformation, structural analysis of a building with fixed supports is proven not effective, especially when construction is supposed to be on soft soil
The aim of this study is to find out the influence of soil flexibility and foundation rigidity on the structural behaviour of a RC framed structure with a regular plan

Summary

Introduction

The rapid urbanisation and increase in population have led to construction of buildings on all types of soils. In the past such constructions were considered unsuitable and so, structural analysis was limited to a simplified model where, the building was considered on fixed supports (separately from the foundation) and design. Today with the advent of sophisticated computer programs which makes it possible to take into account soil deformation, structural analysis of a building with fixed supports is proven not effective, especially when construction is supposed to be on soft soil. Revised Manuscript received on August 23, 2021.

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