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Author: Esteban Saez Robert Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The dynamic interaction of the soil with a superstructure (DSSI) has been the subject of numerous investigations assuming elasticity of both, superstructure and soil foundation behavior. Nevertheless, the effect of DSSI may differ between elastic and inelastic systems. Thus, the current interaction methodologies based on elastic response studies could not be directly applicable to structures expected to behave inelastically during severe earthquakes. Additionally, the soil is known to exhibit inelastic behavior even for relatively weak to moderate ground motions. Consequently, ignoring these characteristics in studying DSSI could lead to erroneous predictions of structural damage. The main purpose of this work is to develop a general strategy to address the full DSSI problem in the context of the seismic vulnerability analysis of structures. Thus, realistic Finite Elements models are constructed and applied in a practical way to deal with these issues. These models cover a large range of soil conditions and structural typologies under several earthquake databases. Some modelling strategies are introduced and validated in order to reduce the computational cost. Therefore, an equivalent 2D model is developed, implemented in GEFDyn and used in the large parametric study conducted. Several indicators for both structural and soil responses are developed in order to synthesize their behavior under seismic loading. Additionally, a vulnerability assessment strategy is presented in terms of measures of information provided by a ground motion selection. According to the investigation conducted in this work, there is in general a reduction of seismic demand or structural damage when non-linear DSSI phenomenon is included. This reduction can be associated fundamentally to two phenomena: radiative damping and hysteretic damping due to non-linear soil behavior. Both effects take place simultaneously during the dynamic load and it is extremely difficult to separate the contribution of each part in reducing seismic demand. Indeed, effective motion transmitted to the superstructure does not correspond to the free field motion because of the geometrical and inertial interactions as well as the local modification of soil behavior, specially due to the supplementary confinement imposed by the superstructure's weight. A series of strong-motion severity measures, structural damage measures and energy dissipation indicators have been introduced and studied for this purpose. Nevertheless, results are erratic and consequently, generalization was extremely difficult. Despite these difficulties, the results illustrate the importance of accounting for the inelastic soil behavior. The major part of the studied cases show beneficial effects such as the decrease of the maximum seismic structural demand. However, the non-linear DSSI could increase or decrease the expected structural damage depending on the type of the structure, the input motion, and the dynamic soil properties. Furthermore, there is an economic justification to take into account the modification effects due to inelastic soil behavior.
Author: Esteban Saez Robert Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
The dynamic interaction of the soil with a superstructure (DSSI) has been the subject of numerous investigations assuming elasticity of both, superstructure and soil foundation behavior. Nevertheless, the effect of DSSI may differ between elastic and inelastic systems. Thus, the current interaction methodologies based on elastic response studies could not be directly applicable to structures expected to behave inelastically during severe earthquakes. Additionally, the soil is known to exhibit inelastic behavior even for relatively weak to moderate ground motions. Consequently, ignoring these characteristics in studying DSSI could lead to erroneous predictions of structural damage. The main purpose of this work is to develop a general strategy to address the full DSSI problem in the context of the seismic vulnerability analysis of structures. Thus, realistic Finite Elements models are constructed and applied in a practical way to deal with these issues. These models cover a large range of soil conditions and structural typologies under several earthquake databases. Some modelling strategies are introduced and validated in order to reduce the computational cost. Therefore, an equivalent 2D model is developed, implemented in GEFDyn and used in the large parametric study conducted. Several indicators for both structural and soil responses are developed in order to synthesize their behavior under seismic loading. Additionally, a vulnerability assessment strategy is presented in terms of measures of information provided by a ground motion selection. According to the investigation conducted in this work, there is in general a reduction of seismic demand or structural damage when non-linear DSSI phenomenon is included. This reduction can be associated fundamentally to two phenomena: radiative damping and hysteretic damping due to non-linear soil behavior. Both effects take place simultaneously during the dynamic load and it is extremely difficult to separate the contribution of each part in reducing seismic demand. Indeed, effective motion transmitted to the superstructure does not correspond to the free field motion because of the geometrical and inertial interactions as well as the local modification of soil behavior, specially due to the supplementary confinement imposed by the superstructure's weight. A series of strong-motion severity measures, structural damage measures and energy dissipation indicators have been introduced and studied for this purpose. Nevertheless, results are erratic and consequently, generalization was extremely difficult. Despite these difficulties, the results illustrate the importance of accounting for the inelastic soil behavior. The major part of the studied cases show beneficial effects such as the decrease of the maximum seismic structural demand. However, the non-linear DSSI could increase or decrease the expected structural damage depending on the type of the structure, the input motion, and the dynamic soil properties. Furthermore, there is an economic justification to take into account the modification effects due to inelastic soil behavior.
Author: W.S. Hall Publisher: Springer Science & Business Media ISBN: 0306483874 Category : Technology & Engineering Languages : en Pages : 429
Book Description
W S HALL School of Computing and Mathematics, University of Teesside, Middlesbrough, TS1 3BA UK G OLIVETO Division of Structural Engineering, Department of Civil and Environmental Engineering, University of Catania, Viale A. Doria 6, 95125 Catania, Italy Soil-Structure Interaction is a challenging multidisciplinary subject which covers several areas of Civil Engineering. Virtually every construction is connected to the ground and the interaction between the artefact and the foundation medium may affect considerably both the superstructure and the foundation soil. The Soil-Structure Interaction problem has become an important feature of Structural Engineering with the advent of massive constructions on soft soils such as nuclear power plants, concrete and earth dams. Buildings, bridges, tunnels and underground structures may also require particular attention to be given to the problems of Soil-Structure Interaction. Dynamic Soil-Structure Interaction is prominent in Earthquake Engineering problems. The complexity of the problem, due also to its multidisciplinary nature and to the fact of having to consider bounded and unbounded media of different mechanical characteristics, requires a numerical treatment for any application of engineering significance. The Boundary Element Method appears to be well suited to solve problems of Soil- Structure Interaction through its ability to discretize only the boundaries of complex and often unbounded geometries. Non-linear problems which often arise in Soil-Structure Interaction may also be treated advantageously by a judicious mix of Boundary and Finite Element discretizations.
Author: Stephane Grange Publisher: John Wiley & Sons ISBN: 1786307987 Category : Technology & Engineering Languages : en Pages : 242
Book Description
In order to describe soil–structure interaction in various situations (nonlinear, static, dynamic, hydro-mechanical couplings), this book gives an overview of the main modeling methods developed in geotechnical engineering. The chapters are centered around: the finite element method (FEM), the finite difference method (FDM), and the discrete element method (DEM). Deterministic Numerical Modeling of Soil–Structure Interaction allows the reader to explore the classical and well-known FEM and FDM, using interface and contact elements available for coupled hydro-mechanical problems. Furthermore, this book provides insight on the DEM, adapted for interaction laws at the grain level. Within a classical finite element framework, the concept of macro-element is introduced, which generalizes constitutive laws of SSI and is particularly straightforward in dynamic situations. Finally, this book presents the SSI, in the case of a group of structures, such as buildings in a town, using the notion of metamaterials and a geophysics approach.
Author: Amine Bou Mehdi Publisher: ISBN: Category : Languages : fr Pages : 0
Book Description
Ce mémoire concerne l'Interaction Sol-Structure (ISS) en dynamique qui est souvent ignorée dans l'analyse dynamique des bâtiments en béton armé. Le premier chapitre illustre la complexité d'un phénomène d'ISS en mettant l'accent sur l'interaction cinématique et inertielle. Il présente les différentes méthodes d'analyses utilisées dans la modélisation de ce phénomène tout en soulevant les avantages et les inconvénients. Le deuxième chapitre se concentre sur l'impédance dynamique de la fondation qui est un paramètre essentiel pour la représentation de l'ISS. De plus, ce chapitre présente les méthodes d'estimation de la période fondamentale d'un système sol-structure et montre l'influence des caractéristiques sol-structure sur les caractéristiques dynamiques (période fondamentale et amortissement) d'un système à un degré de liberté. Le troisième chapitre montre l'influence des caractéristiques sol-structure sur la réponse modale (période fondamentale) d'une structure en béton armé à plusieurs degrés de liberté modélisée à l'aide du logiciel Effel-Structure. Ce chapitre montre aussi l'influence de l'ISS sur la réponse sismique d'une structure (efforts et déplacement) et évalue la validité des méthodes d'estimation de la période fondamentale d'un système sol-structure.
Author: Thomas A. Cruse Publisher: Springer Science & Business Media ISBN: 364283003X Category : Science Languages : en Pages : 488
Book Description
The IUTAM Symposium on Advanced Boundary Element Methods brought together both established and current researchers in the broad context of applications of BEM technology. The goal of the Symposium was to provide both a formal and an informal forum for the interchange of ideas and the stimulation of new research directions.
Book Description
L' interaction sol-structure en dynamique caractérisée usuellement par les fonctions d'impédance doit être prise en compte des la conception des ouvrages tant pour les fondations de machine que pour les fondations d'ouvrages soumis a l'action sismique. Les fonctions d'impédance relatives à une fondation, un type de sol, et un mode de vibration représentent, sous excitation harmonique, la raideur dynamique complexe du sol. Le travail de bibliographie regroupe l'ensemble des fonctions d'impédance relatives aux fondations superficielles trouvées dans la littérature sous forme paramétrée. Cette étude a permis la réalisation d'un ouvrage: manuel des fonctions d'impédance - fondations superficielles. Y apparaissent les résultats relatifs aux fondations de forme simple (circulaire, rectangulaire et filante) et aux sols de caractéristiques simples (milieu semi-infini, monocouche surmontant soit un substratum rigide, soit un demi-espace). Cet ouvrage permet au concepteur de prendre en compte l'interaction sol-structure dans les cas simples ou au niveau d'avant-projets. Une méthode pratique de prise en compte de l'interaction sol-fondation est développée dans le cas ou le sol peut être assimile a un monocouche homogène et viscoélastique reposant sur un substratum rocheux, et pour une fondation circulaire rigide. Les fonctions d'impédance des modes de translation horizontale et de balancement sont représentées par un modèle discret dont les paramètres, indépendants de la fréquence, sont déterminés par des abaques ou des formules empiriques en fonction de la géométrie sol-fondation du problème. Un amortisseur visqueux de caractéristiques dépendant hyperboliquement de la fréquence est utilise pour rendre compte des effets (en basses fréquences) de l'amortissement interne de la couche de sol. Le modèle fréquentiel ainsi réalise permet d'obtenir des réponses de structures en très bonne corrélation avec celles prenant en compte les fonctions complètes d'impédance
Author: Esteban Saez Robert
Author: Esteban Saez Robert
Author: W.S. Hall
Author: Stephane Grange
Author: Amine Bou Mehdi
Author: Jean Emm.. Kyrgeorgiou
Author: Thomas A. Cruse
Author: 
Author: F. B. J. Barends
Author: Association de recherche en géotechnique marine
Author: Franck Cevaer