EFEITO DO MANEJO DO SOLO E DO GESSO RESIDUAL NA CULTURA DA SOJA E EM ATRIBUTOS FÍSICOS DE UM LATOSSSOLO VERMELHO DISTROFÉRRICO / SOIL MANURE AND RESIDUAL GYPSUM EFFECT ON THE SOYBEAN CROP AND IN PHYSICAL ATTRIBURES OF DYSTROPHIC RED LATOSOIL

Souza, Fábio Régis de

27 February 2009

Made available in DSpace on 2016-02-26T12:59:35Z (GMT). No. of bitstreams: 1 FabioRegisdeSouza.pdf: 366648 bytes, checksum: e3369b4592d98936387b7c897e095540 (MD5) Previous issue date: 2009-02-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Adoption of soil manure systems with or without conditioners can improve or reduce its physical quality, changing the answers of crops to the same ones. Thus, this paper aimed to evaluate the agronomic performance of soybean crop and the soil physical attributes. The paper was conducted in an area granted under a lending to Faculdade de Ciências Agrárias da Universidade Federal da Grande Dourados, located at coordinates 22º 12 42,74 S e 54º 56 17,26 W, and 452 m high. The climate is Cwa, according to Koppen s rating. The soil on the experiment place is classified as Dystrophic Red Latosoil, originally under cerrado vegetation. For the soil physical attributes the experimental design was in randomized blocks with arrangement of subdivided plots, where the treatments were two manure systems (tillage system and conventional sowing, on the plots) and dosages of 0 and 2000 kg ha-1 of gypsum (subplots) and five depths (0-0,05, 0,05-0,10, 0,10-0,15, 0,15-0,20 and 0,20-0,30 m, being the subplots with four replications, it was decided to consider the studied depths as subplots independent on the randomization. For the agronomic features, the used experimental design was of randomized blocks, with four replications in experimental design of subdivided plots, being that the plots had the manure systems and as subplot the presence and absence of the gypsum residual effect with four replications. The obtained results show that the tillage system with gypsum residual effect increased the plants final height. The results show that the soil density was bigger under the tillage system and the gypsum residual effect influenced on the soil density at 0,10-0,15 m deep. The manures and gypsum residual effect made the porosity bigger at 0-0,05 m deep. The macroporosity was bigger at 0-0,05 m deep under conventional sowing and the microporosity was increased with the depth under the manure systems. The penetration resistance was increased in greater depths. The tillage system, with or without gypsum residual effect, provided the aggregates bigger geometric diameters. The aggregates morphological features varied in depth, both in tillage system and conventional sowing, and in presence or absence of gypsum residual effect. / Adoção de sistemas de manejo do solo com ou sem condicionadores podem promover ou reduzir sua qualidade física, alterando as resposta das culturas aos mesmos. Assim, este trabalho teve por objetivo avaliar as desempenho agronômico da cultura da soja e os atributos físicos do solo. O trabalho foi conduzido em uma área cedida em regime de comodato à Faculdade de Ciências Agrárias da Universidade Federal da Grande Dourados, localizada nas coordenadas 22º 12 42,74 S e 54º 56 17,26 W, com altitude de 452 metros. O clima é do tipo Cwa, segundo a classificação de Köppen. O solo do local do experimento é classificado como Latossolo Vermelho Distroférrico, originalmente sob vegetação de cerrado. Para os atributos físicos do solo o delineamento experimental foi em blocos casualizados com arranjo de parcelas subsubdivididas, onde os tratamentos foram dois sistemas manejo (plantio direto e convencional, nas parcelas) e doses de 0 e 2000kg ha-1 de gesso (subparcelas) e cinco profundidades (0-0,05, 0,05-0,10, 0,10-0,15, 0,15-0,20 e 0,20-0,30 metros , sendo as subsubparcelas) com quatro repetições, optou-se por considerar as profundidades estudadas como subsubparcelas independente da casualização. Para as características agronômicas o delineamento experimental utilizado foi em blocos casualizados, com quatro repetições em esquema experimental de parcelas subdividida, sendo que as parcelas tiveram os sistemas de manejo e como subparcela à presença e ausência do efeito residual de gesso com quatro repetições. Os resultados obtidos demonstram que o plantio direto com efeito residual de gesso aumentou a altura final das plantas. Os resultados mostram que a densidade do solo foi maior no plantio direto e o efeito residual de gesso influenciou na densidade do solo na profundidade de 0,10-0,15 m. Os manejos e efeito residual de gesso promoveram maior porosidade na profundidade de 0-0,05 m. A macroporosidade foi maior na profundidade de 0-0,05 m no plantio convencional e a microporosidade aumentou com a profundidade nos sistemas de manejo. A resistência à penetração aumentou em maiores profundidades. O plantio direto com ou sem efeito residual de gesso proporcionou maiores diâmetros geométricos de agregados. As características morfológicas dos agregados variaram em profundidade, tanto em plantio direto, plantio convencional e na presença ou ausência de efeito residual de gesso.

Plantio direto e plantio convencional

física do solo

gessagem

Glycine max (L.) Merr

estrutura do solo

Tillage system and conventional sowing

soil physics

gypsum

Glycine max (L.) Merr

soil structure

EFEITO DO MANEJO DO SOLO E DO GESSO RESIDUAL NA CULTURA DA SOJA E EM ATRIBUTOS FÍSICOS DE UM LATOSSSOLO VERMELHO DISTROFÉRRICO / SOIL MANURE AND RESIDUAL GYPSUM EFFECT ON THE SOYBEAN CROP AND IN PHYSICAL ATTRIBURES OF DYSTROPHIC RED LATOSOIL

Souza, Fábio Régis de

27 February 2009

Made available in DSpace on 2016-02-26T12:59:12Z (GMT). No. of bitstreams: 1 FabioRegisdeSouza.pdf: 366648 bytes, checksum: e3369b4592d98936387b7c897e095540 (MD5) Previous issue date: 2009-02-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Adoption of soil manure systems with or without conditioners can improve or reduce its physical quality, changing the answers of crops to the same ones. Thus, this paper aimed to evaluate the agronomic performance of soybean crop and the soil physical attributes. The paper was conducted in an area granted under a lending to Faculdade de Ciências Agrárias da Universidade Federal da Grande Dourados, located at coordinates 22º 12 42,74 S e 54º 56 17,26 W, and 452 m high. The climate is Cwa, according to Koppen s rating. The soil on the experiment place is classified as Dystrophic Red Latosoil, originally under cerrado vegetation. For the soil physical attributes the experimental design was in randomized blocks with arrangement of subdivided plots, where the treatments were two manure systems (tillage system and conventional sowing, on the plots) and dosages of 0 and 2000 kg ha-1 of gypsum (subplots) and five depths (0-0,05, 0,05-0,10, 0,10-0,15, 0,15-0,20 and 0,20-0,30 m, being the subplots with four replications, it was decided to consider the studied depths as subplots independent on the randomization. For the agronomic features, the used experimental design was of randomized blocks, with four replications in experimental design of subdivided plots, being that the plots had the manure systems and as subplot the presence and absence of the gypsum residual effect with four replications. The obtained results show that the tillage system with gypsum residual effect increased the plants final height. The results show that the soil density was bigger under the tillage system and the gypsum residual effect influenced on the soil density at 0,10-0,15 m deep. The manures and gypsum residual effect made the porosity bigger at 0-0,05 m deep. The macroporosity was bigger at 0-0,05 m deep under conventional sowing and the microporosity was increased with the depth under the manure systems. The penetration resistance was increased in greater depths. The tillage system, with or without gypsum residual effect, provided the aggregates bigger geometric diameters. The aggregates morphological features varied in depth, both in tillage system and conventional sowing, and in presence or absence of gypsum residual effect. / Adoção de sistemas de manejo do solo com ou sem condicionadores podem promover ou reduzir sua qualidade física, alterando as resposta das culturas aos mesmos. Assim, este trabalho teve por objetivo avaliar as desempenho agronômico da cultura da soja e os atributos físicos do solo. O trabalho foi conduzido em uma área cedida em regime de comodato à Faculdade de Ciências Agrárias da Universidade Federal da Grande Dourados, localizada nas coordenadas 22º 12 42,74 S e 54º 56 17,26 W, com altitude de 452 metros. O clima é do tipo Cwa, segundo a classificação de Köppen. O solo do local do experimento é classificado como Latossolo Vermelho Distroférrico, originalmente sob vegetação de cerrado. Para os atributos físicos do solo o delineamento experimental foi em blocos casualizados com arranjo de parcelas subsubdivididas, onde os tratamentos foram dois sistemas manejo (plantio direto e convencional, nas parcelas) e doses de 0 e 2000kg ha-1 de gesso (subparcelas) e cinco profundidades (0-0,05, 0,05-0,10, 0,10-0,15, 0,15-0,20 e 0,20-0,30 metros , sendo as subsubparcelas) com quatro repetições, optou-se por considerar as profundidades estudadas como subsubparcelas independente da casualização. Para as características agronômicas o delineamento experimental utilizado foi em blocos casualizados, com quatro repetições em esquema experimental de parcelas subdividida, sendo que as parcelas tiveram os sistemas de manejo e como subparcela à presença e ausência do efeito residual de gesso com quatro repetições. Os resultados obtidos demonstram que o plantio direto com efeito residual de gesso aumentou a altura final das plantas. Os resultados mostram que a densidade do solo foi maior no plantio direto e o efeito residual de gesso influenciou na densidade do solo na profundidade de 0,10-0,15 m. Os manejos e efeito residual de gesso promoveram maior porosidade na profundidade de 0-0,05 m. A macroporosidade foi maior na profundidade de 0-0,05 m no plantio convencional e a microporosidade aumentou com a profundidade nos sistemas de manejo. A resistência à penetração aumentou em maiores profundidades. O plantio direto com ou sem efeito residual de gesso proporcionou maiores diâmetros geométricos de agregados. As características morfológicas dos agregados variaram em profundidade, tanto em plantio direto, plantio convencional e na presença ou ausência de efeito residual de gesso.

Plantio direto e plantio convencional

física do solo

gessagem

Glycine max (L.) Merr

estrutura do solo

Tillage system and conventional sowing

soil physics

gypsum

Glycine max (L.) Merr

soil structure

Aplicação do acoplamento entre o MEC e o MEF para o estudo da interação dinâmica elastoplástica entre o solo e estruturas / BEM/FEM coupling application to the study of the elastoplastic dynamic interaction between soil and structures

Francisco Patrick Araujo Almeida

24 October 2003

O objetivo do presente trabalho é o desenvolvimento de um código computacional que possibilite a análise dinâmica de estruturas tridimensionais em regime elástico-linear acopladas ao solo, tratado como meio infinito elastoplástico. As superestruturas são tratadas por elementos finitos simples de casca e de barra geral, as estruturas de fundações são tratadas por elementos de casca que simulam o contato com o solo, modelando radiers, túneis e reservatórios enterrados. Blocos são modelados por elementos de contorno tridimensionais. O solo é modelado de duas maneiras distintas: na região plastificada emprega-se a solução fundamental de Kelvin (estática) e na região não plastificada (elástica) adota-se a solução fundamental do problema de Stokes. O acoplamento entre os meios é feito aplicando-se a técnica de subregiões. Deve ficar claro que todo procedimento estático equivalente foi implementado. Vários exemplos numéricos são apresentados, onde se percebe a eficiência do código computacional desenvolvido / The objective of the present work is the development of a computational code that makes possible dynamic analyses of three-dimensional structures in elastic-linear behavior coupled to the soil, modeled as elastoplastic infinite medium. Simple finite elements, shell and general bars, are used to model elastic structures. The structures of foundations are modeled by shell’s elements which simulate the contact with the soil, modeling radiers, tunnels and buried reservoirs. Blocks are modeled by three-dimensional boundary elements. The soil is modeled in two different ways: in the plastic region Kelvin’s fundamental solution (static) is used and in the elastic region the fundamental solution of the Stoke’s problem is adopted. The coupling among the media is done applying the sub-region technique. It is important to note that the equivalent static procedure has been implemented. Several numerical examples are presented, demonstrating the efficiency of the developed computational code

acoplamento MEC/MEF

dinâmica

interação solo-estrutura

Método dos Elementos de Contorno

Método dos Elementos Finitos

nãolinearidade física

BEM/FEM coupling

Boundary Element Method

dynamics

Finite Element Method

physical non-linearity

soil-structure interaction

Évaluation et réduction des conséquences des mouvements de terrains sur le bâti : approches expérimentale et numérique / Evaluation and reduction of ground movements consequences on building : experimental and numerical approaches

Hor, Boramy

24 January 2012

L’instabilité des cavités souterraines (mines, carrières, tunnels,…) peut induire les mouvements de terrains d’amplitude suffisante pour endommager les bâtiments et les infrastructures en surface. Les méthodes traditionnelles, utilisées dans les pratiques d’ingénieur pour prévoir les déformations dans les structures, sont basées sur les caractéristiques des mouvements de terrain en condition de terrain vierge sans prendre en compte l’effet de la présence des structures en surface. L’objectif de cette thèse est de prédire les déformations des ouvrages en tenant compte de l’influence de l’interaction sol-structure, d’une part ; et d’évaluer la performance d’une solution de protection (tranchée périphérique), d’autre part. Cela a été achevé par la réalisation d’études paramétriques utilisant deux approches complémentaires : une approche expérimentale à l’aide d’un modèle réduit physique 3D sous gravité normale et une modélisation numérique 3D par la méthode des éléments finis. En particulier l’effet d’un certain nombre de paramètres géométriques et mécaniques a pu être investigué dans l’étude de l’interaction sol-structure : la position de la structure par rapport à la cuvette d’affaissement, le poids de la structure et la raideur relative entre le sol et la structure. Concernant l’étude de l’efficacité de tranchées périphériques, l’effet de la position de la structure, de la position de la tranchée vis-à-vis de la structure et de la rigidité de la tranchée a été analysé. Les résultats obtenus ont abouti à une meilleure compréhension du problème d’interaction sol-structure et ont montré l’importance de cet effet qui doit être pris en compte dans l’évaluation de la vulnérabilité du bâti. Le transfert des mouvements du sol à la structure est faible (moins de 2,5%), dans le cas modélisé : structure rigide et interface glissante. Les différents résultats ont permis par ailleurs de mettre en évidence l’efficacité de la tranchée périphérique pour réduire les sollicitations affectant les structures. La tranchée doit être remplie avec un matériau très déformable et surtout placée à une distance de l’ordre d’un mètre de la structure. / The instability of underground cavities due to mining or tunneling activities can induce surface ground movements which damage overlying buildings and infrastructures. The conventional design methods, used in engineering practices to assess the structure’s deformations, are based on greendfield ground movements without taking into account the effect of the surface structure. The objective of this thesis is to predict the building deformations by taking the in-fluence of the soil-structure interaction into consideration, and to evaluate the performance of a mitigation technique (peripheral trench). This has been achieved by performing parametric studies using both the experimental approach by means of a 3D small-scale physical model under earth gravity condition and the 3D finite element numerical modeling. In particular the effect of building position, building weight, and relative stiffness of building and underlying soil has been investigated in the soil-structure interaction study. Concerning the trench effectiveness analysis, the effect of building position, trench position relatively to the building, and the trench stiffness has been investigated. The results of these investigations have led to a better understanding of the soil-structure interaction problem and have pointed out the importance of this effect which should be taken into account for building damage assessment. The transfer of ground movements to the buildings is low (less than 2.5%) for the modeled case: stiff structure and sliding contact. In addition, the results have proved the effectiveness of the peripheral trench to reduce the ground movements affecting the buildings. The trench should be filled with a very deformable material and located at a distance of around one meter from the building.

Génie civil

Mouvement du sol

Interaction sol structure

Tranchée périphérique

Modélisation 3 D

Modélisation physique

Modélisation numérique

Civil engineering

Ground motion

Soil structure interaction

Peripheral trench

3D modelisation

Physical model

Numerical model

624.176 072

Influence of Chemo-Mechanical Factors on Compression and Undrained Strengths of Soft Kaolinites Prepared using Synthetic Seawater

Deepak, G B

January 2016

Marine clay deposits are characterized by very soft to soft consistencies (undrained strength 1-50 kPa), presence of saline pore solution and low-swelling clays. Besides, loss of metastable structure on disturbance, poor undrained strengths of soft clays is contributed by high water contents. Presence of saline pore solution and low-swelling clays (illite, chlorite, kaolinite) play an important role in developing metastable structure of soil sediments deposited in marine environment. The pore solution salinity regulates the “physico-chemical (A - R) stress” that in turn has significant bearing on development of the metastable structure. Metastable structure refers to edge-face, edge-edge associations in card-house arrangement of platy/elongate particles that develop during deposition. Loss of metastable structure of soft marine clays upon disturbance leads to excessive settlements and slope failures. Besides A - R forces, metastable structure of marine clays is contributed by cementation bonds, thixotropic hardening, ion leaching, formation or addition of dispersing agents and chemical weathering. Secondary compression also causes bonding of micro-structural units that increase stiffness and strength of the metastable structure. Review of literature brings out that majority of studies examining the role of physico-chemical factors on the engineering behavior of marine clays have focused on illite rich sediments. However, non-swelling clay, namely, kaolinite is also encountered in marine deposits (example, Pusan clay, Singapore clay, Sarapui soft clays). Kaolinites differ from illites in being 1:1 mineral (unit layer comprises of 1 silica sheet bonded to 1 gibbsite sheet) and having strong hydrogen bonding between unit layers. Consequently, kaolinite particles are thick (0.3 to 3 ìm thickness) with low surface area (10 to 20 m2/g). Also the hydrogen bonding between unit layers do not allow them to separate on hydration. Combination of very low isomorphous substitution (Al for Si 1 in 400), low cation exchange capacity (3 meq/100g), and low surface area, lead to negligible development of diffuse double layer repulsion forces between kaolinite particles. Strong positive edge (developed on broken bonds at particle edges from adsorption of hydrogen ions) negative face attraction between kaolinite particles, encourages flocculation of particles at range of water contents. It was therefore considered of interest to examine the engineering response of kaolinites to changes in pore solution salinity from leaching effects. The focus of the thesis is hence to gain better understanding of physico-chemical (pore solution salinity, A - R forces) and mechanical (secondary compression, loss of overburden) factors towards development of metastable structure of kaolinite clays deposited in synthetic seawater environments in the context of their compressibility and undrained strength characteristics. Laboratory experiments are performed with kaolinites that are slurry consolidated in conventional consolidometers in saline and synthetic seawater solutions. The metastable structure developed by consolidated specimens is relevant to alluvial marine sediments that contain kaolinite (example, Pusan clay, Singapore clay, Sarapui soft clays). The structure of the thesis is as follows: Chapter 1 gives an introduction to the thesis. Chapter 2 provides a detailed review of literature on the role of chemical factors (pore solution composition, A - R forces, osmotic suction) and mechanical processes (secondary compression and overconsolidation) in developing metastable structure of kaolinite specimens subjected to slurry consolidation and the consequent influence of metastable structure on compression, undrained strength and sensitivity characteristics of clay specimens. The Chapter also defines the scope and objectives of the study. Chapter 3 details the experimental program undertaken to bring out the role of chemical factors and mechanical processes in influencing the 1-dimensional compression and undrained strength characteristics of slurry consolidated kaolinites prepared in saline medium. Chapter 4 delineates the role of chloride salt solutions (sodium, magnesium and calcium) and synthetic seawater solution in contributing to the metastable structure developed by slurry consolidated kaolinites at various vertical effective stress (óv’) and the consequent influence of metastable structure on 1-dimensional compression, undrained strength and sensitivity characteristics of the clay. Chapter 5 examines influence of secondary compression on metastable structure developed by kaolinites that were slurry consolidated in 24.53 g/L sodium chloride and synthetic seawater solutions and the consequence of the developed metastable structure on undrained strength and sensitivity. The chapter also examines the consequences of secondary compression experienced by soft overconsolidated kaolinites on their undrained strength and sensitivity characteristics. Chapter 6 examines the relative influence of differential osmotic stress and electrochemical stress on the consolidation behaviour of kaolinite specimens that are slurry consolidated in sodium chloride solutions. The osmotic efficiencies (á) of kaolinite were obtained using the Fritz-Marine Membrane Model. Chapter 7 summarizes the major conclusions of the thesis.

Kaolinites

Clay Minerals

Marine Clay Deposits

Kaolinite Metastable Structure

Slurry Consolidated Kaolinites

Synthetic Seawater

Soil Structure

Low-Swelling Clays

Kaolinite Compression

Kaolinite Salinity

Clay Minerals-Ion Exchange

Cementation Bonds

Civil Engineering

Impacts des mouvements de terrains sur une structure type "maison individuelle" : modélisation de l'interaction sol-structure pour l'évaluation de la vulnérabilité du bâti / Impacts of grounds movements on a structure type "individual house" : modelling soil-structure interaction for assessing the vulnerability of buildings

Do, Quoc Viet

19 July 2011

Dans ce travail, les risques naturels considérés concernent des mouvements de terrains qui résultent de deux phénomènes principaux : retrait et gonflement des sols argileux et l'affaissement à grand rayon lié à la présence des cavités souterraines. Ceux-ci provoquent des tassements différentiels du sol qui génèrent des désordres sur les constructions environnantes : dégâts et fissuration des murs porteurs en maçonnerie, particulièrement aux angles du bâti. Ces dégradations structurales induisent des conséquences économiques importantes dans le cas des maisons individuelles ; elles résultent d'un manque de résistance des maçonneries, du peu de raideur de leur système de fondation et du peu d'efficacité de leur système de contreventement. Cette recherche a pour objectif d'analyser la vulnérabilité du bâti et de proposer des méthodes de renforcement pour les constructions existantes ainsi que des recommandations de dimensionnement pour les constructions. Ces questions nécessitent une connaissance approfondie du phénomène des mouvements des terrains et des modalités de transfert de ces actions à une structure. Pour y répondre, quatre étapes principales ont été effectuées : une étude bibliographique, une analyse de l'interaction sol-structure, un développement d'une justification d'endommagement et d'une méthode de renforcement ou de dimensionnement ainsi qu'une analyse probabiliste des risques. L'étude bibliographique avec des analyses fonctionnelles et statistiques, d'abord, propose un profil de la maison sensible à l'aléa naturel et des cas typiques des désordres sur la construction. Le développement des modélisations par éléments finis ensuite permet d'étudier les phénomènes d'interaction sol-structure. L'analyse de l'interaction sol - structure, au moyen de modélisations par éléments finis, permet d'obtenir des sollicitations dans la maçonnerie. D'abord, des modèles analytique et numérique simplifiés ont été développés pour modéliser des structures simples telles une semelle filante, un système de semelles d'une fondation filante ou un mur en maçonnerie sur un sol élastique de type Winkler ou Boussinesq. Ensuite, des modélisations de structures plus complexes avec tous les éléments du bâti ont été effectuées en développant un code aux éléments finis particulier qui a permis de calculer des bâtiments en maçonnerie sur un sol de type Pasternak. En vue de développer une justification d'endommagement ainsi qu'une méthode de renforcement et de dimensionnement adaptée pour risque «mouvement de terrains », les travaux de recherche focalisent sur la distribution des sollicitations obtenues par des modélisations et analysent les domaines de validité de la démarche proposée par les Eurocodes EC6 et EC8 pour les murs de contreventement en maçonnerie confinée (chainée) ou armée. L'analyse probabiliste des risques, couplant les modèles aux éléments finis développés avec la méthode des simulations de Monte-Carlo, a permis d'étudier la vulnérabilité des maisons individuelles selon les caractéristiques structurales représentatives du bâti existant, dans les régions les plus touchées par les mouvements de terrains. Les résultats de cette analyse ont été unifiés, au sein d'une méthodologie globale de l'évaluation de la vulnérabilité de structures, à l'usage, d'une part, des pouvoirs publics dans l'établissement de cartographies SIG des risques, et d'autre part de la capacité des procédés de renforcement à l'usage des industries / In the present work, the considered natural hazards concern to ground movements resulting from two main phenomena : shrinkage and swelling of clay soils and ground subsidence due to the presence of underground cavities. These phenomena cause differential ground settlements which generate disorders on the structures erected in their neighborhood : damage and cracking of masonry load-bearing walls, especially at the building corners. These structural degradations cause important economic consequences and losses in the case of dwelling houses. These damages result from a lack of masonry resistance or a small stiffness of the foundation system as well as a limited effectiveness of bracing system.This research aims to analyze the vulnerability of buildings and to propose a reinforcement method for the existing constructions as well as design recommendations for structures. These topics require a thorough understanding of the ground movements phenomenon and their transfer as actions on a structure. For this purpose, four main steps were performed : a literature review, an analysis of soil-structure interaction, a development of a damage justification and a method for reinforcement or design, as well as a probabilistic analysis of risk.The literature review with functional and statistical analysis, as a first step, provides a profile of the house susceptible to natural hazard effects and typical cases of building disturbances. The development of finite element method is therefore considered in order to study soil-structure interaction.The analysis of the soil-structure interaction using finite element modeling provides stresses in the masonry. First, simplified analytical and numerical models have been developed for simple structures such as a strip footing, a system of strips foundation or a masonry wall lying on elastic soil (Winkler or Boussinesq). Afterwards, modeling of more complex structures with the whole building elements was made by developing a particular finite element code that allowed the calculation of masonry buildings on a Pasternak soil. To develop a damage justification as well as the reinforcement and design building methods suitable for risk of “ground movements”, this work focuses on the stresses distribution obtained by numerical models and analyzes the validity domain of the approach proposed by Eurocodes EC6 and EC8 for confined masonry or reinforced masonry. By coupling the developed finite element models with the Monte-Carlo method, the probabilistic analysis of risk allows to study the vulnerability of dwelling houses having representative structural characteristics of existing buildings, erected in areas that are the most affected by ground movements. The results of this analysis have been unified into a global methodology for assessing the vulnerability of structures. This methodology is used, in one hand, for the development of GIS mapping of risks and, in other hand, for the reinforcement processes

Mouvements de terrains

Éléments finis

Interaction sol-structure

Vulnérabilité

Retrait - gonflement des argiles

Affaissement des cavités souterraines

Ground movements

Finite elements

Soil-structure interaction

Vulnerability

Shrinkage - swelling of clayed soils

Subsidence of underground cavities

Interação solo-estrutura em galpões metálicos treliçados com cobertura em arco metálico circular

Ferro, Fernando Luiz de Bragança

18 December 2013

The structural design engineer normally considers the soil element that supports foundation of a building behaves as a undeformable solid remains unchanged after application of the load over time. The practice in the design of foundations but indicates that the soil when subjected to loading of a building, it deforms and causes a disturbance in the structure. This phenomenon is called soil-structure interaction and had their computed for metal shed arch truss metallic circular effects. Changes in stresses and strains in the joints of the metal structure and displacements recorded on their joints were studied. The normal stress on the footing-soil interface and displacements occurred were also the object of the study. The procedure compared the solution using immovable supports with hypothesis admitting footing of various sizes by computing the effects of Soil-Structure Interaction. To obtain the results was performed a numerical modeling using finite element method using SAP 2000® software. The results confirmed that the initial estimate was that, even with small dimensions footings supporting large loads resulting from eccentricity moments and still involved only compressive stresses on the soil-footing interface. / O engenheiro projetista de estruturas normalmente considera que o solo, elemento que suporta as fundações de uma edificação, comporta-se como sendo um maciço indeformável permanecendo inalterado após a aplicação do carregamento ao longo do tempo. A prática no projeto de fundações indica porém que o solo quando submetido ao carregamento de uma edificação se deforma e com isso provoca uma perturbação na estrutura. Este fenômeno é denominado Interação Solo-Estrutura e teve os seus efeitos computados para um Galpão Metálico Treliçado em Arco Metálico Circular. Foram estudadas as alterações dos esforços e tensões nas hastes da estrutura metálica e os deslocamentos verificados nos seus nós. As tensões normais na interface sapata-solo e os deslocamentos ocorridos também foram objeto do estudo. O procedimento comparou a solução utilizando apoios indeslocáveis com as hipóteses admitindo sapatas de várias dimensões computando-se os efeitos da Interação Solo-Estrutura. Para a obtenção dos resultados foi efetuada uma modelagem numérica utilizando o Método dos Elementos Finitos através do software SAP 2000®. Os resultados encontrados confirmaram a estimativa inicial que era a de que, mesmo sapatas com pequenas dimensões suportando grandes excentricidades decorrentes de cargas e momentos ainda assim trabalhavam apenas com tensões de compressão na interface sapata-solo.

Engenharia civil

Estruturas metálicas

Mecânica do solo

Solo-estrutura

Solo urbano - Uso

Treliças (Construção civil)

Modelagem

Civil engineering

Land use, Urban

Modeling

Soil mechanics

Soils

Trusses

Soil-structure

CNPQ::ENGENHARIAS::ENGENHARIA CIVIL

[pt] CARACTERÍSTICAS INTRÍNSECAS DA COMPRESSIBILIDADE DE DUAS ARGILAS LITORÂNEAS BRASILEIRAS / [en] INTRINSIC COMPRESSIBILITY CHARACTERISTICS OF TWO COASTAL BRAZILIAN CLAYS

06 February 2019

[pt] Um grande movimento de massa ocorrido em 28 de Março de 2013 no Porto de Santana, na região da foz do Rio Amazonas, no Amapá, motivou o estudo das características de compressibilidade de argilas moles a partir do material reconstituído. Os solos naturais diferem dos solos reconstituídos devido à influência da micro e macroestrutura. O conceito de linha de compressão intrínseca (ICL) proposto por Burland (1990) permite uma avaliação quantitativa da diferença no comportamento de compressão do solo nestas duas condições. Neste estudo, são analisados dois depósitos de solo mole da costa brasileira (Tijucas, SC e Porto de Santana, AP) e uma mistura artificial obtida em laboratório com caulim e bentonita na proporção de 98:2 em peso. Um total de 8 amostras são reconstituídas com teor de umidade igual a 1,25 vezes o limite de liquidez e submetidas a ensaios convencionais de adensamento (SIC - standard incremental consolidation tests). As curvas de adensamento das amostras reconstituídas apresentam boa concordância com a ICL proposta por Burland (1990), principalmente no intervalo de tensões de 100 a 1.000kPa. As análises evidenciam a presença de estrutura do solo natural, sendo encontrada uma maior influência nas argilas do Porto de Santana, as quais apresentam índice de vazios normalizado (Iv) de até 1,85. As correlações empíricas para obtenção dos parâmetros intrínsecos de compressibilidade e100 e Cc propostas por Burland (1990) não apresentaram bons ajustes para os resultados experimentais aqui reportados. / [en] A large mass movement occurred on March 28, 2013 at the Port of Santana, in the region of the mouth of the Amazon River in Amapá, motivated the study of compressibility characteristics of soft clays from the reconstituted material. Natural soils differ from reconstituted soils due to the influence of micro and macrostructure. The concept of the intrinsic compression line (ICL) proposed by Burland (1990) allows a quantitative evaluation of the difference in soil compression behavior in these two conditions. In this study, two soft clay deposits of the Brazilian coast (Tijucas, SC and Porto de Santana, AP) were analyzed and an artificial mixture made in the laboratory with kaolin and bentonite in the proportion of 98: 2 by weight. A total of 8 samples are reconstituted with moisture content equal to 1.25 times the liquid limit and subjected to conventional consolidation tests (SIC - standard incremental consolidation tests). The consolidation curves of the reconstituted samples show good agreement with the ICL proposed by Burland (1990), especially in the stress range of 100 to 1,000 kPa. The analyzes show the presence of natural soil structure, with a higher influence in the Santana Port clays which have a normalized void index (Iv) up to 1.85. The empirical correlations to obtain the intrinsic parameters of compressibility e 100 and Cc proposed by Burland (1990) did not present good adjustments for the experimental results here reported.

[pt] COMPRESSIBILIDADE

[pt] ENSAIO DE ADENSAMENTO

[pt] ESTRUTURA DO SOLO

[pt] SOLOS RECONSTITUIDOS

[pt] SOLOS MOLES

[en] COMPRESSIBILITY

[en] CONSOLIDATION TEST

[en] SOIL STRUCTURE

[en] RECONSTITUTED SOILS

[en] SOFT SOILS

Consistent description of radiation damping in transient soil-structure interaction

Zulkifli, Ediansjah

16 July 2008

Dynamic soil-structure interaction problems are characterized by an unbounded soil-domain and thus by radiation damping. This radiation damping arises due to wave propagation from the excited structure into the subsoil and may lead to a reduction of the structural response. A consistent description of this radiation damping has been carried out by means of different concepts. A widely used approach truncates the unbounded medium by a special kind of absorbing boundaries which are free of artificial reflection. The resulting finite domain can be treated as usually by finite elements. In this report, an alternative method to represent an unbounded medium in a dynamic analysis is presented. In principle, it is a conjunction of the boundary element method (BEM) in the frequency domain to reproduce the far-field and the finite element method (FEM) in the time domain to analyze the near-field. This alternative procedure avoids the introduction of any artificial boundaries. The procedure is based on a rational approximation of the dynamic stiffness of the unbounded domain in the frequency-domain. In this report, the dynamic stiffness of the unbounded domain is obtained from the BEM. The matrix-valued coefficients of the rational approximation function are determined by means of a least-square procedure. The time-domain representation is achieved by splitting the rational force-displacement relation into a series of linear functions in the frequency-domain corresponding with first order differential equations in the time-domain. This splitting process has been demonstrated as numerically effective and in addition, no Fourier transformation is necessary. In this thesis, dynamic soil-structure interaction problems with a relatively large number of degrees of freedom have been examined. These degrees of freedom arise from the discretization of the coupling interface, internal variables from the splitting procedure and from modeling the structure. The new method is especially suitable for systems with transient excitations as arising from rotating machines at startup and shutdown. The theoretical part of the thesis contains elements of system theory and discusses particularly stability problems arising from the rational approximation. The practical part presents a large amount of convergence studies and numerical results for layered soil and finally represents the propagation damping as a kind of damping ratio which is typically used in elementary structural dynamics. / In der Dynamik der Boden-Bauwerk-Interaktion wird der Boden in vielen Fällen durch ein unbegrenztes elastisches Medium beschrieben, wodurch das Phänomen der Abstrahldämpfung begründet wird. Diese Dämpfung entsteht durch Energietransfer von der erregten Struktur in den Boden durch Wellenausbreitung und reduziert somit die Strukturschwingungen. Um das infinite Bodengebiet dennoch durch finite Elemente beschreiben zu können, werden üblicherweise als Hilfsmaßnahme künstliche sogenannte absorbierende Ränder eingeführt. In dieser Arbeit wird eine alternative Methode zur Darstellung des unbegrenzten Mediums in der Dynamik vorgelegt. Im Prinzip handelt es sich um eine Kopplung der Rand-Element-Methode (REM) für den unendlichen Boden (das sogenannte Fernfeld) im Frequenzbereich und der Finite-Element-Methode (FEM) für das Nahfeld im Zeitbereich. Dieses alternative Verfahren vermeidet die Einführung künstlicher Ränder. Das Verfahren basiert auf einer rationalen Beschreibung der dynamischen Steifigkeit des Fernfeldes im Frequenzbereich. Diese Steifigkeit wird in der vorliegenden Arbeit durch die Rand-Element-Methode erzeugt. Die Matrix-wertigen Koeffizienten der rationalen Frequenzfunktion werden durch Minimierung des Fehlerquadrates berechnet. Die Transformation dieser Frequenzdarstellung in den Zeitbereich gelingt durch algebraische Überführung der rationalen Funktion in ein in der Frequenz lineares Hypersystem mit einer zugeordneten Zustandsgleichung erste Ordnung im Zeitbereich. Dieser Prozess hat sich als numerisch effektiv erwiesen und erfordert darüberhinaus keine Fourier-Transformation. Das entwickelte Vorgehen wird in dieser Arbeit an Problemen der dynamischen Boden-Bauwerk-Interaktion mit einer großen Anzahl von Freiheitsgraden erprobt. Diese Freiheitsgrade folgen aus der Diskretisierung in der Koppelfuge zwischen Boden und Struktur, der Diskretisierung der Struktur selbst und aus der Überführung in das Hypersystem mittels interner Variablen. Das neue Verfahren eignet sich insbesondere für Systeme mit transienter Erregung, wie sie beim An- und Auslaufen von Rotationsmaschinen ensteht. Der theoretische Teil der Arbeit wird geprägt durch Elemente der Systemtheorie und setzt sich zudem mit typischen Stabilitätsproblemen auseinander, die aus der rationalen Beschreibung entstehen. Der praktische Teil präsentiert Konvergenzstudien und numerische Ergebnisse für Boden-Bauwerk- Interaktionsprobleme mit geschichtetem Boden bei transienter Erregung mit Resonanzdurchlauf. Zudem gelingt eine Darstellung der Abstrahldämpfung in Form des Dämpfungsgrades D, wie er in der klassischen Strukturdynamik verwendet wird.

info:eu-repo/classification/ddc/690

ddc:690

Soil-structure interaction of end-frames for high-speed railway bridges / Jord-struktur-interaktion av ändskärmar på broar för höghastighetståg

Östlund, Johan

January 2016

In this thesis, the influence of soil-structure interaction (SSI) of end-frame bridges for high-speed railways was studied. Impedance functions, representing the SSI, was calculated and analyzed. The impedance functions were applied to end-frame bridge models which were analyzed for use in HSR. A new high-speed railway link is currently being planned in Sweden by the Swedish Transport Administration (Trafikverket). \textit{Ostl\"{a}nken} is planned to run between the cities of Stockholm and Link\"{o}ping with a maximum speed limit of 320km/h. As high-speed traffic induces high dynamic impact on bridges, dynamic analysis to ensure safety and passenger comfort is needed according to Eurocode. Thus, there is a demand of dynamically safe bridges that are also cost-effective. One cost-effective bridge is the soil integrated end-frame bridge, however, there are no design advice in Eurocode today on how to take SSI into consideration. The aim of the thesis has therefore been to investigate if the influence of SSI on end-frame bridges for HSR. This thesis was executed using the frequency domain approach to solve dynamic problems in finite element software. Furthermore, impedance functions have been obtained representing the SSI. Impedance functions take dynamic stiffness and dynamic damping into consideration where the damping consists of two parts: material damping and radiation damping due to energy dissipation in the form of elastic waves. To limit the model size, an absorbing region (AR) was used to mitigate waves originating from the source. The accuracy of impedance functions is dependent on several parameters and demands a great computational capacity to reach, mostly governed by the radiation condition. A parameter study of impedance functions was conducted, including parameters such as geometry, modulus of soil and detail levels. The impedance functions were then attached to bridge models on which trains modelled as moving point loads were applied. Envelopes of the acceleration and displacements have been presented and analyzed. Shear strain checks were made in order to verify the assumption of linear-elastic material behavior of the embankment. By using SSI in form of impedance functions attached to bridge models, numerical results show a great reduction of vibrations in models. The study suggests that a large end-frame, either long or high or both, may reduce acceleration as well as displacements. A stiffer embankment material may further reduce vibrations. Shear strain checks confirm that the assumption of linear-elastic soil behavior was true. / I det här exjobbet har påverkan av jord-struktur interaktion (soil-structure interaction - SSI) av ändskärmsbroar för höghastighetsbana blivit studerat. Impedansfunktioner som representerar SSI har beräknats och analyserats. Impdansfunktionerna har sedan applicerats på bromodeller och analyserats för höghastighetstrafik. Sveriges första höghastighetsbana håller just nu på att planeras av Trafikverket. Ostlänken kommer att bli den första delen och är planerad att gå från Stockholm till Linköping med en högsta hastighet av 320 km/h. Då höghastighetstrafik introducerar stor dynamisk på verkan på broar behövs dynamisk analys genomföras enligt Eurocode för att kunna säkerställa broarnas säkerhet och komfortkrav. Därför finns idag ett behov av dynamiskt säkra broar som också är kostnadseffektiva. En typ av kostnadseffektiv bro är den med jord integrerade ändskärmsbron. I dagens Eurocode finns dock inga konstruktionsråd vad gäller jord-struktur interaktion av ändskärmarna. Målet med detta examensarbete har därför varit att undersöka påverkan av SSI och besluta huruvida användandet av ändskärmsbron på höghastighetsbanor är legitimerat, eller om den ska undvikas. Det här examensarbetet har utgått från att lösa dynamiska problem i frekvensdomänen med hjälp av FEM. Impedansfunktioner som representerar jord-struktur interaktionen har tagits fram. Impedansfunktioner tar dels hänsyn till dynamisk styvhet och dels dynamisk dämpning. Den dynamiska dämpningen består av två delar; den första är materialdämpning och den andra är vågdämpning där energi dissiperar i vågform. För att begränsa FE modellens storlek har en absorbing region tillämpats för att absorbera vågorna vid randen. Impedansfunktionernas konvergens beror på flertalet parametrar och kräver en hög datakapacitet för att fås, mestadels beroende av radiatorvillkoret. En parameterstudie utfördes för att kunna analysera sensitiviteten hos impedansfunktionerna. Vidare applicerades dessa impedansfunktioner på skal- och balk-bromodeller på vilka HSLM laster påfördes. Skjuvtöjningskontroller gjordes för att verifiera att antagandet om linjärelastiskt materialbeteende var korrekt. Genom att ta hänsyn till SSI i form av impedansfunktioner tyder numeriska resultat på att vibrationer kan reduceras i hög grad. Envelopper visar att en stor ändskärm, antingen lång, hög eller bådadera, kan reducera accelerationer liksom förskjutningar. En styvare bank kan ytterligare reducera vibrationer.

Dynamics

SSI

Soil-structure interaction

Soil-bridge interaction

HSR

High-speed railway

Impedance

Receptance

End-frame bridge

Dynamik

SSI

Jord-struktur interaktion

Jord-bro interaktion

HSR

Höghastighetsbana

Höghastighetståg

Impedans

Receptans

Ändskärmsbro

Infrastructure Engineering

Infrastrukturteknik