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1	パイルド・ラフト基礎が設置された地盤の水～土連成弾塑性変形解析 TAKAINE, Toshihiro, 水野, 和憲, MIZUNO, Kazunori, 大野, 雅幸, OHNO, Masayuki, 野田, 利弘, NODA, Toshihiro, 山田, 英司, YAMADA, Eiji, 高稲, 敏浩 09 1900 (has links) No description available. Cam-clay model constraint condition finite element method piled raft settlement soil-water coupled system
2	SOIL-WATER COUPLED FINITE DEFORMATION ANALYSIS BASED ON A RATE-TYPE EQUATION OF MOTION INCORPORATING THE SYS CAM-CLAY MODEL NAKANO, MASAKI, ASAOKA, AKIRA, NODA, TOSHIHIRO 12 1900 (has links) No description available. (SYS Cam-clay model) (soil-water coupled analysis) liquefaction (finite deformation theory) (dynamic static) compaction
3	Modélisation thermomécanique d'un creuset de haut fourneau / Thermomechanical modelling of a blast furnace hearth Brulin, Jérôme 25 November 2010 (has links) Le creuset est une structure majoritairement composée de matériaux réfractaires destinés à supporter de fortes sollicitations thermomécaniques, dues au contact direct de ses parois internes avec la fonte à 1500°C. L’objectif de cette thèse est de développer un modèle thermomécanique de creuset capable de localiser les zones sensibles de la structure et d’estimer les contraintes. Des blocs de carbone, des structures maçonnées (briques avec mortier) et un pisé carboné sont les principaux constituants du creuset. Afin d’identifier leur comportement, des essais de caractérisation ont été développés pour des températures atteignant les 1500°C. Un modèle de type Cam-Clay modifié est proposé pour modéliser le comportement compactant du pisé. L’influence de la température et des fortes pressions est prise en compte. Une bonne corrélation est obtenue entre les résultats expérimentaux et numériques. Les structures maçonnées, en contact direct avec la fonte, sont fortement sollicitées, ce qui peut conduire à l’ouverture des joints de mortier. La modélisation proposée pour ces structures est basée sur une approche micro-macro où les briques et le mortier sont remplacés par un matériau homogène équivalent, et ce pour différents états d’ouverture de joints. La non-linéarité du comportement est reproduite grâce à un critère d’ouverture en contrainte, qui permet le passage d’un état à un autre. Les propriétés homogénéisées sont obtenues par homogénéisation périodique en s’appuyant sur une approche énergétique. La modélisation d’un essai de la littérature permet la validation du modèle. La modélisation finale du creuset est confrontée aux résultats de l’instrumentation d’un creuset. Une bonne concordance entre ces résultats est obtenue. / The blast furnace hearth is mainly composed of refractory materials to support strong thermo-mechanical loads. Indeed, there is a direct contact between its internal walls and the molten pig iron at 1500°C. The objective of this thesis is to develop a thermo-mechanical model able to locate the sensitive areas and to estimate the stress fields. Carbon blocks, masonries (bricks and mortars) and a carbon ramming mix are the main constituents of the hearth. In order to identify their behaviours, characterization tests have been developed for temperatures up to 1500°C. A modified Cam-Clay model is proposed in order to reproduce the hardening behaviour of the ramming mix. The influences of temperature and pressure are taken into account. Experimental and numerical results are in good agreement. Masonries, submitted to high temperature gradients are highly stressed, which can lead to the opening of the mortar joints. The proposed masonry modelling is based on a micro-macro approach where bricks and mortars are replaced by an equivalent homogenous material for different joint states. The non-linearity of the behaviour is reproduced thanks to a stress criterion, allowing the transition from one state to another. Homogenized properties are obtained by periodic homogenization with an energetic approach. The modeling of a shear test available in the literature allows the validation of this model. The final modelling of a hearth is compared with in-situ instrumentation results. A good agreement is reached between these results. Creuset de haut fourneau Modèle de Cam-Clay Homogénéisation Blast furnace hearth Cam-Clay model Homogenization
4	Numerical Analysis Of Large Size Horizontal Strip Anchors Krishna, Y S R 07 1900 (has links) Structures like transmission towers, tele-communication masts, dry-docks, tall chimneys, tunnels and burried pipelines under water etc are subjected to considerable uplift forces. The net effect of external loading on the foundations of these structures results in forces that try to pull the foundations out of the ground. Anchors are usually provided to resist such uplift forces. Earlier theoretical research of anchor behavior has focused on elastic response and ultimate pullout capacity. Many investigators have proposed techniques for determining the collapse load of anchors. Essentially the approaches involve the use of limit equilibrium concepts, with some assumptions regarding the shape of the failure surface and/or the influence of the soil above the anchor. The possible effect of dilatency and initial stress state are not considered in these methods. A number of investigators have used the results of small size model anchors to understand the behavior and extrapolated the results for predicting the behavior of large sized anchors. This has lead to unsatisfactory results. It has been clearly shown by Dickin (1989) that the failure displacements and load displacement curve patterns are very different for small and large sized anchors, i.e. they are not just proportional to the size of the anchor. Critical pullout load and the load displacement behavior are required for the complete analysis of anchor foundations. Though, many theories have been proposed to predict the uplift capacity within the limits of accuracy required at engineering level, at present no simple rational method is available for computing deformations. In the present investigation attempts have been made to analyze the load deformation behavior of large size strip anchors in sands, clays and layered soils using two-dimensional explicit finite difference program FLAG (Fast Lagrangian Analysis of Continua), well suited for geomaterials, by assuming soil to be a Mohr-Coulomb material in the case of sands and modified Cam-clay material in the case of clays. It is now well understood that the shearing resistance of a granular soil mass is derived from two factors frictional resistance and the dilatency of the soil. So the peak friction angle can be divided in to two components critical friction angle Фcv and dilation angle Ψ. Critical friction angle is the true friction angle as a result of frictional resistance at interparticle level when the soil is shearing at constant volume. If Фcv for a given soil remains constant, the value of Ψ has to increase with the increase in initial density of soil packing. The dilatency of a soil mass gradually decreases with continued shearing from its initial high value to zero after very large shear strains, when the soil finally reaches a constant, steady volume at critical states. Correspondingly the observed friction angle Ф reduces from its peak value to Фcv at a very large strain. In earlier days, clays used to be characterized by the strength parameters c and Ф. often, under undrained conditions, Ф would be even considered zero. But in the recent developments, it is understood that all the strength of clays is frictional. There is nothing like cohesion. The part of shear strength, which appears to be independent of normal stress, is shown to be the effect of over-consolidation and the resulting dilation. Thus although Cam-clay model uses zero cohesion for all clays, it reflects this component of strength through over-consolidation and in a more realistic way. Hence, it is appropriate to consider the pre-consolidation pressure as parameter in the analysis. More specifically, the various aspects covered in this investigation are as follows. Chapter 1 provides the general introduction. In chapter 2, the existing literature for the analysis of anchors for both experimental and analytical investigations on the pullout capacity of anchors in homogeneous and layered soils and the load deformation behavior of anchors under pullout are briefly reviewed. Chapter 3 deals with the features and the implementation of the two-dimensional explicit finite difference program, Fast Lagrangian Analysis of Continua (FLAC) and the constitutive modeling of soils. It discusses the background and implementation of Strain softening / hardening model. This model is based on the Mohr- Coulomb model with non-associated shear and associated tension flow rules. In this model the cohesion, friction, dilation and tensile strength may harden or soften after the onset of the plastic yield. Further the critical state concepts and implementation of the modified Cam-clay model have been discussed. Cam-clay model originally developed for clays reflects the hydrostatic pressure or density dependent hardening material response. Chapter 4 focuses on the analysis of load deformation behavior of large size anchors in granular soils. Two-dimensional explicit finite difference program (FLAC) is used for the simulations and the soil is modeled as a Mohr-Coulomb strain softening/hardening material In this chapter a series of simulations have been carried out on large size anchor plates, with parametric variation. By analyzing these results, a generalized load deformation relationship for different sizes of anchors and different types of soil have been proposed. The results are presented in the form of influence/design charts which can be used in hand calculations to obtain an estimate of anchor capacity and deformation for a wide range of soil types and size of anchors. Chapter 5 deals with the analysis of the drained and undrained behavior of large size horizontal strip anchors in clays using modified Cam-clay model. Earlier investigators have studied the undrained behavior of anchor plates in clays, but no studies are reported in literature for the drained behavior of anchors in clays. Further it is not clear whether, drained or undrained condition will be critical for an anchor. In this chapter the drained and undrained behavior of large size anchor plates in both normally consolidated and over-consolidated states have been made. It has been found that the undrained pullout capacity of an anchor in a soil of normally consolidated state will always be more than the drained capacity. This is contrast to the usual understanding that undrained behavior is more critical than the drained behavior. In Chapter 6 an attempt has been made to analyze the behavior of large size anchors in two layered sands and in conditions where backfill material has a higher or lower strength than the native soil, for different shape of excavations. Soil is assumed to be a Mohr-coulomb strain softening/hardening material. In Chapter 7 the entire investigation covered in earlier chapters has been synthesized and some specific conclusions have been highlighted. Structural Engineering Anchors Anchorage Cam-Clay Model Mohr-Coulomb Model FLAC Fast Lagrangian Analysis of Continua Soils - Constitutive Modeling
5	沈下低減と荷重分担に着目したパイルドラフト敷設地盤の変形解析野田, 利弘, NODA, Toshihiro, 田代, むつみ, TASHIRO, Mutsumi, 高稲, 敏浩, TAKAINE, Toshihiro, 浅岡, 顕, ASAOKA, Akira 09 1900 (has links) No description available. piled raft SYS Cam-clay model soil-water copuled analysis finite element method settlement reduction load sharing ratio
6	水～土連成計算を用いた砂杭拡径による砂地盤の締固めメカニズムの一考察 TAKAGI, Kenji, 野津, 光夫, NOZU, Mitsuo, 野田, 利弘, NODA, Toshihiro, 高稲, 敏浩, TAKAINE, Toshihiro, 高木, 健次 06 1900 (has links) No description available. cam-clay model finite element method liquefaction comparatively dense sand soil improvement sand compaction pile soil-water coupled system subloading yield surface concept
7	Aplicação do modelo cam-clay modificado a um solo arenoso / Application of the modified cam-clay model to a sandy soil Paulo César Lodi 24 April 1998 (has links) O modelo cam-clay modificado foi aplicado aos resultados experimentais obtidos para um solo arenoso típico da cidade de São Carlos. Os ensaios de compressão triaxial foram conduzidos em equipamento moderno, com instrumentação interna, segundo distintas trajetórias de carregamento. Verificou-se que os resultados obtidos em termos de modelagem foram satisfatórios, principalmente quando a tensão octaédrica (p\') foi diminuida durante os carregamentos. Nesse caso, tanto em termos de modelagem como de resultados experimentais, houve expansão de volume do solo. Com o aumento da tensão octaédrica, verificou-se a ocorrência de compressão volumétrica do solo. Observou-se que o modelo apresenta uma previsão de deformações axiais maiores do que as observadas experimentalmente nas trajetórias de -30, -50, 30, 40, 50, 60, 120 graus e no ensaio triaxial convencional com \'sigma\' 3 = 100 kPa. Além disso, determinou-se a superfície inicial de plastificação do solo utilizando-se dois critérios que tenderam a fornecer valores de tensão de cedência aproximadamente iguais, notando-se que a condição de fluxo associado não é obedecida. / The modified cam-clay model was used to model experimental results of a sandy soil from São Carlos - SP. Triaxial compression tests were performed using Bishop - Wesley cell with internal transducers to measure axial and radial strains. It was observed that the model fairly fitted experimental results, specially when medium effective stress (p\') is reduced during loading. In this case, both the model and the experimental results, showed volume increase. When (p\') increases the model and the tests showed a tendency to give volumetric compression, although the values were differents. The model yielded strains larger than that measured in the tests when the stress-paths were of -30, -50, 30, 40, 50, 60, 120 degrees and in axial compression test with 100 kPa of confining pressure. Besides that, initial yield surface of soil was calculated from test results using two different criteria which gave about the same yield stress and it is show that normality rule was not satisfied in this soil. Ensaios de laboratório Modelo cam-clay Plastificação Trajetórias de tensões Cam-clay model Critical state soil mechanics Laboratory tests Stress-paths Yielding
8	Aplicação do modelo cam-clay modificado a um solo arenoso / Application of the modified cam-clay model to a sandy soil Lodi, Paulo César 24 April 1998 (has links) O modelo cam-clay modificado foi aplicado aos resultados experimentais obtidos para um solo arenoso típico da cidade de São Carlos. Os ensaios de compressão triaxial foram conduzidos em equipamento moderno, com instrumentação interna, segundo distintas trajetórias de carregamento. Verificou-se que os resultados obtidos em termos de modelagem foram satisfatórios, principalmente quando a tensão octaédrica (p\') foi diminuida durante os carregamentos. Nesse caso, tanto em termos de modelagem como de resultados experimentais, houve expansão de volume do solo. Com o aumento da tensão octaédrica, verificou-se a ocorrência de compressão volumétrica do solo. Observou-se que o modelo apresenta uma previsão de deformações axiais maiores do que as observadas experimentalmente nas trajetórias de -30, -50, 30, 40, 50, 60, 120 graus e no ensaio triaxial convencional com \'sigma\' 3 = 100 kPa. Além disso, determinou-se a superfície inicial de plastificação do solo utilizando-se dois critérios que tenderam a fornecer valores de tensão de cedência aproximadamente iguais, notando-se que a condição de fluxo associado não é obedecida. / The modified cam-clay model was used to model experimental results of a sandy soil from São Carlos - SP. Triaxial compression tests were performed using Bishop - Wesley cell with internal transducers to measure axial and radial strains. It was observed that the model fairly fitted experimental results, specially when medium effective stress (p\') is reduced during loading. In this case, both the model and the experimental results, showed volume increase. When (p\') increases the model and the tests showed a tendency to give volumetric compression, although the values were differents. The model yielded strains larger than that measured in the tests when the stress-paths were of -30, -50, 30, 40, 50, 60, 120 degrees and in axial compression test with 100 kPa of confining pressure. Besides that, initial yield surface of soil was calculated from test results using two different criteria which gave about the same yield stress and it is show that normality rule was not satisfied in this soil. Cam-clay model Critical state soil mechanics Ensaios de laboratório Laboratory tests Modelo cam-clay Plastificação Stress-paths Trajetórias de tensões Yielding
9	[en] ANALYTICAL MODELING OF DEFORMATION BANDS GENERATION IN SANDSTONE RESERVOIRS / [pt] MODELAGEM ANALÍTICA DA GERAÇÃO DE BANDAS DE DEFORMAÇÃO EM RESERVATÓRIOS ARENÍTICOS LEANDRO GUEDES CARVALHO 12 August 2021 (has links) [pt] A predição da permeabilidade é uma etapa crítica no fluxo de caracterização e modelagem geológica de reservatórios e essencial para o desenvolvimento de projetos de produção. Estruturas subsísmicas denominadas bandas de deformação (BD) podem diminuir a permeabilidade em até seis ordens de grandeza em relação à rocha matriz de reservatórios areníticos e podem, dessa forma, atuar como barreiras totais ou parciais ao fluxo de fluidos. O presente trabalho pretende contribuir na determinação do comportamento hidráulico de reservatórios propondo um modelo geomecânico analítico para a predição de BD em reservatórios de arenitos. Em termos práticos, o objetivo é prever se em uma determinada porção de um depósito siliciclástico de hidrocarboneto foram atingidas condições para a formação de BD, ou quão próximo se está de uma possível geração dessa feição a fim de se sugerir uma análise da redução de permeabilidade. A proposta se estende na implementação computacional do método e sua aplicação em um estudo de caso de um reservatório arenítico pouco consolidado da margem continental brasileira rico em BD. Os resultados confirmaram a viabilidade do método mostrando que a porção do reservatório analisada atingiu as condições mecânicas para a gênese de BD a partir da idade geológica intitulada de Oligoceno (~ 23 a 35 Ma) para os cenários estabelecidos. / [en] The permeability prediction is a critical step in the flow of geological modeling and reservoir characterization and is essential for the development of production projects. Sub-seismic structures called deformation bands (BD) can reduce permeability up to six orders of magnitude in relation to the host reservoir sandstone and can thus act as total or partial barriers to the fluid flow. The present work intends to contribute in the determination of the hydraulic behavior of reservoirs proposing an analytical geomechanical model for BD s prediction in sandstone reservoirs. In practical terms, the objective is to predict whether the conditions in a given portion of a siliciclastic hydrocarbon deposit have been reached for the localization of BD or how close it is to a possible generation of this feature in order to suggest an analysis of the permeability reduction. The proposal extends to the computational implementation of the method and its application in a case study of a poorly consolidated sandstone reservoir on the brazilian continental margin, rich in BD. The results confirmed the viability of the method by showing that the portion of the analyzed reservoir reached the mechanical conditions for the genesis of BD from the geological age entitled Oligocene (~ 23 to 35 Ma) for the established scenarios. [pt] PERMEABILIDADE [pt] PALEOMODELO GEOMECANICO [pt] TRAJETORIA DE TENSOES [pt] BANDAS DE DEFORMACAO [pt] MODELO CAM CLAY MODIFICADO [en] PERMEABILITY [en] GEOMECHANICS PALEOMODEL [en] STRESS PATH [en] DEFORMATION BANDS [en] MODIFIED CAM CLAY MODEL

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