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111	Morphological and stent design risks factors to prevent migration phenomena and type 1a endoleak for a thoracic aneurysm : A numerical analysis / Analyse du design et de la morphologie des stents pour la prévention des risques de migration et d'endofuite de type 1a : Une étude numérique pour l'anévrisme de l'aorte thoracique Altnji, Sam 02 June 2014 (has links) Le traitement endovasculaire des anévrismes de l’aorte (Endovascular Aneurysm Repair ou EVAR) est une chirurgie mini-invasive qui consiste à faire glisser une endoprothèse par voie fémorale jusqu’au niveau de l’anévrisme afin de re-canaliser le flux sanguin. Les principales complications qui peuvent survenir sont les phénomènes de migration et d’endofuites (écoulement persistant de sang dans le sac anévrismal) de type Ia. Ces phénomènes apparaissent lorsque l’étanchéité n’est plus assurée entre l’extrémité proximale de l’endoprothèse et le vaisseau sanguin. Dans ce travail, des simulations paramétrées de déploiement complet d’un système de pose de stent ont été développées en utilisant la Méthode des Éléments Finis (FEM) afin d’étudier la stabilité du contact lors du largage d’une endoprothèse en nitinol dans un Anévrisme de l’Aorte Thoracique (AAT) réaliste. Les facteurs suivants associés à ces complications ont été étudiés : (1) la longueur de la zone de fixation proximale (PASL), (2) la valeur de surdimensionnement ou « oversizing » du stent (O %), (3) la valeur du coefficient de frottement entre le stent et l’aorte (µ) et (4) l’angulation du collet proximal. L’influence de la présence de calcifications sur le comportement biomécanique de l’endoprothèse lors de son déploiement dans les zones de fixation a également été analysée. Les résultats des simulations ont montré qu’une PASL supérieure à 18 mm est un facteur décisif pour éviter la migration de l’endoprothèse pour une angulation du collet de l’anévrisme de 60° et dans des conditions de contact glissant (µ=0,05). L’augmentation de la valeur de l’oversizing de 10 % à 20 % améliore la résistance de la fixation de la prothèse. En revanche, un oversizing supérieur à 25 % pour une angulation du collet de 60° entraine des déformations excentriques ainsi que la ruine du stent. D’autre part, aucune migration n’a été observée dans un modèle d’aorte idéalisé où l’angulation du collet était de 0°, la PASL de 18 mm et le coefficient de frottement µ de 0,05. Afin d’améliorer le contact et de prévenir l’apparition de phénomènes de migration et d’endofuite de type Ia chez des patients présentant une aorte tortueuse et calcifiée avec un anévrisme fortement angulé, un nouveau design de stent a été proposé, basé sur les résultats des simulations numériques effectuées. La principale difficulté était de trouver un compromis entre flexibilité et raideur. Les résultats des simulations réalisées avec ce nouveau stent ont montré une amélioration de la stabilité de contact, ce qui a pour effet de limiter l’apparition des phénomènes de migration et donc de réduire les complications liées à la procédure endovasculaire. / The main mechanical related problems of endovascular aneurysm repair are migration and endoleak type Ia. They occur when there is no effective seal between the proximal end of stent-graft and the vessel. In this work, we have developed parameterized-deployment simulations of a complete stenting system using finite element method (FEM) to investigate the contact stiffness of a nitinol stent in a realistic Thoracic Aortic Aneurysm (TAA). Therefore, the following factors associated with these complications have evaluated: (1) Proximal Attachment Site Length (PASL), (2) stent Oversizing value (O %), (3) different contact friction situations (stent/aorta) and (4) proximal neck angulation. The calcification impact on the biomechanical behaviour of the deployment at the attachment zone has also been investigated. The simulation results showed that PASL>18mm was a crucial factor to prevent migration at a neck angle of 60⁰and smoothest contact condition (μ=0.05). The increase in (O %) ranging from 10% to 20% improved the fixation strength; however, O % ≥ 25% at 60° caused eccentric deformation and stent collapse. No migration was reported in an idealized aorta model with a neck angle of 0⁰, PASL=18mm and μ=0.05. The numerical observations are used as a guide to optimize the stent design in such neck morphology to strengthen the contact and prevent migration or endoleak type Ia. The optimized stent results showed better contact stability to resist the migration. They also showed a good compromise of stent design requirements (flexibility and stiffness). Moreover, the new design can also prevent the risk of folding or collapse of stent struts by mitigating the energy of eccentric deformation caused by high angulation and oversizing. Biosciences Biomécanique Anévrisme aortique Stent auto-Déployable Migration Conception de stent Modélisation par éléments finis - FEM Bioscience Biomechanics Aortic aneurysm Self-Expanding stent Migration Stent design FEM - Finite Element Modelling 571.407 2
112	Approche expérimentale et modélisation du comportement au feu d'assemblages bois sous différents types de solliciations Audebert, Maxime 10 December 2010 (has links) La connaissance du comportement au feu des structures est primordiale pour la maîtrise des risques en situation d’incendie. Pour le bois, matériau combustible, des travaux expérimentaux et de simulations numériques ont montré que ce matériau avait un comportement intéressant en situation d’incendie, car il se consume de façon maîtrisable. Cependant, ces travaux restent limités au regard de la complexité du comportement du matériau, des composants et des assemblages à base de bois. L’étude de la stabilité au feu des structures bois nécessite la connaissance de l’évolution des caractéristiques mécaniques et thermiques des liaisons (résistance et rigidité) dont dépend le comportement mécanique des structures. Pour une meilleure compréhension du fonctionnement mécanique des assemblages en situation d’incendie, la mise en place de modèles numériques, validés par essais, est nécessaire. Dans cette étude, l’objectif est d’utiliser un modèle numérique le plus précis possible afin de définir des méthodes simplifiées de calcul d’assemblages, facilement utilisables par les professionnels. Les résultats d’essais réalisés sur les assemblages bois-bois et bois-métal servant de base à la validation des modèles du comportement thermomécanique sont présentés. Il s’agit d’essais de traction longitudinale, transversale et d’essais de flexion sous conditions normales et sous actions thermiques normalisées. L’étude thermomécanique des assemblages est effectuée à partir de deux maillages tridimensionnels différents pour les calculs thermique et mécanique. Pour le modèle mécanique, les discontinuités sont prises en compte à travers des éléments de contact aux interfaces des pièces assemblées. Pour le calcul thermique, le maillage est continu et la résistance due au contact entre les éléments est ainsi négligée. Les modèles mécaniques et thermiques sont validés sur la base des résultats expérimentaux (courbes force-glissement et températures). Le modèle mécanique permet par ailleurs d’analyser la distribution des contraintes au sein des assemblages et d’évaluer l’influence de différents critères élasto-plastiques ou de rupture représentant le comportement mécanique du bois. Enfin, le modèle thermomécanique, a permis de simuler le comportement des assemblages testés en situation d’incendie. Le résultat utilisé pour valider le modèle thermomécanique est la durée de résistance au feu de l’assemblage. Cette durée est définie à l’aide des courbes glissement-temps obtenues par le modèle numérique. De bons résultats sont obtenus pour la prédiction des temps de rupture. L’évolution de la distribution des efforts sur les différents organes en fonction de la durée d’exposition au feu est aussi présentée. Ainsi, le modèle développé dans ce travail permet de bien représenter le comportement thermomécanique des assemblages étudiés. Il représente aussi un outil intéressant pour analyser le comportement au feu d’assemblages constitués de plusieurs organes métalliques. Il permet de servir de base pour développer une approche multiparamètre basée sur des plans d’expérience numérique. Ces travaux permettront de proposer des méthodes de dimensionnement simples, validés par les modèles numériques, et utilisables par les praticiens de la construction. / The knowledge of the behavior of structures under fire conditions is essential to control the risks during a fire. As timber is a combustible material, fire safety is of main importance for the development of its use in buildings. Although experimental and numerical studies exist in the literature, their number still limited regarding the variety of the configurations and the complexity of the mechanical behavior of the connections. Among the various structural components, the joints are characterized by a complex thermomechanical behavior due mainly to the geometrical configuration combining various materials (steel and timber). They govern the load-carrying capacity of the structure and its safety, as well in normal conditions as in fire situation. Due to their complex geometrical, physical and material configurations, the behavior of the connections in fire is one of the more difficult to predict. The development of generalized models requires the combination of research based both on the experimental results given by full scale tests and the development of sophisticated numerical models validated on these tests.The experimental results of tests realized on timber-to-timber and steel-to-timber connections used as a basis for the validation of the numerical models are presented. They concern tests of longitudinal and transversal tension and flexion under normal conditions and under standardized thermal actions. The thermomechanical analysis of the connections is made from two different three-dimensional meshings for the thermal and mechanical calculations. The thermal model is continuous to take account of the thermal continuity between the joint components. The mechanical model is discontinuous to consider the contact evolution between the joint components. The thermal model isused to predict the evolution of the temperature field inside the joint depending on the gas temperature. It is validated on the basis of measured temperatures during fire tests. The mechanical model is validated by comparison with the experimental results of joints in normal conditions. It allows the analysis of the distribution of stresses within the joints. The influence of various criteria to represent the mechanical behavior of timber is also studied. Finally, the thermomechanical model, based on previous both models, allowed to predict the behaviorof the tested connections in fire situation. The thermo-mechanical model is validated considering the fire resistance duration of some joints. This duration is defined by means of displacement-time curves obtained by the numerical model. The models showed a good capacity to simulate the failure times of the timber joints in fire situations. The application of the model gave the possibility to analyse the load distribution among the fasteners of the studied joints.The model developed in this work represents well the thermomechanical behavior of the tested connections. These developed and tested models can be used as general tool to analyze the behavior of a large variety of joint configurations to constitute a data base that can be used in safe and economic practice of fire engineering of wood joints. Assemblages bois Essais au feu Traction longitudinale Traction transversale Modélisation numérique Champs thermiques Comportement thermomécanique Résistance au feu Timber joints Experimental study Longitudinal tension Transversal tension Finite element modelling Thermal model Thermo-mechanical model Fire résistance
113	Análise dinâmica e controle de vibrações de passarelas de pedestres submetidas ao caminhar humano. / Dynamic analysis and vibration control of pedestrian footbridges subjected to human walking. Joesley Pereira Mendes 29 May 2014 (has links) Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / Passarelas de pedestres mistas (aço-concreto) e de aço são frequentemente submetidas a ações dinâmicas de magnitude variável, devido à travessia de pedestres sobre a laje de concreto. Estas ações dinâmicas podem produzir vibrações excessivas e dependendo de sua magnitude e intensidade, estes efeitos adversos podem comprometer a confiabilidade e a resposta do sistema estrutural e, também, podem levar a uma redução da expectativa de vida útil da passarela. Por outro lado, a experiência e o conhecimento dos engenheiros estruturais em conjunto com o uso de novos materiais e tecnologias construtivas têm produzido projetos de passarelas mistas (aço-concreto) bastante arrojados. Uma consequência direta desta tendência de projeto é um aumento considerável das vibrações estruturais. Com base neste cenário, esta dissertação visa investigar o comportamento dinâmico de três passarelas de pedestres mistas (aço-concreto) localizadas no Rio de Janeiro, submetidas ao caminhar humano. Estes sistemas estruturais são constituídos por uma estrutura principal de aço e laje em concreto e são destinados à travessia de pedestres. Deste modo, foram desenvolvidos modelos numérico-computacionais, adotando-se as técnicas tradicionais de refinamento presentes em simulações do método de elementos finitos, com base no uso do software ANSYS. Estes modelos numéricos permitiram uma completa avaliação dinâmica das passarelas investigadas, especialmente em termos de conforto humano. As respostas dinâmicas foram obtidas em termos de acelerações de pico e comparadas com valores limites propostas por diversos autores e normas de projeto. Os valores de aceleração de pico e aceleração rms encontrados na presente investigação indicaram que as passarelas analisadas apresentaram problemas relacionados com o conforto humano. Assim sendo, considerando-se que foi detectado que estas estruturas poderiam atingir níveis elevados de vibração que possam vir a comprometer o conforto dos usuários, foi verificado que uma estratégia para o controle estrutural era necessária, a fim de reduzir as vibrações excessivas nas passarelas. Finalmente, uma investigação foi realizada com base em alternativas de controle estrutural objetivando atenuar vibrações excessivas, a partir do emprego de sistemas de atenuadores dinâmicos sintonizados (ADS). / Steel and steel-concrete composite pedestrian footbridges are frequently subjected to dynamic actions with variable magnitudes due to the pedestrian crossing on the concrete deck. These dynamic actions can produce excessive vibrations and depending on their magnitude and intensity, these adverse effects can compromise the structural systems response and its reliability and may also lead to a reduction of the expected footbridge service life. The structural engineers experience and knowledge together with the use of newly developed materials and technologies have produced steel-concrete composite daring footbridges. A direct consequence of this design trend is a considerable increase of structural vibrations. Based on this scenario, this dissertation aims to investigate the dynamic behaviour of three steel-concrete composite pedestrian footbridge submitted to human walking vibration, located at Rio de Janeiro. These structural systems are composed by steel structure and a concrete slab and are destined for pedestrian crossing. Computational models were developed adopting the usual mesh refinement techniques present in finite element method simulations using ANSYS software. These numerical models have enabled a complete dynamic evaluation of the investigated footbridges especially in terms of human comfort and its associated vibration serviceability limit states. The dynamic responses were obtained in terms of peak accelerations and were compared to the limiting values proposed by authors and design standards. The peak acceleration values found in the present investigation indicated that the analysed footbridges have presented problems related to human comfort. Considering that it was detected that these structures could reach high vibration levels that might compromise the footbridge users comfort, it was proposed a structural control system in order to reduce the excessive vibrations. Thus, an investigation was performed based on some structural control alternatives for attenuating excessive vibrations using tuned mass damper (TMD) systems. Engenharia Civil Passarelas de pedestres Análise dinâmica Modelagem em elementos finitos Conforto humano Vibrações excessivas Controle de vibrações Civil Engineering Pedestrian footbridges Dynamic analysis Finite element modelling Human comfort Excessive vibrations Vibration control ENGENHARIA CIVIL
114	Pour une approche complète de l'évaluation de fiabilité dans les microsystèmes / For a complete approach of microsystems reliability evaluation Matmat, Mohamed 03 September 2010 (has links) La complexité des microsystèmes, leur multidisciplinarité, l’hétérogénéité des matériaux utilisés et les interfaces avec l’environnement extérieur rendent difficiles l’évaluation et la maîtrise de leur fiabilité indispensables pour l’exploitation des nombreuses possibilités innovantes qu’ils offrent.L’approche que nous avons proposée dans ce travail, afin de prédire la fiabilité des microsystèmes, se fonde sur l’usage intensif de la modélisation et de la simulation, dans les conditions d’usage du microsystème (profil de mission), en associant donc l’évaluation de la fiabilité à la démarche de conception : avant d’entreprendre une modélisation fonctionnelle de type VHDL-AMS, les objectifs de fiabilité sont exprimés explicitement dans le cahier des charges du microsystème, au même titre que les objectifs plus habituels de performances.Afin de supporter nos travaux, nous avons appliqué cette démarche de prédiction de la fiabilité sur deux types de microsystèmes :- des micro-actionneurs électrothermiques. - des commutateurs RF capacitifs à actionnement électrostatique / The complexity of microsystems, their multidisciplinarity, the heterogeneity of materials and interfaces with the external environment makes difficult the assessment and control of reliability, which is indispensable for the exploitation of the several innovative opportunities that they offer. The approach we proposed, in this work, to predict the reliability of microsystems is based on the intensive use of modelling and simulation, in the use and environmental conditions of micro-system (mission profile), thus by combining the reliability evaluation in the design process: before undertaking any type of functional modelling VHDL-AMS, reliability objectives are expressed explicitly in the specification of the micro-system, as well as the most common performance goals.To support our work, we applied this approach for predicting the reliability for two types of microsystems:- Electro-thermal micro-actuators.- Capacitive RF MEMS switches Chargement diélectrique Prototypage virtuel Mems Fiabilité prédictive Modélisation analytique Modélisation aux éléments finis Micro-actionneur électrothermique Micro-commutateur RF Actionnement électrostatique Virtual prototype Mems Predictive reliability Analytical modelling Finite element modelling FEM Electrothermal actuator, switch RF Electrostatic actuation Charging effect
115	Análise dinâmica e controle de vibrações de passarelas de pedestres submetidas ao caminhar humano. / Dynamic analysis and vibration control of pedestrian footbridges subjected to human walking. Joesley Pereira Mendes 29 May 2014 (has links) Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / Passarelas de pedestres mistas (aço-concreto) e de aço são frequentemente submetidas a ações dinâmicas de magnitude variável, devido à travessia de pedestres sobre a laje de concreto. Estas ações dinâmicas podem produzir vibrações excessivas e dependendo de sua magnitude e intensidade, estes efeitos adversos podem comprometer a confiabilidade e a resposta do sistema estrutural e, também, podem levar a uma redução da expectativa de vida útil da passarela. Por outro lado, a experiência e o conhecimento dos engenheiros estruturais em conjunto com o uso de novos materiais e tecnologias construtivas têm produzido projetos de passarelas mistas (aço-concreto) bastante arrojados. Uma consequência direta desta tendência de projeto é um aumento considerável das vibrações estruturais. Com base neste cenário, esta dissertação visa investigar o comportamento dinâmico de três passarelas de pedestres mistas (aço-concreto) localizadas no Rio de Janeiro, submetidas ao caminhar humano. Estes sistemas estruturais são constituídos por uma estrutura principal de aço e laje em concreto e são destinados à travessia de pedestres. Deste modo, foram desenvolvidos modelos numérico-computacionais, adotando-se as técnicas tradicionais de refinamento presentes em simulações do método de elementos finitos, com base no uso do software ANSYS. Estes modelos numéricos permitiram uma completa avaliação dinâmica das passarelas investigadas, especialmente em termos de conforto humano. As respostas dinâmicas foram obtidas em termos de acelerações de pico e comparadas com valores limites propostas por diversos autores e normas de projeto. Os valores de aceleração de pico e aceleração rms encontrados na presente investigação indicaram que as passarelas analisadas apresentaram problemas relacionados com o conforto humano. Assim sendo, considerando-se que foi detectado que estas estruturas poderiam atingir níveis elevados de vibração que possam vir a comprometer o conforto dos usuários, foi verificado que uma estratégia para o controle estrutural era necessária, a fim de reduzir as vibrações excessivas nas passarelas. Finalmente, uma investigação foi realizada com base em alternativas de controle estrutural objetivando atenuar vibrações excessivas, a partir do emprego de sistemas de atenuadores dinâmicos sintonizados (ADS). / Steel and steel-concrete composite pedestrian footbridges are frequently subjected to dynamic actions with variable magnitudes due to the pedestrian crossing on the concrete deck. These dynamic actions can produce excessive vibrations and depending on their magnitude and intensity, these adverse effects can compromise the structural systems response and its reliability and may also lead to a reduction of the expected footbridge service life. The structural engineers experience and knowledge together with the use of newly developed materials and technologies have produced steel-concrete composite daring footbridges. A direct consequence of this design trend is a considerable increase of structural vibrations. Based on this scenario, this dissertation aims to investigate the dynamic behaviour of three steel-concrete composite pedestrian footbridge submitted to human walking vibration, located at Rio de Janeiro. These structural systems are composed by steel structure and a concrete slab and are destined for pedestrian crossing. Computational models were developed adopting the usual mesh refinement techniques present in finite element method simulations using ANSYS software. These numerical models have enabled a complete dynamic evaluation of the investigated footbridges especially in terms of human comfort and its associated vibration serviceability limit states. The dynamic responses were obtained in terms of peak accelerations and were compared to the limiting values proposed by authors and design standards. The peak acceleration values found in the present investigation indicated that the analysed footbridges have presented problems related to human comfort. Considering that it was detected that these structures could reach high vibration levels that might compromise the footbridge users comfort, it was proposed a structural control system in order to reduce the excessive vibrations. Thus, an investigation was performed based on some structural control alternatives for attenuating excessive vibrations using tuned mass damper (TMD) systems. Engenharia Civil Passarelas de pedestres Análise dinâmica Modelagem em elementos finitos Conforto humano Vibrações excessivas Controle de vibrações Civil Engineering Pedestrian footbridges Dynamic analysis Finite element modelling Human comfort Excessive vibrations Vibration control ENGENHARIA CIVIL
116	Modelagem do caminhar humano e avaliação de conforto humano de passarelas de pedestres. / Modeling of human walking and evaluation of human confort of pedestrian footbridges. Williams Dias Lozada Peña 26 March 2015 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Com o passar dos anos a engenharia estrutural passou a lidar com a exigência cada vez maior de estruturas que ocupem menos espaço e sejam consideravelmente mais leves. No caso de passarelas de pedestres, a esbeltez da estrutura aliada a um baixo peso pode acarretar em problemas de vibrações devido à ressonância com o caminhar dos pedestres. Estes problemas podem variar desde uma simples sensação de desconforto até problemas mais graves como o colapso estrutural. Com base nestas premissas, esta dissertação visa investigar dois modelos estruturais, um em concreto armado e outro misto, do tipo aço concreto, onde os modelos serão estudados mediante o emprego do método dos elementos finitos através do programa ANSYS. Os modelos numéricos permitem determinar as frequências naturais da estrutura e consequentemente estudar as respostas dos modelos mediante análises de vibrações forçadas. As respostas dinâmicas da estrutura serão obtidas em termos dos valores dos deslocamentos máximos e das acelerações de pico. Os resultados obtidos foram comparados com os principais guias que regem o conforto humano no caso de caminhar de pessoas em passarelas de pedestres, de forma que houve indicativos de possíveis desconfortos após a análise dos resultados obtidos ao longo da investigação. Finalmente, foi feito um estudo considerando-se movimentos aleatórios dos pedestres sobre as passarelas, objetivando estudar os níveis da resposta dinâmica das estruturas nestas situações. / The structural engineer needs to adapt with the exigencies of low weight and less space occupied by the structures, which have been increasing more and more over the years. Related to footbridges, the structure slenderness and the low weight may lead to vibrations problems due to resonance with pedestrians walking. These problems may vary from a simple discomfort up to big problems, like the structural collapse. According to these premises, this dissertation aims to investigate two structural models, the first one in reinforced concrete and the other is related to a steel-concrete composite pedestrian footbridge, which will be analyzed by finite element method simulations using the software ANSYS. The numerical models make possible to evaluate the natural frequencies of structures and study the response due to forced vibrations induced by pedestrians walking. The dynamic responses of the investigated footbridges will be analyzed considering the maximum displacements and accelerations. The obtained results were compared with the main guidelines related to human comfort with regard to pedestrian walking on footbridges, in such a way that it showed possible problems due to vibrations, after analyzing the results obtained in the investigation. Thus, it was performed a study considering the variance of pedestrian position in order to analyze the dynamic response of the investigated footbridges in these cases. Engenharia Civil Passarelas de pedestres Análise dinâmica Modelagem em elementos finitos Conforto humano Vibrações excessivas Civil Engineering ENGENHARIA CIVIL
117	Modelagem do caminhar humano e avaliação de conforto humano de passarelas de pedestres. / Modeling of human walking and evaluation of human confort of pedestrian footbridges. Williams Dias Lozada Peña 26 March 2015 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Com o passar dos anos a engenharia estrutural passou a lidar com a exigência cada vez maior de estruturas que ocupem menos espaço e sejam consideravelmente mais leves. No caso de passarelas de pedestres, a esbeltez da estrutura aliada a um baixo peso pode acarretar em problemas de vibrações devido à ressonância com o caminhar dos pedestres. Estes problemas podem variar desde uma simples sensação de desconforto até problemas mais graves como o colapso estrutural. Com base nestas premissas, esta dissertação visa investigar dois modelos estruturais, um em concreto armado e outro misto, do tipo aço concreto, onde os modelos serão estudados mediante o emprego do método dos elementos finitos através do programa ANSYS. Os modelos numéricos permitem determinar as frequências naturais da estrutura e consequentemente estudar as respostas dos modelos mediante análises de vibrações forçadas. As respostas dinâmicas da estrutura serão obtidas em termos dos valores dos deslocamentos máximos e das acelerações de pico. Os resultados obtidos foram comparados com os principais guias que regem o conforto humano no caso de caminhar de pessoas em passarelas de pedestres, de forma que houve indicativos de possíveis desconfortos após a análise dos resultados obtidos ao longo da investigação. Finalmente, foi feito um estudo considerando-se movimentos aleatórios dos pedestres sobre as passarelas, objetivando estudar os níveis da resposta dinâmica das estruturas nestas situações. / The structural engineer needs to adapt with the exigencies of low weight and less space occupied by the structures, which have been increasing more and more over the years. Related to footbridges, the structure slenderness and the low weight may lead to vibrations problems due to resonance with pedestrians walking. These problems may vary from a simple discomfort up to big problems, like the structural collapse. According to these premises, this dissertation aims to investigate two structural models, the first one in reinforced concrete and the other is related to a steel-concrete composite pedestrian footbridge, which will be analyzed by finite element method simulations using the software ANSYS. The numerical models make possible to evaluate the natural frequencies of structures and study the response due to forced vibrations induced by pedestrians walking. The dynamic responses of the investigated footbridges will be analyzed considering the maximum displacements and accelerations. The obtained results were compared with the main guidelines related to human comfort with regard to pedestrian walking on footbridges, in such a way that it showed possible problems due to vibrations, after analyzing the results obtained in the investigation. Thus, it was performed a study considering the variance of pedestrian position in order to analyze the dynamic response of the investigated footbridges in these cases. Engenharia Civil Passarelas de pedestres Análise dinâmica Modelagem em elementos finitos Conforto humano Vibrações excessivas Civil Engineering ENGENHARIA CIVIL
118	Contribution to the study of the effect of three-dimensional stress states to slope stability analysis / Contribuição do estudo do efeito do estado de tensões 3D na análise de estabilidade de taludes Moura, Nícolas Rodrigues 27 August 2018 (has links) Submitted by Franciele Moreira (francielemoreyra@gmail.com) on 2018-09-21T14:50:47Z No. of bitstreams: 2 Dissertação - Nícolas Rodrigues Moura - 2018.pdf: 4165797 bytes, checksum: 86460ffa29b4d346005f977c2f75693e (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2018-09-24T13:21:40Z (GMT) No. of bitstreams: 2 Dissertação - Nícolas Rodrigues Moura - 2018.pdf: 4165797 bytes, checksum: 86460ffa29b4d346005f977c2f75693e (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2018-09-24T13:21:40Z (GMT). No. of bitstreams: 2 Dissertação - Nícolas Rodrigues Moura - 2018.pdf: 4165797 bytes, checksum: 86460ffa29b4d346005f977c2f75693e (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2018-08-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Análises de estabilidade de taludes são predominantemente realizadas em duas-dimensões (2D) por métodos de equilíbrio limite. Os métodos convencionais de equilíbrio limite são alvos de muitas críticas pelo o uso do equilíbrio estático, pressuposições de forças na análise e por possuir o mesmo fator de segurança ao longo de toda a superfície de deslizamento. Para superar essas deficiências, o método proposto por Kulhawy (1969) incorpora o comportamento tensão-deformação do solo com tensões oriundas do Método de Elementos Finitos (FEM) e tem a mesma estrutura dos métodos de equilíbrio dos métodos de equilíbrio de equilíbrio limite clássicos. É também chamado de método aperfeiçoado. Devido à existência de taludes com geometrias complexas, a abordagem tridimensional (3D) é a única capaz de incorporar todos os aspectos geométricos do problema. Esta dissertação é dividida em dois artigos com o tema de estabilidade de taludes pelo o método de Kulhawy em abordagens 2D e 3D. O objetivo primário dessa dissertação é avaliar os principais fatores que influenciam a estabilidade de taludes. O primeiro artigo propôs geometrias variando de convexo a côncavo em um conjunto de propriedades típicas de solos. Duas trajetórias de geração de tensões in- situ foram utilizadas, i.e., construção e escavação. O método GLE foi calculado para fins de comparação. A superfície de deslizamento é muito dependente do histórico de tensão e da forma da face do talude. A diferença relativa no estado de tensões inicial típico alcançou 15% nas análises 2D e 34% nas análises 3D. A análise de sensibilidade do efeito do Poisson no fator de segurança mostrou-se muito relevante. A relação entre os fatores de segurança 2D e 3D são quase lineares independente do estado de tensões, das propriedades de resistência, formato da face do talude, na ordem de 30 a 40%. O segundo artigo propõe análises em barragens construídas em vales estreitos. Três abordagens de análises foram utilizadas: redução de resistência ao cisalhamento (SSR), métodos de Kulhawy e GLE. Condições típicas de fundações são muito variáveis como topografia e deformabilidade. A análise de sensibilidade do módulo de fundação de Young no fator de segurança foi insignificante em 2D e relevantes em 3D. A relação entre o comprimento do aterro (W) e a altura () é uma variável representativa do grau de estreitamento da barragem e na estabilidade de taludes. A análise de deformações planas tende a altas relações W/H e o oposto mostra elevados efeitos 3D. A inclinação da ombreira mostrou-se relevante no fator de segurança apenas em aterros em vales estreitos. Fundações mais rígidas são mais beneficias para o fator de segurança devido à produção de altos efeitos de arqueamento neste cenário. O método de Kulhawy provou-se ser vantajoso pela a incorporação do comportamento mecânico do solo, o uso de tensões mais realísticas nas análises e avaliação da estabilidade local na superfície de deslizamento. Isso aumenta a quantidade de informações úteis e confiáveis para o profissional de engenharia no projeto de taludes. Todas as análises foram realizadas usando o software SoilVision Systems, Saskatchewan, Canadá. Os módulos utilizados foram o SVLOPE, SVSOLID e o SVFLUX (SoilVision Systems Ltd., 2018). A análise de tensão para a simulação de trajetórias de escavação e construção utilizou do solucionador de Equações Diferenciais Parcias (PDE) o FlexPDE 6 (PDE Solutions Inc., 2014). / Slope stability analyses are predominantly performed using the two-dimensional (2D) conventional limit equilibrium methods. Conventional limit equilibrium methods are targets of many criticisms for using static equilibrium, assumptions of forces in the analysis and the same factor of safety along the slip surface. In order to overcome these shortcomings, the method proposed by Kulhawy (1969) incorporates the stress-strain behavior of the soil with stresses from the Finite Element Method (FEM) with the same structure as limit equilibrium methods. It is also called enhanced method. Due to the existence of slopes with complex geometries, the three-dimensional (3D) approach is only able to incorporate all the geometric aspects of the problem. This thesis is divided into two papers with the subject of slope stability analyses by the Kulhawy’s method in 2D and 3D approaches. The primary objective of this thesis is to evaluate major factors that influence slope stability. The first paper proposed geometries ranging from convex to concave in a set of soil properties. Two stress paths were considered, i.e., construction and excavation. The GLE method was computed for comparison purposes. The slip surface is very dependent on the stress history and the shape of slope face. The relative difference in typical initial stress state reached 15% in 2D analyses and 34% in 3D analyses. Sensitivity analysis of effect of Poisson’s ratio on factor of safety was very relevant. The relationship between 2D and 3D factors of safety are nearly linear independent of stress state on order of 30 to 40%. The second paper propose analyses on embankment dams built in narrow valleys. Three approaches of slope stability were used: shear strength reduction (SSR), Kulhawy’s and GLE methods. The typical conditions of foundation sites are very variable as topography and deformability. Sensitivity analysis of Young’s modulus of foundation on factor of safety was insignificant in 2D and relevant in 3D analyses. The ratio between embankment length (W) and height (H) was very important on slope stability. The plane strain analysis tends to high W/H ratio and the opposite shows high 3D effects. The inclination of abutment showed to be relevant on factor of safety only in embankments in narrow valleys. Stiffer foundations are beneficial to the factor of safety due producing high arching effects in this scenario. The Kulhawy’s method proved to be advantageous by the incorporation of mechanical behavior of soil, more realistic stress and local stability evaluation on slip surface. It increases the amount of useful and reliable information to the engineering professional in design of slopes. All analyses were performed using SoilVision Systems suite software, Saskatchewan, Canada. The modules used were SVSLOPE, SVSOLID and SVFLUX (SoilVision Systems Ltd., 2018). The stress analysis for the simulation of excavation and construction trajectories used partial differential equation (PDE) solver, FlexPDE 6 (PDE Solutions Inc., 2014). Slope stability analysis Stress analysis Kulhawy’s method Enhanced method Excavation Embankments Dams Finite-element modelling Limit equilibrium methods Análise de estabilidade de taludes Análise de tensões Método de Kulhawy Método aperfeiçoado Escavação Barragens Modelagem de elementos finitos Método de equilíbrio limite ENGENHARIAS::ENGENHARIA CIVIL
119	Impact de la modélisation physique bidimensionnelle multicellulaire du composant semi-conducteur de puissance sur l'évaluation de la fiabilité des assemblages appliqués au véhicule propre / Impact of bidimensional physical modeling multicellular of power semiconductor device on the evaluation of the reliability package applied to own vehicle El Boubkari, Kamal 25 June 2013 (has links) A bord des véhicules électriques (VE) et Hybrides (VEH), les fonctions de tractions sont assurées par des convertisseurs électroniques de puissances. Ces derniers sont constitués de module de puissance (IGBTs ou MOSFETs). Au cours de leur fonctionnement, ces modules sont parfois soumis à de fortes contraintes électriques et thermiques qui amènent à une défaillance ou même à une destruction. Le premier objectif sera de réaliser un banc expérimentale permettant d’étudier le vieillissement des modules IGBTs en régîmes extrêmes de fonctionnement (mode de court-circuit). Ainsi, nous évaluerons les différents indicateurs de vieillissements permettant de prédire la défaillance du composant. Il sera question aussi de suivre le vieillissement ou une dégradation initié sur les composants IGBTs par thermographie infrarouge. Le second objectif sera de modéliser et simuler par éléments finis différentes structures d’IGBTs, afin de valider les modèles en fonctionnement statique et dynamique. L’avantage de l’approche multicellulaire par rapport à l’approche unicellulaire sera mis en avant. / On board electric vehicles (EVs) and hybrid (HEV), the functions of traction is provided by power electronic converters. These consist of power modules (IGBT or MOSFET). During their operation, these modules are sometimes subjected to high electrical and thermal stresses that lead to failure or even destruction.The first objective will be to achieve experimental bench to study ageing IGBT modules under extreme operating conditions ( short circuit mode). Thus, we evaluate the various indicators of ageing to predict component failure. Topics will also follow the ageing or degradation initiated on IGBT components by infrared thermography. The second objective is to model and simulate by finite element different IGBT structures to validate the models in static and dynamic operation. The advantage of multicellular approach to the single cell approach will be highlighted. Igbt Semiconducteurs Court-circuit Analyse de défaillance Extrations de paramètres Modélisation éléments finis Tcad-sentaurus Thermographie infrouge Igbt Semiconductors Short-circuit Failure mechanisms analysis Parameters extractions Finite element modelling Tcad-sentaurus Infrared thermography
120	Etude du comportement à long terme de systèmes d’assemblages par goujons collés en conditions climatiques variables / Study of the long term behavior of glued-in rod connections in variable climate conditions Verdet, Mathieu 13 December 2016 (has links) La technique des goujons collés dans les structures bois allie performances mécaniques et esthétisme. Elle répond au besoin de conservation du bâti pour le domaine de la rénovation et au besoin d’assemblages de plus en plus rigides et résistants en construction neuve avec l’avènement des structures bois de grandes ampleurs et l’arrivée de nouveaux produits tels que le bois lamellé croisé (CLT). De nombreuses études de caractérisation mécanique ont été menées au cours de ces 35 dernières années. L’enquête menée auprès des professionnels et experts en vue de l’introduction de cette technique dans l’Eurocode 5 a néanmoins révélé des attentes et lacunes particulières vis-à-vis des connaissances sur le comportement des assemblages multi-tiges, le choix des adhésifs, le comportement à long terme du collage et les techniques de contrôle qualité. Les travaux de cette thèse, menés en collaboration entre l’université de Bordeaux et l’Université Laval (Québec, Canada), ont pour objectif d’apporter des réponses sur le comportement mécanique des adhésifs, et assemblages sous sollicitation thermique et d’initier les développements sur le comportement à long terme et les assemblages multi-tiges. Les principaux résultats sont issus de travaux expérimentaux et numériques valorisés sous la forme d’articles scientifiques. Les essais mécaniques dynamiques menés sur une colle polyuréthane (PUR) et une résine époxy (EPX) entre 30°C et 120°C mettent en avant des différences importantes de raideur et de dégradations entre les deux adhésifs. Exposés à la chaleur, les assemblages sont eux aussi affectés avec des pertes de raideur et de résistance dès 40°C, en amont de la température de transition vitreuse et de la dégradation des adhésifs. Amené à suivre le régime de température extérieur, l’assemblage doit par sa conception être isolé afin de prévenir les risques aux états limites de service (ELS) et aux états limites ultimes (ELU). Très peu de données sont disponibles dans la littérature sur le comportement à long terme des assemblages goujons collés. L’étude du fluage ajoute une dimension temporelle aux problématiques de raideur. La base de données expérimentales collectée dans ces travaux repose sur 12 campagnes d’essais de 1 à 2 mois en conditions climatiques régulées en température et humidité relative, ou variables (service classe 1). Chargement et climat influent sur le glissement, mais aussi sur la durée de vie. Si des disparités sont présentes entre EPX et PUR, les études menées à 20°C et 50°C révèlent à nouveau l’importance de prendre en considération la température, notamment aux ELS. L’étude en régime variable illustre de son côté la sensibilité du système aux variations de température et d’humidité. L’étude de la répartition des efforts en fonction de la raideur des goujons est choisie comme fil conducteur pour investiguer le passage vers des éléments multi-tiges. Un modèle 3D mono-tige aux éléments finis est tout d’abord développé pour prendre en compte l’orthotropie du bois et regarder l’influence du centre de moelle jusqu’à présent négligée. Par la suite ce modèle est étendu aux configurations multi-tiges afin de simuler différentes configurations d’essais. Un prototype d’essai de caractérisation mécanique des assemblages multi-tiges est finalement présenté. / Glued-in rods have successfully been used for connections or reinforcement of timber structures. With the development of tall and large timber buildings and new products such as Cross Laminated Timber (CLT), there is an increasing need for connections that provide high stiffness and strength. Timber connections using glued in rods have a general aesthetic appeal, and take advantage of the structural adhesives that provide a high stiffness and load capacity. During the last 30 years, multiple applications have been developed for renovation and new construction. In parallel, numerous investigations have characterized the mechanical performance of these connections, but harmonized design rules are not available. A lack of knowledge on the multiple-rod connections, on the choice of adhesives, on long-term effects and on the control of quality is identified by a recent study and must be investigated before a new submission to Eurocode 5. This thesis is performed in the framework of collaboration between Université de Bordeaux (France) and Université Laval (Canada). Objectives are focused on the mechanical performance of adhesives and glued-in rod connections under elevated temperature, on the development of creep tests and the investigations of multiple-rod connections. This study combines experimental and finite element modelling results, which are presented in the form of scientific articles. A Dynamic Mechanical Analysis (DMA) on one polyurethane (PUR) and one epoxy (EPX) adhesives followed by static tensile tests on the connections with small-diameter steel glued-in rods have been conducted at different temperatures. High differences in stiffness are observed between the two adhesives. Glued-in rod connections with the EPX and PUR adhesives demonstrate significant losses of stiffness and resistance beyond 40°C, before the glass transition temperature of the adhesive. Following the outside temperature, connections must be insulated to prevent excessive slip and risk of failure at the Serviceability Limits State (SLS) and at the Ultimate Limit States (ULS). Few data on the long-term effects are available in the literature. In this work, 12 campaigns of creep tests, adding time effects to previous work, have been performed. Glued-in rod connections were tested during one to two months in a conditioning room where temperature and relative humidity were controlled or in a room with a variable climate representative of service class 1. Disparities were observed between EXP and PUR. Creep tests conducted at 20°C and 50°C revealed an important role of the temperature, particularly for SLS. Creep tests in variable climate illustrated the sensibility of connections to the temperature and humidity variations. The stiffness and stress distribution in multiple-rod connections were investigated. First, a 3D model was developed to observe the influence of the wood orthotropy on the stiffness and stress distribution in a connection with a single rod. Then, the model was extended to multiple-rod connections to simulate different loads and boundary conditions. Finally, a prototype of a connection with multiple glued-in rods was tested. Structures bois Modélisation éléments finis Assemblages multi-tiges Orthotropie Fluage Température Polyuréthane Époxy Goujons collés Timber structures Finite element modelling Connections with multiple glued-in rods Orthotropy Creep Temperature Polyurethane Epoxy Glued-in rods

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