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Vliv materiálových parametrů na stabilitu termální konvekce / Vliv materiálových parametrů na stabilitu termální konvekceDostalík, Mark January 2016 (has links)
The thesis is focused on the investigation of Rayleigh-Bénard problem in an extended setting approximating the conditions in the Earth's mantle. The aim is to evaluate the influence of depth- and temperature- dependent material parameters, dissipation, adiabatic heating/cooling and heat sources on the qualitative characteristics of thermal convection. We identify the critical values of dimensionless parameters that determine the onset of convection and characterize the dominating convection patterns in marginally supercritical states. These issues are addressed by the application of linear stability analysis and weakly non-linear analysis. It has been found that the character of convection differ substantially from the standard case of Rayleigh-Bénard convection. Powered by TCPDF (www.tcpdf.org)
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Expressiv fonologisk förmåga hos barn i åldrarna 3;5 – 4;9 år som har konstaterade uttalssvårigheter : En icke-linjär fonologisk analysJern Isacsson, Agnes, Malmgren Johansson, Linda January 2017 (has links)
Studiens syfte är att undersöka expressiv fonologisk förmåga hos barn i åldrarna 3;5-4;9 år som följer en atypisk tal- och språkutveckling och jämföra den med en åldersmatchad kontrollgrupp. Ytterligare ett syfte är att undersöka huruvida det föreligger ett samband mellan expressiv fonologisk förmåga och impressiv lexikal förmåga. Elva barn med konstaterade uttalssvårigheter rekryterades från logopedmottagningar och språkförskolor i Stockholm och i Östergötland. Barnen testades i en för dem välkänd miljö med bedömningsmaterialet LINUS. Barnens svar audioinspelades och transkriberades och utifrån transkriptionerna gjordes en analys med utgångspunkt från icke-linjär fonologi samt beräkning av Percentage Phonemes Correct och Word Complexity Measure. Resultatet jämfördes sedan med kontrollgruppen. Åtta av barnen i studiegruppen testades även med PPVT-IV för att undersöka eventuella samband mellan expressiv fonologisk förmåga och impressiv lexikal förmåga. Resultatet visade att barnen i de båda grupperna uppvisade uttalsavvikelser från vuxet målordsuttal på ord-, stavelse och segmentnivå, stavelsenivån var den nivå där flest avvikelser förekom i båda grupperna, men att avvikelserna förekom i högre grad hos barnen i studiegruppen. På stavelse- och segmentnivå kunde signifikanta skillnader ses men inte på ordnivå mellan grupperna. På stavelsenivå förekom klusterreduktioner i större utsträckning än uteslutning av enskilda segment för båda grupperna. På segmentnivå uppvisade barnen i studiegruppen problem med samtliga särdrag (sätt, plats och ton), till skillnad från barnen i kontrollgruppen som endast uppvisade problem med särdraget plats. Barnen i studiegruppen fick lägre värden på såväl PPC och WCM. En signifikant skillnad sågs mellan PPC och WCM i studiegruppen men inte i kontrollgruppen. Inget samband mellan expressiv fonologisk förmåga och impressiv lexikal förmåga kunde påvisas i följande studie. Studiens resultat indikerar att det är viktigt att ta hänsyn till alla fonologiska nivåer vid en bedömning och resultatet motiverar att ett icke-linjärt perspektiv kan vara till fördel vid planering av intervention. Då stavelsenivån ger upphov till störst svårigheter är det viktigt att ta hänsyn till detta vid fonologisk intervention. Studiens resultat kan ligga till grund för hur en icke-linjär analys kan användas inom klinisk verksamhet. / The aim of the study is to investigate the expressive phonological ability in children aged 3;5-4;9 following an atypical speech and language development and make a comparison to an age-matched control group following a typical speech and language development. A further purpose is to investigate whether there is a relation between expressive phonological ability and receptive lexical ability. Eleven children with speech sound difficulties were recruited from Speech-Language Pathology clinics and preschool language units in Stockholm and Östergötland. The children were tested in a familiar environment, with the swedish phonological assessment material LINUS. The children's responses were audio-recorded and transcribed and based on the transcriptions, a non-linear phonology analysis and calculations of Percentage Phonemes Correct and Word Complexity Measure were made. The results were then compared to the control group. Eight of the children were also tested with PPVT-IV to investigate a possible correlation between expressive phonological ability and receptive lexical ability. The results showed that the children in both groups had deviations at word-, syllable- and segmental levels, the syllable level appeared to be the most affected level in both groups, but that the deviations were more frequent in the study group. The differences on syllable- and segmental levels were significant, whereas the difference at word level was not significant between the groups. At the level of syllable, cluster reductions occurred to a greater extent than the exclusion of individual segments for both groups. At the segmental level, the study group showed problems with all features (manner, place and tone), whereas the children in the control group only had problems with the feature place. The study group had lower PPC and WCM than the control group. A significant difference was seen between PPC and WCM in the study group but not in the control group. No correlation between expressive phonological ability and receptive lexical ability was found. The results of the study indicate that it’s important to address all phonological levels in assessment and motivate that a non-linear approach could be beneficial as basis for planning of treatment. Since the syllable-level is the most affected it is important to address it in intervention. The report could serve as a guide for clinicians when applying a non-linear analysis.
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Simulation of Strong Ground Motions in Mashiki Town, Kumamoto, Based on the Seismic Response Analysis of Soils and the Dynamic Rupture Modeling of Sources / 地盤応答解析および動力学的震源モデルに基づく熊本県益城町における強震動シミュレーションSun, Jikai 23 March 2021 (has links)
京都大学 / 新制・課程博士 / 博士(工学) / 甲第23188号 / 工博第4832号 / 新制||工||1755(附属図書館) / 京都大学大学院工学研究科建築学専攻 / (主査)教授 松島 信一, 教授 竹脇 出, 教授 林 康裕 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM
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Direct simulation and reduced-order modeling of premixed flame response to acoustic modulationQiao, Zheng 13 May 2022 (has links) (PDF)
This dissertation introduces a general, predictive and cost-efficient reduced-order modeling (ROM) technique for characterization of flame response under acoustic modulation. The model is built upon the kinematic flame model–G-equation to describe the flame topology and dynamics, and the novelties of the ROM lie in i) a procedure to create the compatible base flow that can reproduce the correct flame geometry and ii) the use of a physically-consistent acoustic modulation field for the characterization of flame response. This ROM addresses the significant limitations of the classical kinematic model, which is only applicable to simple flame configurations and relies on ad-hoc models for the modulation field. The ROM is validated by considering the acoustically-excited premixed methane/air flames in conical and M-shape configurations. To test the model availability to practical burners, a confined flame configuration is also employed for model evaluation. Furthermore, to investigate the generality of the ROM to the burner flame, the performance of the ROM with respect to the V-shape and the swirled V-shape is investigated. The model accuracy is evaluated concerning flame geometrical features and flame describing function, and assessed by comparing the ROM results with both experimental measurements and direct- numerical-simulation results. It is found that the flame describing/transfer functions predicted by the ROM compare well with reference data, and are more accurate than those obtained from the conventional kinematic model built upon heuristically-presumed modulation fields.
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Hopf Bifurcation Analysis of Chaotic Chemical Reactor ModelMandragona, Daniel 01 January 2018 (has links)
Bifurcations in Huang's chaotic chemical reactor system leading from simple dynamics into chaotic regimes are considered. Following the linear stability analysis, the periodic orbit resulting from a Hopf bifurcation of any of the six fixed points is constructed analytically by the method of multiple scales across successively slower time scales, and its stability is then determined by the resulting final secularity condition. Furthermore, we run numerical simulations of our chemical reactor at a particular fixed point of interest, alongside a set of parameter values that forces our system to undergo Hopf bifurcation. These numerical simulations then verify our analysis of the normal form.
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Stability of building structures using NLFEA including second order effects : Applications with the software ATENA-GiDPetkoglou, Alexandros January 2021 (has links)
In Sweden, prefabrication in the construction industry is a very common system. In prefabricated structures, there are various kinds of connections and generally many hinged connections. Therefore, it is of high interest to study the behavior of the prefabricated buildings in relation to the connections. Two main theories that can be used to evaluate our structures are the non-linear finite element analysis (NLFEA) and the second order effects. These two theories help to study the real behavior of the structures. Software that can apply these two theories is the ATENA-GiD. Therefore, it was very interesting to explore this software and find out how it can be used for prefabricated buildings. For this reason, a simplified ten-storey building was studied which had been also used in Lindwall’s and Wester’s (2016) master thesis. Various cases were chosen for this building. The building was studied either with monolithic walls or with vertical slip connection between the prefabricated walls. Also, the hollow core (HC) slabs were modelled in two ways and the supports of the columns were modelled in three ways. Even when each slab was modelled with two materials (solid concrete for the upper and lower layer with smeared reinforcement for the lower layer and modified concrete in order to compensate for the voids), the increase in the time for analysis was not important. Also, the cracking was not extensive thanks to the relatively low wind load. The slip joint between the walls didn’t lead to the different displacement between the walls. It was found that the hinged support in the columns was modelled by using the upwind line of the base. In non-linear analysis cases, the model of the structure gave 20% larger displacements than in linear analysis cases which means that the cracking had an important influence on the second order effects despite that the cracking was not extensive. The reduction of the stiffness of the walls to 40% accounting for cracked sections in additional linear analyses to according to the Eurocode 2 was a conservative choice for this building. The most remarkable result was that when the supports of the columns were modelled with hinges there was smaller displacement than when the supports were fixed. The reason for this was the negative displacements due to the buckling of the columns of the first storey. Moreover, for the linear cases, there was a much smaller displacement (5mm) than Lindwall and Wester (2016) (17mm) and this was possibly due to the way that the hinges were modelled in my building. It is interesting to investigate other ways to model the hinges in ATENA-GiD as well as other ways to model the connections between the HC slabs and the perimetric beams. Also, the effect of creep through the modulus of elasticity could be analyzed. Finally, it would be interesting to include foundations in the model to study the possible need for anchorages.
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Desenvolvimento de modelos mecânicos, de confiabilidade e de otimização para aplicação em estruturas de concreto armado / Development of mechanical, reliability and optimization models for application in reinforced concrete structuresNogueira, Caio Gorla 12 May 2010 (has links)
Este trabalho apresenta desenvolvimentos na modelagem mecânica de estruturas de barras em concreto armado, bem como no acoplamento entre modelos de confiabilidade e otimização do tipo RBDO para obtenção de dimensões ótimas, respeitando os requisitos de segurança especificados em projeto. Quanto à modelagem mecânica via Método dos Elementos Finitos (MEF), além do comportamento não-linear geométrico e dos materiais, foi considerada a contribuição dos mecanismos complementares de resistência ao cisalhamento, dados pelo engrenamento de agregados e efeito de pino das armaduras longitudinais. Além disso, um modelo simplificado que avalia a contribuição da armadura transversal também foi proposto. Foi desenvolvida uma formulação de otimização que deixa a posição da linha neutra livre, ao contrário de formulações existentes. Esta formulação resultou em projetos mais economicos dos que aqueles encontrados na literatura. Na questão do acoplamento de confiabilidade e otimização, foram exploradas melhorias no Método de Superfície de Resposta e no acoplamento direto via Método de Confiabilidade de Primeira Ordem e Técnica dos Gradientes Numéricos. Estas resultaram em maior precisão dos resultados e aumento na velocidade de convergência. Os modelos mecânicos, incluindo análise não-linear e mecanismos complementares, a formulação de otimização e as técnicas de confiabilidade foram implementados em um programa computacional para dimensionamento ótimo de elementos em concreto armado. O programa foi utilizado na resolução de vários problemas-exemplo. Verificou-se que a consideração dos mecanismos complementares de resistência ao cisalhamento produziram acréscimo na carga última, quando comparadas com as respostas sem tais efeitos. Verificou-se também que os mesmos mecanismos produziram um aumento, até mais significativo, nos índices de confiabilidade obtidos. As dimensões ótimas de elementos estruturais também foram comparadas, considerando-se modelos lineares e não-lineares dos materiais. O estudo mostrou que os custos da estrutura otimizada são menores, quando se considera os efeitos de comportamento não-linear dos materiais. / This work presents some developments in the mechanical modeling of reinforced concrete bar structures, as well in the coupling of reliability and RBDO optimization models, with the purpose of obtaining optimal dimensions considering the safety requirements specified in design. As for the mechanical modeling via Finite Element Method (FEM), in addition to geometrical and material nonlinear behaviors, the contribution of shear resistance complementary mechanisms (aggregate interlock and dowel action of longitudinal reinforcement) was taken into account. Moreover, a simplified model that evaluates the contribution of shear reinforcement was also proposed. In an improvement of existing formulations, an optimization scheme was developed which leaves the position of the neutral axis free. This improvement resulted in more economical cross-sections, than those found in the literature. With respect to the coupling of reliability and optimization methods, improvements were sought in the Response Surface Method and in the direct coupling via First Order Reliability and Numerical Gradients methods. These improvements resulted in greater precision and in increased convergence speed. The mechanical models, including non linear effects and complementary mechanisms , the optimization and reliability formulations were implemented in a computational code for the optimum design of reinforced concrete structures. The program was used to solve a number of example problems. It was found that the complementary mechanisms resulted in an increase of ultimate loads, when compared to the response obtained without these effects. These mechanisms also resulted in an even greater increase of the elements reliability. Optimal dimensions of the structural elements were also compared, considering linear and non-linear material models. The cost of the optimum structure was found to be smaller when non linear effects are taken into account.
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Sobre a estabilidade de cantoneiras de aço formadas a frio submetidas à compressão / On the stability of cold-formed steel angles under compressionMaia, Wanderson Fernando 10 April 2008 (has links)
Aparentemente, a análise estrutural de uma cantoneira simples submetida à compressão constitui um problema elementar e, portanto, já largamente conhecido. Entretanto, as cantoneiras formadas a frio, em geral com paredes delgadas (elevadas relações largura/espessura), apresentam dois modos críticos de instabilidade: (i) modo global de flexão, no caso de barras longas, e um modo coincidente local-chapa/global de flexo-torção, que é crítico para barras de menor comprimento. Embora existam procedimentos simplificados de cálculo, recomendados pelas normas, a consideração do modo de flexo-torção é controversa entre pesquisadores. Alguns trabalhos recentes indicam que é conservador considerar o modo de flexo-torção no cálculo da força normal resistente, enquanto outros trabalhos apontam para a necessidade dessa abordagem. Nesse trabalho é investigada a resposta estrutural de cantoneiras simples e enrijecida submetidas à compressão centrada e excêntrica, por meio de análise experimental e de análise numérica não-linear via elementos finitos, sendo avaliado o efeito das imperfeições geométricas iniciais na força normal resistente; também são avaliados os resultados provenientes dos procedimentos normativos: (i) o clássico método das larguras efetivas e (ii) o método da resistência direta (MRD), em que as cantoneiras não são relacionadas como perfis pré-qualificados. Os resultados da análise experimental e da análise numérica não-linear com imperfeições geométricas iniciais indicam a necessidade da consideração do modo de flexo-torção. / Apparently, the structural analysis of a simple angle under compression is an elementary problem, therefore, already largely known. However, cold-formed steel angles, mostly with slender legs, present two critical buckling modes: (i) global-flexural mode, in cases of high length members, (ii) and a coincident local-plate/global-torsional-flexural mode, which is critical for short length members. Although simplified design procedures exist, recommended by specifications, the consideration of the torsional-flexural mode is controversial among researchers. A few recent papers indicate that considering the torsional-flexural mode is conservative, while other papers point to the necessity of this approach. This work investigates the structural response of simple and lipped angles under concentrically and eccentrically compression, by means of tests and nonlinear finite element analysis, being evaluated the effect of initial geometric imperfections; also evaluating the results from design procedures: (i) the classic effective width method and (ii) the direct strength method (DSM), where the angles are not pre-qualified shapes. The results of the experimental and nonlinear numerical analysis with initial imperfections indicate the necessity of considering the torsional-flexural mode.
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Sobre o acoplamento fluido-casca utilizando o método dos elementos finitos / On fluid-shell coupling using the finite element methodSanches, Rodolfo André Kuche 30 March 2011 (has links)
Este trabalho consiste no desenvolvimento de ferramentas computacionais para análise não linear geométrica de interação fluido-casca utilizando o Método dos Elementos Finitos (MEF). O algoritmo para dinâmica dos fluidos é explícito e a integração temporal é baseada em linhas características. O código computacional é capaz de simular as equações de Navier-Stokes para escoamentos compressíveis tanto na descrição Euleriana como na descrição Lagrangeana-Euleriana arbitrária (ALE), na qual é possível prescrever movimentos para a malha do fluido. A estrutura é modelada em descrição Lagrangeana total através de uma formulação de MEF para análise dinâmica não linear geométrica de cascas baseada no teorema da mínima energia potencial total escrito em função das posições nodais e vetores generalizados e não em deslocamentos e rotações. Essa característica evita o uso de aproximações de grandes rotações. Dois modelos de acoplamentos são desenvolvidos. O primeiro modelo, ideal para problemas onde a escala de deslocamentos não é muito grande comparada com as dimensões do domínio do fluido, é baseado na descrição ALE e o acoplamento entre as duas diferentes malhas é feito através do mapeamento das posições locais dos nós do contorno do fluido sobre os elementos de casca e vice-versa, evitando a necessidade de coincidência entre os nós da casca e do fluido. A malha do fluido é adaptada dinamicamente usando um procedimento simples baseado nas posições e velocidades nodais da casca. O segundo modelo de acoplamento, ideal para problemas com grande escala de deslocamentos tais como estruturas infláveis, considera a casca imersa na malha do fluido e consiste em um procedimento robusto baseado em curvas de nível da função distância assinalada do contorno, o qual integra o algoritmo Lagrangeano de casca com o Fluido em descrição Euleriana, sem necessidade de movimentação da malha do fluido, onde a representação computacional do fluido se resume a uma malha não estruturada maior ou igual ao domínio inicial do fluido e a interface fluido-casca dentro da malha do fluido é identificada por meio de curvas de nível da função distância assinalada do contorno. Ambos os modelos são testados através de exemplos numéricos mostrando robustez e eficiência. Finalmente, como uma sugestão para o futuro desenvolvimento desta pesquisa, iniciaram-se estudos relativos a funções B-splines. O uso desse tipo de funções deverá resolver problemas de estabilidade relativos a oscilações espúrias devidas ao uso de polinômios de Lagrange para a representação de descontinuidades. / This work consists of the development of computational tools for nonlinear geometric fluid-shell interaction analysis using the Finite Element Method (FEM). The fluid solver is explicit and its time integration based on characteristics. The computational code is able to simulate the Navier-Stokes equations for compressible flows written in the Eulerian description as well as in the arbitrary Lagrangian-Eulerian (ALE) description, enabling movements prescription for the fluid mesh. The structure is modeled in a total Lagrangian description, using a FEM formulation to deal with geometrical nonlinear dynamics of shells based on the minimum potential energy theorem written regarding nodal positions and generalized unconstrained vectors, not displacements and rotations, avoiding the use of large rotation approximations. Two partitioned coupling models are developed. The first model, ideal for simulations where the displacements scale is not very large compared to the fluid domain, is based on the ALE description and the coupling between the two different meshes is done by mapping the fluid boundary nodes local positions over the shell elements and vice-versa, avoiding the need for matching fluid and shell nodes. The fluid mesh is adapted using a simple approach based on shell nodal positions and velocities. The second model, ideal for problems with large scales of displacements such as inflatable structures, is based on immersed boundary and consists of a robust level-set based approach that integrates the Lagrangian shell finite and the Eulerian finite element high speed fluid flow solver, with no need for mesh adaptation, where the fluid representation relies on a fixed unstructured mesh larger or equal to the initial fluid domain and the fluid-shell interface inside the fluid mesh is tracked with level sets of a boundary signed distance function. Both models are tested with numerical examples, showing efficiency and robustness. Finally, as a suggestion for future development of this research, we started studies relatives to B-Spline functions. The use of this kind of functions should solve stability problems related to spurious oscillations due to the use of Lagrange polynomials for representing discontinuities.
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Análise mecânica e probabilística da corrosão de armaduras de estruturas de concreto armado submetidas à penetração de cloretos / Mechanical and probabilistic analysis of reinforcement corrosion of reinforced concrete structures subjected to chlorides penetrationPellizzer, Giovanni Pais 11 March 2015 (has links)
O presente estudo trata do problema da corrosão de armaduras em estruturas de concreto armado submetidas à penetração de cloretos. É amplamente reconhecido nos meios técnico e científico que, dentre os diversos processos causadores de patologias nas estruturas de concreto armado, destacam-se aqueles que desencadeiam a corrosão das armaduras. O processo de corrosão é iniciado quando a concentração de cloretos na interface armadura/concreto atinge um valor limite, despassivando a camada química protetora ao redor da armadura. A utilização de uma abordagem probabilística é capaz de tratar o problema de forma mais consistente, uma vez que as variáveis envolvidas no fenômeno possuem um alto grau de aleatoriedade associado. A formulação utilizada para a análise não linear mecânica emprega o método dos elementos finitos, utilizando o modelo de dano de Mazars para descrever o comportamento do concreto e o modelo elastoplástico para descrever o comportamento do aço. A lei de Fick é empregada para descrever o mecanismo de difusão dos íons cloretos no interior dos elementos de concreto armado e leis empíricas são utilizadas para representar a penalização das áreas de aço das armaduras bem como a redução de sua tensão de escoamento. A formulação utilizada para a análise probabilística emprega o FORM (First Order Reliability Method), o método de superfície de resposta e a simulação de Monte Carlo. Enfoque especial é dado na análise de estruturas hiperestáticas, com o objetivo de determinar a probabilidade de falha do sistema, sendo esta uma das contribuições desse estudo. Os resultados obtidos indicam de que forma os efeitos corrosivos considerados contribuem para a redução da durabilidade estrutural. / This work deals with the problem of reinforcement corrosion of concrete structures subjected to chloride penetration. It is widely recognized in the technical and scientific communities that, among the different processes which cause pathologies in reinforced concrete structures, reinforcement corrosion is one of the most relevant. The corrosion process starts when chloride concentration at the reinforcement/concrete interface reaches a threshold value, causing depassivation of the protecting chemical layer surrounding the armor. A probabilistic approach is capable of dealing with the problem in a more consistent manner, since the variables involved in the phenomenon have a high degree of randomness. The formulation used in the mechanical non-linear analysis utilizes the finite element method, employing Mazars\' damage model to describe the concrete behavior and the elastoplastic model to describe the steel behavior. Fick\'s law is used to describe the diffusion mechanism of chloride ions inside the concrete elements and empirical laws are used to represent the steel area reduction as well as the reduction of steel yield stress. The formulation used for the probabilistic analysis employs the FORM (First Order Reliability Method), the response surface method and the Monte Carlo simulation. A contribution of this study concerns the analysis of hyper-static structures, in order to evaluate the failure probability of the system, giving special attention to this type of problem. The obtained results show how the considered corrosive effects influences the structural durability reduction.
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