Tesis sobre el tema "Open cross section"
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MANCILLA, RENZO CAYO. "NONLINEAR VIBRATIONS AND STABILITY OF SLENDER BARS WITH OPEN CROSS-SECTION". PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2014. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=35617@1.
Texto completoCOORDENAÇÃO DE APERFEIÇOAMENTO DO PESSOAL DE ENSINO SUPERIOR
PROGRAMA DE EXCELENCIA ACADEMICA
Em virtude de sua eficiência, elementos estruturais de paredes finas com seções abertas são comuns em estruturas de aço, sendo secção em I, L, C e T usuais na prática de engenharia. A maior parte das vigas de parede fina tem uma boa resistência à flexão em relação ao eixo principal de inércia, mas uma baixa rigidez à flexão em relação ao eixo de menor inércia e uma baixa rigidez em torção. É por isso que estes elementos apresentam em geral uma instabilidade que leva a um acoplamento de flexo-torção. Muitas destas estruturas trabalham em um regime não linear e uma formulação não linear que leve em conta grandes deslocamentos e os acoplamentos inerentes é necessária. Neste trabalho um modelo não linear para vigas de seção aberta e paredes finas, considerando grandes deslocamentos, os efeitos de encurtamento e acoplamentos em flexão e torção é adotado. Inicialmente um estudo das frequências naturais, das cargas críticas e da relação frequência-carga axial é apresentado para diversos perfis. Com base nestes resultados, faz-se um estudo detalhado do comportamento dinâmico não linear destes perfis destacando o efeito do acoplamento não linear na região de ressonância e sua influência na estabilidade dinâmica da estrutura. Para isto são usadas diversas ferramentas de dinâmica não linear, tais como diagramas de bifurcação, respostas no tempo e plano de fase e bacias de atração. Os resultados mostram que a consideração dos acoplamentos não lineares é essencial para se avaliar o nível de segurança destas estruturas.
Due to its efficiency, thin-walled structural elements with open sections, such as I, L, C and Z profiles, are common in steel structures, being usual in engineering applications. Most thin-walled beams have a good flexural strength around of the principal axis of inertia, but a low one around the axis of lower inertia as well as low torsional stiffness. That is why these elements, generally, show instabilities that lead to flexural torsional coupling. Many of these structures do not work in a linear range and a non-linear formulation that takes into account large displacements and associated couplings is required. This dissertation presents a nonlinear model for extensional beams with thin-walled open section, considering large displacements, and flexural-torsional couplings. Initially a study of the natural frequencies, critical load and axial load vs. frequency relation is presented for different profile kinds. Based on these results, a detailed study of the dynamic behavior of non-linear profiles is made, highlighting the effect of non-linear coupling in the resonance region and its influence on the dynamic stability of the structure. For this, various tools of nonlinear dynamics are used, such as bifurcation diagrams, time histories and phase-space portraits and basins of attraction. The results show that the consideration of non-linear couplings is essential to availed the safety level of these structures.
Marjang, Nat. "Calculated Surface Velocity Coeffiecients for Prismatic Open Channels by Three-Dimensional Hydraulic Modeling". DigitalCommons@USU, 2008. https://digitalcommons.usu.edu/etd/64.
Texto completoNINA, JULIO CESAR COAQUIRA. "NONLINEAR OSCILLATIONS AND DYNAMIC INSTABILITY OF THIN-WALLED BEAMS WITH OPEN CROSS-SECTION". PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2016. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=33893@1.
Texto completoCOORDENAÇÃO DE APERFEIÇOAMENTO DO PESSOAL DE ENSINO SUPERIOR
PROGRAMA DE EXCELENCIA ACADEMICA
Estruturas com elementos de seção aberta e paredes delgadas são amplamente utilizados em estruturas metálicas. Estes elementos têm, em geral, baixa rigidez a torção. Para seções monosimétricas e assimétricas, quando o centro de cisalhamento não coincide com o centro de gravidade, pode ocorrer acoplamento entre flexão e torção. Devido à baixa rigidez à torção, podem ocorrer grandes rotações das seções transversais da viga. Assim, uma análise do comportamento de tais elementos estruturais, levando em consideração a não linearidade geométrica, é desejável. Com este objetivo, equações diferenciais parciais de movimento que descrevem o acoplamento flexão-flexão-torção são utilizadas, em conjunto com o método de Galerkin, para se obter um conjunto de equações discretizadas de movimentos, que é resolvido pelo método Runge-Kutta. A partir das equações linearizadas, obtêm-se as frequências naturais, cargas críticas axiais e a relação entre carga axial e frequência para vigas com diferentes condições de contorno. A seguir, estudam-se as oscilações não lineares e bifurcações de uma viga engastada-livre submetida a cargas laterais harmônicas. Uma análise paramétrica detalhada, usando várias ferramentas de dinâmica não linear, investiga o comportamento dinâmico não linear e não planar da viga nas três primeiras regiões de ressonância e a influência da não linearidade, posição do carregamento, restrições à torção e parâmetros de controle do carregamento na estabilidade dinâmica da estrutura.
Structural elements with open and thin-walled section are widely used in metal structures. These elements have, in general, low torsional stiffness. For monosymmetric and asymmetric sections, when the shear center does not coincide with the center of gravity coupling between bending and torsion may occur. Due to the low torsional stiffness, large twist beam cross sections may arise. Thus, an analysis of the behavior of such structural elements, taking into account the geometric nonlinearity, is desirable. For this purpose, partial differential equations describing the flexural-flexural-torsional coupling are used in conjunction with the Galerkin method to obtain a set of discretized equations of motion, which is solved by the Runge-Kutta method. From the linearized equations, we obtain the natural frequencies, axial critical loads, and the axial load and frequency relationship for beams with different boundary conditions. Next, we study the nonlinear oscillations and bifurcations of a clamped-free beam subjected to harmonic lateral loads. A detailed parametric analysis, using various nonlinear dynamics tools, investigates the nonlinear dynamic behavior and nonplanar motions of the beam for the first three regions of resonance and the influence of the non-linearity, loading position, torsional restraints and load control parameters on the dynamic stability of the structure.
Paquet, Jeanne. "Development of a new design method for the cross-section capacity of steel open sections at high temperatures". Master's thesis, Université Laval, 2021. http://hdl.handle.net/20.500.11794/69308.
Texto completoAt high temperatures, steel suffers from great lossesin strength and stiffness. Different design methods must therefore be considered to predict the resistance of steel in the exceptional situation of fire. Current standards propose simplified methods to predict the resistance of steel at high temperatures. However, these methods are inspired by steel design equations used at room temperature and are therefore generally not suitable to predict accurately the resistance of steel elements in fire situation. This thesis presents research investigations pursued to propose a new design method for open steel cross-sections subjected to high temperatures by means of the Overall InteractionConcept (O.I.C.). This calculation method is based on the interaction between resistance and stability and allows to consider geometrical and material imperfections. The advantage of this new calculation method is that it allows to obtain precise results and to keep continuity between predictions contrarily to standards that use the cross-section classification. A numerical model, initially developed for open steel cross-sections at ambient temperature,was improved to predict the resistance of steel at high temperatures. It was then verified against experimental test results to ensure its accuracy. After validation, the numerical model was used to conduct simulations using different geometries, temperatures, yield limits andload cases. Results were then used to formulate new design proposals for cross-sections at high temperatures in the O.I.C. format. The performance of the new proposal was then evaluated et compared with the performance of existing standards. This evaluation allowed to conclude that the proposition is much more accurate than existing standards. Finally, the evolution of the behaviour of steel between cold and high temperature was briefly analysed. As this point was only briefly discussed, it opens the door for future studies on the subject.
Eade, James C. "Investigation of open periodic structures of circular cross section and their transition to solid circular waveguide". Thesis, Loughborough University, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.394873.
Texto completoHoohlo, Changela. "A numerical and experimental study of open-channel flow in a pipe of circular cross-section with a flat bed". Thesis, University of Newcastle Upon Tyne, 1994. http://hdl.handle.net/10443/386.
Texto completoSterling, Mark. "A study of boundary shear stress, flow resistance and the free overfall in open channels with a circular cross-section". Thesis, University of Birmingham, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.312038.
Texto completoFasel, Markus Verfasser], Peter [Akademischer Betreuer] Braun-Munzinger y Jochen [Akademischer Betreuer] [Wambach. "Single-electron analysis and open charm cross section in proton-proton collisions at √s = 7 TeV / Markus Fasel. Betreuer: Peter Braun-Munzinger ; Jochen Wambach". Darmstadt : Universitäts- und Landesbibliothek Darmstadt, 2012. http://d-nb.info/1106256743/34.
Texto completoOrazbayev, Azamat. "Open Shell Effects in a Microscopic Optical Potential for Elastic Scattering of Exotic Helium Isotopes". Ohio University / OhioLINK, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1377604473.
Texto completoBeyer, André. "Résistance des barres en acier à section ouverte soumises à une combinaison d’effort normal, de flexion et de torsion". Thesis, Université de Lorraine, 2017. http://www.theses.fr/2017LORR0204/document.
Texto completoStructural steel members with open cross-section are, in the majority of cases, subject to a combination of axial forces and mono- or bi-axial bending. Nonetheless, owing to specific use they may be subject to torsion as well. Even if torsional loads are of practical interest for steel members of open section, the European standard for the design of steel structures, Eurocode 3, does not contain a generally accepted design method addressing the resistance of these members. Consequently, the main objective of this thesis is to close the lack in the current standard. So as to attain this objective the behaviour of members of open section subject to a complex load combination has been studied theoretically, experimentally and numerically. First, the plastic resistance of steel members has been analysed. It has been shown that members subject to torsion may possess a high plastic system reserve that cannot be predicted by simple elastic analysis. So as to account for the beneficial effect of the plastic reserve, a simplified analysis method has been developed and validated with numerical simulations. After this, the plastic interaction between all internal forces and moments has been studied. Several laboratory tests have been performed to characterise the interaction between bending moments and the shear force. The study is then extended to more complex interaction cases including torsion by means of numerical simulations. The laboratory test and the numerical simulations allowed the development of a precise resistance model based on the “Partial Internal Force Method” developed in the past. The last part of this thesis was dedicated to the member resistance including instability. A resistance model has been developed based on the Eurocode 3 interaction equations. So as to overcome some of the limitations linked to this method, a second design approach is developed based on the “Overall Interaction Concept”
Marchildon, Miguel. "An Application of the Gravity Model to International Trade in Narcotics". Thesis, Université d'Ottawa / University of Ottawa, 2018. http://hdl.handle.net/10393/37258.
Texto completoCole, Joanne Elise. "Open charm production in deep inelastic diffractive ep scattering at HERA". Thesis, Imperial College London, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.321958.
Texto completoJrad, Wassim. "Dynamic behavior of thin-walled beams : Analytical, numerical and experimental approaches". Electronic Thesis or Diss., Université de Lorraine, 2019. http://www.theses.fr/2019LORR0271.
Texto completoThin-walled beams with open section constitute main elements in engineering applications fields as in civil engineering, automotive and aerospace construction. Due to slenderness and cross section shapes, these elements are very sensitive to torsion and instabilities in both statics and dynamics. In dynamics, the torsional and flexural-torsional modes of vibration are often lower frequencies compared to the classical plane pure bending modes. Thus, planar failures of such structures are known to be an exception rather than a rule. In torsion, warping is important and governs the behavior. In this thesis work, we are interested with the dynamic behavior of thin-walled beams with arbitrary open cross sections. Based on the Vlasov’s model accounting for warping, the 3D motion equations are derived from the Hamilton’s principle. Original analytical solutions for different boundary conditions are derived for higher free vibration modes. In these solutions, the effects of the inertial rotation terms in bending and torsion are taken into consideration. For more general cases, a 3D beam finite element model is described and implemented. Compared to conventional 3D beams, warping is considered as an additional Degree Of Freedom (DOF). The mass and stiffness matrices are obtained by numerical integration (Gauss method). In the model, free and forced vibration analyses are possible. The model is validated by comparison with benchmark solutions available in the literature and other numerical results obtained from simulation on commercial codes. In order to validate the present model, laboratory test campaign is undertaken at the LEM3 laboratory in Metz. Tests are carried out on thin-walled beams with different boundary conditions. Free and forced vibration tests are performed using impact hammer and shaker machine. In the presence of arbitrary sections, flexural-torsional vibration modes are observed. The analytical, the numerical and the experimental solutions are compared and validated. Moreover, the numerical and experimental dynamic response spectra are compared. A good agreement between the various solutions is remarked. The model is extended to 3D beams in presence of lateral braces. 3D elastic and viscous springs are added in the finite element model. The effect of the springs is studied in order to improve the behavior of thin-walled beams against undesirable lateral bending and torsion modes
Andersson, Lucas. "Shadow effects in open cross-sections : An analysis of steel temperatures with COMSOL Multiphysics, TASEF and Eurocode". Thesis, Luleå tekniska universitet, Byggkonstruktion och brand, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-70086.
Texto completoYuen, K. W. H. "A study of boundary shear stress, flow resistance and momentum transfer in open channels with simple and compound trapezoidal cross sections". Thesis, University of Birmingham, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.492540.
Texto completoJones, A. "A cross-sectional investigation of acute aerobic exercise intensity on attentional and executive control processing during the Stroop test in healthy aging : an ERP study". Thesis, Coventry University, 2016. http://curve.coventry.ac.uk/open/items/c17c4d43-e636-43e6-8e58-f218b72a8098/1.
Texto completoHsieh, Wei-Chen y 謝瑋珍. "A Study of Water Quality Model for Open Channel Flow with Circular Cross Section". Thesis, 2005. http://ndltd.ncl.edu.tw/handle/23017267224683879279.
Texto completo淡江大學
水資源及環境工程學系碩士班
93
The objective of this study is to develop a linearized analytical model and solve the diffusion problems of pollutants. The water quality model includes unsteady discharge equations and continuity equation of concentration. Because the De Saint Venant equations which contain the continuity and momentum equations, and the continuity equation of contraction are nonlinear partial differential equations, it is difficult to obtain the exact solution. In this study, a linearized analytical technique is provided, not only apply to the scheme of the nonlinear differential equations, and also apply to the coefficients of the diffusion terms of the water quality model. The linearized analytical method has been used in solving regular rectangular cross sections of open channel successfully. Because the circular cross section of the open channel is more complicated than other rectangular or wide rectangular cross sections, the methods used before of obtaining coefficients of the diffusion equations of discharges and concentrations are using Taylor Series expansion which exist the infinite terms of the series. Therefore, it is impossible to obtain accurate solutions. In this study, an unsteady water quality model of open channel with circular cross section is proposed. By using the linearized analytical method to modify the coefficients of the diffusion equations of and concentration, the good results are obtained.
Chang, Po-Chao y 張博超. "The study on the suddenly continuous contracted and expanded cross-section open channel flow". Thesis, 2004. http://ndltd.ncl.edu.tw/handle/j4fd7k.
Texto completo國立成功大學
水利及海洋工程學系碩博士班
92
The manhole (or junction box) in the sewer system is same the suddenly continuous expanded and contracted cross-section in the short distance of channel. In order to design the sewer system, effect on the flow due to a series of the suddenly continuous expanded and contracted cross-section in the prismatic channel is studied by the theoretical analysis and the hydraulic experimentations. The backwater effect due to the suddenly expanded cross-section will make upstream depth higher than the normal depth. The hydraulic jump and the cross wave are induced by the separate phenomena on the downstream of the suddenly continuous expanded and contracted cross-section. The depth of both the suddenly continuous contracted and expanded cross-section and the upstream reach also will be increased by the choke due to the separate phenomena.
Peng, Shih-Chuen y 彭詩淳. "Free Vibration Analysis of Thin-Walled Open Cross-Section Beams with Initial Axial Loads". Thesis, 2016. http://ndltd.ncl.edu.tw/handle/yq3e8j.
Texto completo國立交通大學
機械工程系所
105
The geometrical nonlinear static behavior and infinitesimal free vibration around the static equilibrium position are studied using total Lagrangian finite element method for three dimensional thin-walled beams with point-symmetric open section subjected to axial load with its resultant passing through the centroid of beam cross section. The bimoment induced by axial load is considered in this study. The element employed here has two nodes with seven degrees of freedom per node. The element nodes are chosen to be located at the shear center of the end cross sections of the beam element and the shear center axis is chosen to be the reference axis. The kinematics of the beam element is described in the current element coordinate system constructed at the current configuration of the element. The current element coordinate system is regarded as an inertial local coordinate system. Thus, the first and the second time derivative of the position vector defined in the element coordinates are the absolute velocity and absolute acceleration. The element deformation nodal forces and inertia nodal forces are systematically derived by the d'Alembert principle, the virtual work principle and consistent second order linearization in the current element coordinates. The equilibrium equations may be obtained by dropping the terms of the inertia forces in the equation of motion. The governing equations for linear vibration around the static equilibrium position are obtained by the first order Taylor series expansion of the equation of motion at the static equilibrium position. An incremental-iterative method based on the Newton-Raphson method combined with constant arc length of incremental displacement vector is employed for the solution of the nonlinear equilibrium equations. The subspace iterative method is used for the solution of natural frequencies and vibration modes for the free vibration. Numerical examples are studied to investigate the effects of the axial load and bimoment induced by axial load on the critical state, critical load and the natural frequencies of z cross section beams with different lengths and boundary conditions under axial loading. The objective of the paper is to analyze the influence of bimoment induced by constant axial loads on the free motion of thin-walled beams with point-symmetric open cross- section. For various boundary conditions, a closed-form solution for natural frequencies of free harmonic vibrations was derived by using a general solution of governing differential equations of motion based on Vlasov’s theory. In order to investigate the effect of the bimoment on natural frequencies, the numerical examples with symmetric Z cross-section are given. The obtained results, verified using an ANSYS finite element model, demonstrate that the influence of the bimoment is important in the assessment of torsional natural frequencies. A force with its resultant passing through the centroid of a particular section and being perpendicular to the plane of the section. A force in a direction parallel to the long axis of the structure
TANG, TERRY y 唐後君. "An Experiment on the Downstream Scouring of the Open Dam with Compound Cross-Section". Thesis, 2001. http://ndltd.ncl.edu.tw/handle/22300429021267372802.
Texto completo國立中興大學
水土保持學系
89
Open dams are usually built with long rectangular openings and are easily blockaded by boulders. To solve this problem, this study investigated the downstream scouring response of an open dam with compound cross-section under various combinations of three opening types, three bed slopes, three flow discharges, and three sediment types. Based on the flume experiments and regression analysis for the results, this study found that the relationship among scouring factors (i.e., maximum scouring depths, maximum length from the deepest point of the scouring pool to the dam, scouring length, energy dissipation rate, channel slope, diameter of bed-load sediment, and water run-through area) and concluded empirical formulas for their relationships. Meanwhile, experimental findings indicated that the extreme scouring depth would increase with the flow discharge and channel slope, while mix sediments provided better armoring function for downstream channel bed. Besides, this study also discovered that the scouring length and energy dissipation rate would decrease with higher flow discharge and increased with steeper channel.
Chang, Kuo-Wei y 張國威. "A Study on the Water Quality Model for Open Channel Flow with Circular Cross Section". Thesis, 1999. http://ndltd.ncl.edu.tw/handle/61836986697189597430.
Texto completo淡江大學
水資源及環境工程學系
87
In the study, an analytical solution is proposed for simulating unsteady open channel flow with circular cross section, and the linearized of the Saint-Venant equation by small perturbation is used to obtain analytical solution . The proposed analytical method is tested for circular channel. It can also be applied to different flow conditions, such as the downstream boundary condition is approximately by a normal flow. The sensitivity analysis of reference central angle, using the reference discharge to solve the concentration routing problem to obtain the best solution. This result shows that the analytical solution is good, economic, efficient approximation in practical cases.
Fasel, Markus. "Single-electron analysis and open charm cross section in proton-proton collisions at √s = 7 TeV". Phd thesis, 2012. https://tuprints.ulb.tu-darmstadt.de/3150/4/PHDthesis.pdf.
Texto completoExeni, Fabian Cabrera. "One-dimensional Modelling of the Space Behaviour of Linearly Elastic Tapered Thin-Walled Bars with Open Cross-Section: Some Contributions". Doctoral thesis, 2020. http://hdl.handle.net/10316/91093.
Texto completoThe main body of the thesis is divided into two largely self-contained parts. The first one is devoted to the development of a continuous one-dimensional linear model for the stretching, bending and twisting of tapered thin-walled bars with open cross-sections under general quasi-static loading conditions. These bars are treated as two-dimensional Kirchhoff-Love shells, exhibiting both membrane and flexural behaviours. To achieve the necessary dimensional reduction, the classical assumptions of Vlasov and Kirchhoff-Love are regarded systematically as internal constraints, that is, a priori restrictions, of a constitutive nature, on the possible deformations of the bars (alternatively, they may also be viewed as holonomic-scleronomic constraints). Moreover, the internal forces are decomposed additively into active and reactive parts and this is shown to lead to a dual one-dimensional description of kinematics and statics. Two examples illustrate the application of the developed one-dimensional model, shed light on its physical aspects and demonstrate the shortcomings of piecewise prismatic models, regardless of the number of prismatic segments used (indeed, even in the limit when the length of these segments tends to zero). The main original contributions in this first part of the thesis may be summarized as follows: (i) The second fundamental form of the middle surface of a bar and the change of curvature tensor are established in general form. (ii) The displacement field of a whole bar (not just of its middle surface) is completely characterized, thus including the so-called through-the-thickness (or secondary) warping deformation. (iii) In the characterization of the internal forces in the bar, the shell bending and twisting moments and the transverse shear forces are taken into account, in addition to the membrane forces. (iv) The Saint-Venant contribution to the strain energy and the corresponding component of the total torque are derived consistently. (v) A set of fundamental inequalities concerning the cross-sectional properties is established. The second part of the thesis is restricted to the important special case of depth-tapered singly symmetric I-section bars and deals with one-dimensional models of the Hencky bar-chain type, whose nature is intrinsically discrete. Indeed, a Hencky bar-chain model consists of a finite number of rigid units linked by elastic springs (or, more generally, by rheological elements) – it can be thought of not only as an idealization of a (continuous) member, but also as an actual mechanical structure in its own right, the inherent simplicity and transparency of which make its qualitative behaviour more easily grasped. Two types of problem are addressed in successive chapters: (i) the linear mechanical behaviour in three-dimensional space under general quasi-static loading conditions and (ii) the linearized flexural-torsional buckling behaviour under bending (in the plane of symmetry, which is also the plane of greatest flexural rigidity) and compression, including the so-called Wagner effect associated with the asymmetry of the flanges. Particular attention is paid to the calibration of the spring stiffnesses and to the appropriate definition of boundary conditions. It is shown that the bar-chain models are consistent with (but not subordinate to or in any away dependent on) previously developed Vlasov-type continuum models, in the sense that the local truncation errors tend to zero as the length of the rigid units approaches zero. Several illustrative examples, including prismatic and flangeless members (i.e., members with narrow rectangular cross-sections), are solved in order to verify the discrete Hencky bar-chain models and to assess their convergence rates.
Contributos para a Modelação Unidimensional do Comportamento Tridimensional de Barras Não Prismáticas com Secção de Parede Fina Aberta A tese encontra-se dividida em duas partes em larga medida independentes. A primeira é dedicada ao desenvolvimento de um modelo linear unidimensional contínuo para a flexão e torção de barras com secção aberta de paredes finas, continuamente variável, submetidas a carregamentos quase-estáticos genéricos. Estas barras são tratadas como cascas de Kirchhoff-Love (bidimensionais), considerando tanto o comportamento de membrana como o de flexão. Para levar a cabo a necessário redução dimensional, as hipóteses clássicas de Vlasov e Kirchhoff-Love são tratadas sistematicamente como constrangimentos internos, isto é, restrições de natureza constitutiva às possíveis deformações de uma barra (alternativamente, aquelas hipóteses podem também ser vistas como constrangimentos holonómicos-escleronómicos). Assim, as forças internas são decompostas em parcelas activa e reactiva, o que conduz a uma descrição dual (unidimensional) da cinemática e da estática. São apresentados dois exemplos que ilustram a aplicação do modelo unidimensional desenvolvido, esclarecem os seus aspectos físicos e atestam as limitações dos modelos seccionalmente prismáticos (ou “em escada”), independentemente do número de segmentos prismáticos utilizados (de facto, estas limitações mantêm-se mesmo no processo de passagem ao limite quando o comprimento dos segmentos tende a para zero). Os principais contributos originais nesta primeira parte da tese podem ser resumidos da seguinte forma: (i) Obtêm-se expressões gerais para a segunda forma fundamental da superfície média de uma barra e para o tensor de mudança de curvatura (ii) Generaliza-se a definição do campo de deslocamentos da superfície média para todo a barra, incluindo assim a caracterização do empenamento na espessura das paredes (também designado por empenamento secundário). (iii) Na caracterização dos esforços internos, são tidos em consideração não apenas os esforços de membrana, mas também os momentos flectores e de torção e as forças de corte transversais “de casca”. (iv) A contribuição de Saint-Venant para a energia de deformação e a componente correspondente do momento torsor total são obtidas de forma consistente. (v) Estabelece-se um conjunto de desigualdades fundamentais relativas às propriedades mecânicas das secções transversais. A segunda parte da tese, cujo âmbito se restringe ao importante caso particular de barras com secção em I monossimétricas e altura variável, trata de modelos unidimensionais do tipo Hencky, cuja natureza é intrinsecamente discreta. De facto, um modelo de Hencky consiste num número finito de unidades rígidas ligadas por molas elásticas (ou, mais geralmente, por elementos reológicos) e pode ser encarado não apenas como uma idealização de um elemento estrutural contínuo, mas também como uma estrutura real por direito próprio. A sua simplicidade e transparência faz com que o seu comportamento, de um ponto de vista qualitativo, seja mais facilmente apreendido. São abordados dois tipos de problema em capítulos sucessivos: (i) o comportamento linear no espaço tridimensional, sob acções quase-estáticas genéricas e (ii) a encurvadura por flexão-torção (linearizada) de vigas e colunas-viga solicitadas à flexão no seu plano de simetria (que é também o plano de maior rigidez à flexão), incluindo o chamado efeito Wagner associado à assimetria dos banzos. É dada uma especial atenção à calibração das rigidezes da mola e à definição apropriada das condições de fronteira. Mostra-se que os modelos de Hencky, se bem que desenvolvidos de forma totalmente independente, são consistentes com modelos contínuos do tipo Vlasov previamente desenvolvidos, na medida em que os erros de truncatura locais tendem para zero à medida que o comprimento das unidades rígidas também se aproxima de zero. Apresentam-se vários exemplos ilustrativos, que incluem elementos prismáticos e elementos de secção rectangular fina, de forma a verificar os modelos discretos de Hencky e avaliar as suas taxas de convergência.
Chen, Cong. "Unsteady Galloping of Bridge Decks during the Launching Phase". Doctoral thesis, 2021. http://hdl.handle.net/2158/1253903.
Texto completoPAN, QI-LIANG y 潘其良. "Dynamic analysis of thin-walled beams of open cross-sections". Thesis, 1991. http://ndltd.ncl.edu.tw/handle/28161133325936034180.
Texto completoAndrade, Anísio Alberto Martinho de. "One-dimensional models for the spacial behaviour of tapered thin-walled bars with open cross sections : static, dynamic and buckling analyses". Doctoral thesis, 2013. http://hdl.handle.net/10316/21532.
Texto completoTapered thin-walled bars are extensively used in the fields of civil, mechanical and aeronautical engineering. The competitiveness of tapered structural members is hindered by the fact that their spatial behaviour is still poorly understood and by the lack of rational and efficient methods for their analysis and design. The present thesis aims at providing a contribution to overcome these drawbacks, by (i) developing one-dimensional models (i.e., models having a single independent spatial variable) to perform linear static, dynamic and lateral-torsional buckling analyses of tapered thin-walled bars with open cross-sections, (ii) supplying physical interpretations for the key behavioural features implied by these models and (iii) offering a detailed examination of several illustrative examples that will be useful for benchmarking purposes. The first part of the thesis is devoted to bars whose shape allows them to resist biaxial bending by the membrane action of their walls (I-section or C-section bars, for instance). It starts with the development, based on the induced-constraint approach, of a linear onedimensional model for the stretching, bending and twisting of tapered thin-walled bars with arbitrary open cross-sections under general static loading conditions. A two-dimensional linearly elastic membrane shell model is adopted as parent theory. The Vlasov assumptions, extended to the tapered case in such a way as to retain an intrinsic geometrical meaning, are treated consistently as internal constraints, that is, a priori restrictions, of a constitutive nature, on the possible deformations of the middle surface of the bar. Accordingly, (i) the membrane forces are decomposed additively into active and reactive parts, and (ii) the constitutive dependence of the active membrane forces on the membrane strains reflects the maximal symmetry compatible with the assumed internal constraints. For a large class of tapered thin-walled bars with open cross-sections, the membrane strain and force fields implied by the internal constraints do not have the same form as in Vlasov’s prismatic bar theory – they feature an extra term, involving the rate of twist. Consequently, the torsional behaviour (be it uncoupled or coupled with other modes of deformation) predicted by our tapered model is generally at odds with that obtained using a piecewise prismatic (stepped) approach. The discrepancies may be significant, as illustrated through examples. The developed linear model is then extended into the dynamic range. The contributions of rotatory inertia and torsion-warping inertia are fully taken into account. The inclusion of a viscous-type dissipative mechanism is briefly addressed. Subsequently, we derive a model for the elastic lateral-torsional buckling of singly symmetric tapered thin-walled beams with arbitrary open cross-sections, loaded in the plane of greatest bending stiffness. The adopted kinematical description rules out any local or distortional phenomena. Moreover, the effect of the pre-buckling deflections is ignored. Since isolated beams with idealised support conditions are seldom found in actual design practice, an archetypal problem is used to show how the presence of out-of-plane restraints can be accommodated in the one-dimensional buckling model. The restraints may (i) have a translational, torsional, minor axis bending and/or warping character, and (ii) be either linearly elastic or perfectly rigid. The second part of the thesis is concerned with strip members (i.e., members with a narrow rectangular cross-section) exhibiting constant thickness and varying depth. It deals with three problems of increasing complexity: (i) the elastic lateral-torsional buckling of cantilevered beams with linearly varying depth, acted at the free-end section by a conservative point load; (ii) the elastic lateral-torsional buckling of cantilevers (ii1) whose depth varies according to a non-increasing polygonal function of the distance to the support and (ii2) which are subjected to an arbitrary number of independent conservative point loads; (iii) the elastic flexural-torsional buckling of linearly tapered cantilever beam-columns, acted by axial and transverse point loads applied at the free-end section. These three problems are tackled analytically – we obtain exact closed-form solutions to the governing differential equations and, thereby, establish exact closed-form characteristic equations for the buckling loads. However, in the third problem, the analytical approach is successful only for certain values of the ratio between the minimal and maximal depth of the strip beam-column – in the remaining cases, it is necessary to resort to a numerical procedure.
As barras não prismáticas de parede fina são largamente utilizadas em engenharia civil, mecânica e aeronáutica. A competitividade destes elementos estruturais é prejudicada pelo facto de o seu comportamento espacial ser ainda mal compreendido e pela falta de métodos eficientes para a sua análise e dimensionamento. Esta tese visa dar um contributo para superar estas dificuldades, através (i) do desenvolvimento de modelos unidimensionais (isto é, modelos com uma única variável espacial independente) para efectuar análises lineares, em regime estático ou dinâmico, e de encurvadura lateral por flexão-torção de barras com secção de parede fina aberta continuamente variável, (ii) da interpretação física dos aspectos essenciais do comportamento destas barras, tal como previsto por estes modelos, e (iii) do exame detalhado de alguns exemplos ilustrativos, com utilidade para efeitos de verificação e validação. A primeira parte da tese é dedicada às barras cuja forma lhes permite resistir a flexão biaxial por acção de membrana das suas paredes (barras com secção em I ou em C, por exemplo). Começa com o desenvolvimento de um modelo linear unidimensional para a flexão e torção de barras não prismáticas com secção de parede fina aberta arbitrária, submetidas a carregamentos estáticos genéricos. Como ponto de partida, adopta-se um modelo bidimensional de membrana. As hipóteses de Vlasov, generalizadas ao caso não prismático de forma a manterem um significado intrínseco, são tratadas como constrangimentos internos, isto é, restrições de natureza constitutiva às possíveis deformações da superfície média da barra. Assim, (i) as forças de membrana são decompostas em parcelas activa e reactiva e (ii) a relação constitutiva entre as forças de membrana activas e as deformações de membrana reflecte a simetria máxima compatível com os constrangimentos internos impostos. Em geral, os constrangimentos internos admitidos implicam que as expressões analíticas que definem os campos de deformações e forças de membrana em barras não prismáticas incluem uma parcela adicional, associada à torção, em relação às da teoria de Vlasov para barras prismáticas. Assim, o comportamento torsional previsto pelo modelo unidimensional desenvolvido contrasta, em geral, com o obtido através de uma modelação “em escada”, em que uma barra não prismática é aproximada por uma sequência de segmentos prismáticos. Os exemplos ilustrativos apresentados permitem concluir que as diferenças podem ser significativas. O modelo linear desenvolvido é depois generalizado para o caso da análise dinâmica. As contribuições das inércias de rotação e de empenamento de torção são tomadas em consideração. Discute-se também a inclusão de um mecanismo de dissipação do tipo viscoso. Em seguida, estabelece-se um modelo unidimensional para a encurvadura lateral por flexão-torção de vigas monossimétricas não prismáticas com secção de parede fina aberta arbitrária. A descrição cinemática adoptada exclui a consideração de fenómenos locais ou distorcionais. O efeito dos deslocamentos de pré-encurvadura é também ignorado. Uma vez que, na prática, é raro encontrar vigas isoladas e com condições de apoio ideais, mostra-se ainda, através de um problema arquétipo, como se pode ter em consideração a presença de elementos de contraventamento. Estes elementos podem (i) restringir a translação, a torção, a rotação em torno do eixo de menor inércia e/ou o empenamento por torção e (ii) ser rígidos ou exibir um comportamento elástico linear. A segunda parte da tese diz respeito a elementos com secção rectangular fina de espessura constante e altura variável. São estudados três problemas de complexidade crescente: (i) a encurvadura lateral por flexão-torção de consolas com altura linearmente variável e submetidas a uma carga pontual transversal aplicada na extremidade livre; (ii) a encurvadura lateral por flexão-torção de consolas (ii1) com variação poligonal da altura e (ii1) submetidas a um número arbitrário de cargas pontuais transversais independentes; (iii) a encurvadura por flexão-torção de colunas-viga em consola com altura linearmente variável, actuadas por uma carga pontual axial e outra transversal, ambas aplicadas na extremidade livre. Estes três problemas são resolvidos analiticamente – obtêm-se soluções exactas para as equações diferenciais que os regem, o que permite estabelecer, também de forma exacta, as equações características para determinar as cargas de encurvadura. No entanto, no terceiro dos problemas elencados, a abordagem analítica só dá frutos numa determinada gama de relações entre as alturas mínima e máxima, sendo necessário recorrer a um procedimento numérico nos restantes casos.
Chen, Ying y 陳瑩. "A study on the free surface profiles in an open channel with cross-sectional variation by numerical and experimental methods". Thesis, 2013. http://ndltd.ncl.edu.tw/handle/49972125866116660134.
Texto completo中原大學
生物環境工程研究所
101
In this study, we examined the 3D free surface profiles with downstream cross section expanded or reduced the least-squares finite element method (LSFEM) has been used to solve the momentum and mass conservation equations. The experimental results were compared with the simulation results and shown in good agreement with each other. The flow phenomena in the open channel with downstream cross-section variation were discussed in detail. By changing the inflow condition, the analysis between the simulation and experimental results stated that channel cross-sectional reduced will produce dramatically changes in water level, especially the water level in the upstream section where water accumulates in the corner. With the larger inlet velocity, the water level increasing phenomenon will be more obvious. The level of free surface at the side walls is larger than at the central of channel when the cross-section is changed. Regardless of the cross-section is gradually expanded or shrunk, with the larger inlet velocity, the lower free surface level.