Global ETD Search

91	RELIABILITY-BASED DESIGN OPTIMIZATION OF CORROSION MANAGEMENT STRATEGIES FOR REINFORCED CONCRETE STRUCTURES Sajedi, Siavash January 2017 (has links) No description available. Civil Engineering Corrosion repair steel-concrete bond load-deflection prediction FE analysis reliability analysis multi-objective optimization life-cycle-cost-analysis RC bridge
92	Behaviour of headed shear stud in composite beams with profiled metal decking Qureshi, J., Lam, Dennis January 2012 (has links) This paper presents a numerical investigation into the behaviour of headed shear stud in composite beams with profiled metal decking. A three-dimensional finite element model was developed using general purpose finite element program ABAQUS to study the behaviour of through-deck welded shear stud in the composite slabs with trapezoidal deck ribs oriented perpendicular to the beam. Both static and dynamic procedures were investigated using Drucker Prager model and Concrete Damaged Plasticity model respectively. In the dynamic procedure using ABAQUS/Explicit, the push test specimens were loaded slowly to eliminate significant inertia effects to obtain a static solution. The capacity of shear connector, load-slip behaviour and failure modes were predicted and validated against experimental results. The delamination of the profiled decking from concrete slab was captured in the numerical analysis which was observed in the experiments. ABAQUS/Explicit was found to be particularly suitable for modelling post-failure behaviour and the contact interaction between profiled decking and concrete slabs. It is concluded that this model represents the true behaviour of the headed shear stud in composite beams with profiled decking in terms of the shear connection capacity, load-slip behaviour and failure modes. Push test Profiled metal decking Shear connection Capacity Steel-concrete interface Finite element modelling ABAQUS/Explicit Concrete damaged plasticity Headed shear stud Composite beams
93	Effects of partial fire protection on temperature developments in steel joints protected by intumescent coating Dai, Xianghe, Wang, Y.C., Bailey, C.G. January 2009 (has links) No / This paper presents experimental results of temperature distribution in fire in four typical types of steel-concrete composite joint (web cleat, fin plate, flush endplate and flexible endplate) with different fire-protection schemes. The test specimens were unloaded and the steelwork of each joint assembly was exposed to a standard fire condition [ISO 834, 1975: Fire Resistance Tests, Elements of Building Construction, International Organization for Standardization, Geneva] in a furnace. In total, 14 tests were conducted, including 4 tests without any fire protection and 10 tests with different schemes of fire protection. The main objective of these tests was to investigate the effects of three practical fire-protection schemes as alternatives to full fire protection of the entire joint assembly. The three alternative methods of fire protection were: (1) protecting a segment, instead of the entire length, of the beams; (2) unprotected bolts and (3) protecting the columns only. The main results of these tests are: (1) if all the steel work (excluding the bolts) in the joint assembly was protected, whether or not protecting the bolts had very little effect on temperatures in the protected steelwork other than the bolts. The bolt temperatures were higher if they were not protected than if they were protected, but the unprotected bolt temperatures in a joint with fire protection to other steelwork were much lower than bolt temperatures in a totally unprotected joint; (2) as far as joint temperatures are concerned, protecting a segment of 400 mm of the beam was sufficient to achieve full protection and (3) if only the column was protected, only the joint components that were in the immediate vicinity of the column (such as welds) developed noticeably lower temperatures than if the joint assembly was unprotected, but due to heat conduction from the unprotected steel beams, these temperature values were much higher than if the joint assembly was protected. Furthermore, the column temperatures in the joint region were much higher than the protected column temperatures.
94	Design and Behavior of Composite Steel-Concrete Flexural Members with a Focus on Shear Connectors Mujagic, Ubejd 15 April 2004 (has links) This study consists of three self-standing parts, each dealing with a different aspect of design of composite steel-concrete flexural members. The first part deals with a new type of shear connection in composite joists. Composite steel-concrete flexural members have increasingly become popular in design and construction of floor systems, structural frames, and bridges. A particularly popular system features composite trusses (joists) that can span large lengths and provide empty web space for installation of typical utility conduits. One of the prominent problems with respect to composite joists has been the installation of welded shear connection due to demanding welding requirements and the need for significant welding equipment at the job site. This part of the study presents a new type of shear connection developed at Virginia Tech— standoff screws. Results of experimental and analytical research are presented, as well as the development of a recommended design methodology. The second part deals with reliability of composite beams. Constant research advances in the field of composite steel-concrete beam design have resulted in numerous enhancements and changes to the American design practice, embodied in the composite construction provisions of the AISC Specification (AISC 1999). Results of a comprehensive reliability study of composite beams are presented. The study considers specification changes since the original reliability study by Galambos et al. (1976), considers a larger database of experimental data, and analyses recent proposals for changes in design of shear connection. Comparison of three different design methods is presented based on a study of 15,064 composite beam cases. A method to consider effect of degree of shear connection on strength reduction factor is proposed. Finally, while basic analysis theories between the two are similar, requirements for determining the strength of composite beams in Eurocode 4 (CEN 1992) and 1999 AISC Specification (AISC 1999) differ in many respects. This is particularly true when considering the design of shear connections. This part of the dissertation explores those differences through a comparative step-by-step discussion of major design aspects, and accompanying numerical example. Several shortcomings of 1999 AISC Specification are identified and adjustments proposed. / Ph. D. AISC Composite Joists Composite Beams Eurocode Finite element method Headed Shear Studs Numerical Analysis Shear Connectors Shear Connection Standoff Screws Reliability Steel-Concrete Composites
95	Semi-rigid action of composite joints Davison, J.B., Lam, Dennis, Nethercot, D.A. January 1990 (has links) The results of a pilot series of tests, designed to investigate the influence of the presence of a composite floor slab on the performance of steel beam-to-column connections, are reported. Direct comparisons against equivalent bare steel tests show improvements in moment capacity (up to 15 times), with reinforcement anchorage being the main controlling factor. Thus joints to internal columns where the deck runs parallel to the beams and relatively small numbers of bars supplement the basic mesh reinforcement may be expected to give the best performance. Composite floor slab Steel beam-to-column connections Moment capacity Reinforcement anchorage Structural engineering Steel concrete composite structures Semi-rigid action Composite joints
96	Análise teórica e experimental de pisos mistos de pequena altura compostos por vigas metálicas e lajes alveolares de concreto / Theoretical and experimental analysis of slim floor systems composed by steel beam and concrete hollow core slabs Souza, Patricia Tavares de 22 March 2016 (has links) No mercado mundial existe uma visível tendência de tornar as obras mais industrializadas e racionalizadas com o objetivo de reduzir os desperdícios, acelerar a velocidade de execução das obras e garantir maior qualidade às mesmas. A adoção de elementos estruturais com certo grau de industrialização pode trazer benefícios em relação aos custos, à mão de obra, ao tempo de execução e ao impacto ambiental. Neste contexto, as estruturas mistas de aço e concreto satisfazem essa necessidade, pois tanto os elementos de aço quanto os elementos de concreto podem ser pré-fabricados, ficando apenas as etapas de içamento e montagem a serem realizadas na obra, reduzindo o uso de fôrmas e escoramentos. Os pisos mistos de aço e concreto de pequena altura caracterizam-se pelo embutimento da laje de concreto na altura do perfil de aço, sendo a principal vantagem, em relação ao piso misto convencional, a redução da altura total do composto. Portanto, este trabalho tem como objetivo analisar o comportamento de pisos mistos de aço e concreto de pequena altura com laje alveolar em concreto protendido por meio de ensaios de cisalhamento direto (push-out test) e de flexão. Na solução proposta, a transferência de esforços entre o perfil de aço e a laje alveolar foi feita por meio de conectores tipo pino com cabeça e concreto moldado no local. Os resultados demonstraram-se promissores em termos de comportamento do piso misto de pequena altura, aumentando significativamente a rigidez do sistema em relação à viga de aço isolada. Em complemento, foi desenvolvida uma simulação numérica dos modelos físicos ensaiados utilizando o pacote computacional DIANA®, fundamentado no método dos elementos finitos, na qual o modelo numérico representou adequadamente o comportamento dos pisos mistos de pequena altura, permitindo análises paramétricas. / On the world market, there is a visible tendency to turn buildings construction more industrialized and rationalized in order to reduce waste, accelerate the construction speed and ensure higher quality to them. The adoption of structural elements with a degree of industrialization can bring benefits regarding costs, labor, construction time and environmental impact. In this context, steel and concrete composite structures satisfy this need, since steel and concrete elements can be prefabricated, with only lifting and mounting steps to be performed on site, reducing use of formwork and shoring. A type of slim floor system consists in precast concrete hollow core slabs supported on the lower flange of steel beams. The major advantage of this solution, compared to conventional composite beam, is reducing the overall height of the floor. Therefore, this study aims to analyze the behavior of slim floor with prestressed concrete hollow core slabs through push-out and bending tests. In the proposed solution, the transfer of forces between steel beam and hollow core slabs was made by stud bolts and cast on site concrete. The obtained results proved to be promising in terms of slim floor behavior, significantly increasing the system stiffness regarding the isolated steel beam. In addition, a numerical modeling of the studied slim floor system was developed, using finite element based software DIANA®, in which the numerical model adequately represented the behavior of the composite beam, allowing parametric analysis. Análise experimental Conector tipo pino com cabeça Estruturas mistas Experimental analysis Hollow core slabs Laje alveolar Piso misto de pequena altura Slim floor systems Steel-concrete composite beams Stud bolt
97	Prise en compte de la liaison acier-béton pour le calcul des structures industrielles / Modelling of steel-concrete bond slip in the reinforced concrete structural computation Mang, Chetra 20 November 2015 (has links) Le comportement des structures en béton armé peut s’avérer extrêmement complexe en cas de dépassement de la limite de fissuration du béton. Le caractère composite du béton armé doit être représenté finement. Pour la simulation des structures industrielles, les modèles numériques employés supposent une relation parfaite entre le béton et les armatures qui non seulement ne prennent pas en compte la complexité de la relation entre les deux matériaux mais aussi ne permet pas de présenter finement les caractéristiques de la fissuration étant directement liée à celle des aciers. Dans la littérature, plusieurs méthodes numériques sont proposées pour étudier finement les caractéristiques de la liaison acier-béton, mais toutes ces méthodes posent des difficultés pour les calculs de structures complexes en 3D. En partant des résultats obtenus dans le cadre de la thèse de Torre-Casanova (2012), une nouvelle formation d’un modèle de liaison acier-béton a été développée pour améliorer les performances et la représentativité (comportement cyclique). Ce nouveau modèle a été validé sur un tirant par comparaison avec une solution analytique et des résultats expérimentaux et également testé à l’échelle structurelle pour simuler le comportement d’un voile en cisaillement. Compte tenu de la difficulté pour caractériser numériquement l’ouverture de fissure en cas de fissuration complexe, une nouvelle méthode de post-traitement a également été développée. Finalement, le développement du comportement cyclique de la loi d’adhérence avec enveloppe non-réduite est intégré dans le modèle de liaison acier-béton pour prendre en compte l’irréversibilité du glissement et le boucle d’hystérésis lors du chargement en charge-décharge ou du chargement cyclique. L’application sur un tirant et sur un voile en cisaillement est également effectuée afin d’investiguer le comportement global et local. / Reinforced concrete structure behavior can be extremely complex in the case of exceeding the cracking threshold. The composite characteristics of reinforced concrete structure should be finely presented. In order to compute the industrial structures, a perfect relation hypothesis between steel and concrete is supposed in which not only the complex phenomenon of the two-material relation is not taken into account, but it is also unable to predict the crack characteristics, which is directly linked to the steel. In literature, several numerical methods are proposed in order to finely study the concrete-steel bond behavior, but these methods give many difficulties in computing complex structures in 3D. With the results obtained in the thesis framework of Torre-Casanova (2012), the new concrete-steel bond model has been developed to improve performances (iteration numbers and computational time) and the representation (cyclic behavior) of the initial one. The new model has been verified with analytical solution of steel-concrete tie and validated with the experimental results and equally tested with the structural scale to compute the shear wall behavior. Because of the numerical difficulty in post-processing the crack opening in the complex crack formation, a new crack opening method is also developed. Finally, the cyclic behavior of the bond law with the non-reduced envelope is adopted and integrated in the new bond model in order to take into account the slip irreversibility and the hysteresis during the cyclic load. The application of the model is carried out on a steel-concrete tie and a shear-wall. Béton armé Eléments finis Analyse non-linéaire Liaison acier-béton Elément d’interface Voile Tirant Reinforced concrete Finite elements Non-linear analysis Steel-concrete bond Interface element Shear wall Concrete tie 620
98	Análise de vibrações e estudo de conforto humano sobre pisos mistos (aço-concreto) submetidos a ações humanas rítmicas. / Vibration analysis and study of human confort on composite floor (steel-concrete) subjected a human rhytmic activities. Fernanda Fernandes Campista 03 March 2015 (has links) Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / Este trabalho tem por objetivo avaliar o comportamento dinâmico de pisos mistos (aço-concreto) sob a ação de cargas provenientes das atividades humanas rítmicas, especificamente a prática de ginástica aeróbica, sob o ponto de vista do conforto humano. Tal avaliação torna-se necessária por crescentes problemas estruturais associados às vibrações excessivas, decorrentes da concepção de sistemas estruturais com baixos níveis de amortecimento e com frequências naturais cada vez mais baixas e bastante próximas das faixas de frequência das excitações associadas às atividades humanas rítmicas. O modelo estrutural investigado baseiase em um piso misto (aço-concreto) submetido a aulas de ginástica aeróbica. A modelagem numérica do piso misto investigado foi realizada com base no emprego do programa ANSYS e foram utilizadas técnicas de discretização por meio do método dos elementos finitos (MEF). As cargas aplicadas sobre o piso, oriundas das atividades aeróbicas, são simuladas através de dois modelos de carregamentos dinâmicos distintos. Uma extensa análise paramétrica foi desenvolvida sobre o modelo estrutural investigado e a resposta dinâmica do sistema foi obtida, em termos dos deslocamentos e das acelerações, e comparada com os limites recomendados por normas e critérios de projeto. A resposta dinâmica do piso estudado viola os critérios de projeto relativos ao conforto humano e indica níveis de vibrações excessivas nos casos de carregamento dinâmicos analisados nesta dissertação. / This study aims to assess the dynamic behaviour of steel-concrete composite floors when subjected to human rhythmic activities, specifically the practice of aerobics, from the point of view of human comfort. This evaluation is required due to the increasing of the structural problems associated with excessive vibrations, related to structural systems designed with low levels of damping and low natural frequencies, close to the excitation frequencies associated with human rhythmic activities. The investigated structural system is composed by a steel-concrete composite floor subjected to aerobics. The proposed analysis methodology adopted the usual mesh refinement techniques present in the finite element method (FEM) simulations implemented in the ANSYS program. The loads applied on the floor, related to aerobics, are simulated using two different dynamic loading models. An extensive parametric analysis was developed on the investigated structural model and the system dynamic response was obtained, based on displacement and accelerations values, and compared with the recommended limits by standards and design criteria. The studied floor dynamic response violated the human comfort design criteria and indicated levels of excessive vibration in the investigated dynamic loading cases along this dissertation. Engenharia Civil Pisos mistos (aço-concreto) Atividades humanas rítmicas Conforto humano Vibrações excessivas Modelagem numérica Civil Engineering Steel-concrete composite floor Human rhythmic activities Human comfort Excessive vibrations Numerical modelling ENGENHARIA CIVIL
99	Avaliação númérica de ensaios push-out com conectores de cisalhamento tipo pino e perfobond. / Numerical evaluation of push-out tests with stud and perforbond shear connectors. Bruno Costa da Cruz 26 August 2011 (has links) Recentemente a utilização de estruturas mistas, aço concreto, vem ganhando espaço nas construções. Isso deve-se principalmente a economia de tempo em sua execução. Além disto, nesta solução a utilização do aço e do concreto otimiza as características estruturais de seus elementos: a resistência a tração do aço e a compressão do concreto. A transferência dos esforços entre os dois materiais possui grande influência no desempenho de uma estrutura mista, sendo comum a utilização de conectores de cisalhamento na região da interface entre estes dois materiais. O Eurocode 4 define um ensaio experimental denominado push-out de modo a determinar a resistência e ductilidade de conectores de cisalhamento. Seu desempenho é influenciado pelas resistências do concreto a compressão, as dimensões e taxa de armadura da laje de concreto, dimensões do perfil de aço, a disposição e a geometria dos conectores e pelas características dos aços utilizados no conector, no perfil e nas barras de reforço. Nota-se com isso uma grande quantidade de variáveis que influenciam o ensaio. Assim, o presente trabalho apresenta o desenvolvimento de um modelo em elementos finitos com base no programa ANSYS para simulação de ensaios push-out. Os resultados numéricos apresentados neste trabalho foram calibrados com resultados obtidos em ensaios experimentais existentes na literatura de ensaios push-out para conectores do tipo pino com cabeça (stud) e conectores tipo perfobond. Estes últimos apresentam elevada resistência sendo influenciados por inúmeros fatores como: número e diâmetro dos furos no conector e a inclusão ou não de barras de reforço extras nestes furos. / A continuous increase of the use of (steel & concrete) composite structures in constructions can be recently observed. This is mainly due to its faster execution time when compared to other construction alternatives. Additionally, these solutions optimize the structural characteristics of the involved materials: the steel tension capacity and the concrete compressive strength. The transfer of forces between these different materials greatly influences the composite structure performance, where typical solutions uses shear connectors at the concrete to steel interface. The Eurocode 4 defines an experimental test, denominated push-out, to determine the shear connectors strength and associated ductility capacity. Its performance is influenced by the concrete compressive strength, slab dimensions and adopted reinforcing bar area, steel profile dimensions, shear connectors geometry and disposition and by the mechanical characteristics of the connector, profile and reinforcing bars steels. All these aspects indicate that a great number of variables can influence the test. This study presents the development of a finite element model, based on the ANSYS program, to simulate push-out tests. The numerical results presented in this investigation were calibrated against experiments reported in the literature for stud and Perfobond shear connectors. The Perfobond connectors present a substantial shear capacity being influenced by several factors like: connectors hole number and diameter and by the adoption, or not, of extra reinforcing bars passing through the connector holes. Método dos elementos finitos Análise não-linear Conector de cisalhamento Estruturas mistas aço-concreto Steel-concrete composite structures Shear connector Stud Perfobond Push-out Nonlinear analysis Finite element analysis ENGENHARIA CIVIL
100	Análise da resposta dinâmica experimental de uma passarela tubular mista, aço-concreto, submetida ao caminhar humano. / Experimental analysis of dynamic response of a tubular composite steel-concrete footbridge, submitted to human walking. José Eduardo Villarroel Zúñga 19 July 2011 (has links) Este trabalho de pesquisa apresenta como objetivo principal o desenvolvimento de investigação experimental dinâmica sobre estrutura real de uma passarela tubular mista aço-concreto. O sistema estrutural objeto deste trabalho corresponde a uma passarela composta por três vãos (32,5m, 17,5m e 20,0m, respectivamente) e dois balanços (7,50m e 5,0m, respectivamente), com comprimento total de 82,5m. A passarela com estrutura contínua de aço com as ligações soldadas se apoia em quatro pórticos também de aço. Estruturalmente está constituída por duas treliças planas que se interligam através de contraventamentos horizontais fixados na corda superior e inferior da treliça e lajes de concreto, formando um sistema misto com interação completa. A estrutura está submetida correntemente à travessia de pedestres e ciclistas. Testes experimentais foram realizados sobre o sistema estrutural e confrontados com resultados numéricos. Para a modelagem numérica do sistema são empregadas técnicas usuais de discretização, via método dos elementos finitos (MEF), por meio do programa ANSYS. Os resultados experimentais são analisados de acordo com a metodologia desenvolvida, sendo realizada análise modal experimental para a determinação das propriedades dinâmicas: freqüências, modos e taxa de amortecimento, enquanto que os resultados da estrutura, em termos de aceleração de pico, são comparados com os valores limites propostos por diversos autores, normas e recomendações de projeto, para uma avaliação do desempenho da estrutura em relação a vibração quando solicitada pelo caminhar dos pedestres no que diz respeito a critério para conforto humano. / This research has as main objective the development of a dynamical experimental investigation of a real structure a tubular composite steel-concrete footbridge. The structural system of this study corresponds to a footbridge composed by three spans (32,5m, 17,5m and 20,0m, respectively) and two overhangs (7,50m and 5,0m, respectively), spanning 82,5m. The investigated structural model is composed by a continuous tubular steel structure with welded connections supported by four double file steel columns. It is structurally composed of two plane trusses are intertwined by horizontal bracing set in upper and lower chord of the truss and slabs of concrete, forming effective composite with complete interaction. This structure is currently submitted to pedestrians and cyclists crossing. Experimental tests were carried out on the structural system and with the numerical results. For the numerical modeling, discretization techniques via finite element method were applied, based on the ANSYS program. The experimental results were analyzed according to the developed methodology, and a modal analysis was implemented to determine the dynamical properties: frequencies, mode shapes and modal damping ratio, while the structure results in terms of peak acceleration, was obtained and compared to the limit values proposed by several authors and design recommendations, for the structure performance by pedestrian walking regarding the acceptance criteria for human comfort. Estruturas mistas de aço e concreto Modelagem computacional Instrumentação dinâmica Análise modal experimental Estrutura tubular mista (aço-concreto) Passarelas de pedestres Análise dinâmica Dynamic analysis Pedestrian footbridges Modal analysis Computational modeling ENGENHARIA CIVIL

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