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161	Stability of precast prestressed concrete bridge girders considering imperfections and thermal effects Hurff, Jonathan B. 30 June 2010 (has links) The spans of precast prestressed concrete bridge girders have become longer to provide more economical and safer transportation structures. As the spans have increased, so has the depth of the girders which in turn have increased the slenderness of the girders. Slenderness in a beam or girder would increase the likelihood that a stability failure would occur. Stability failures could pose a danger to construction personnel due to the sudden nature in which a stability failure would occur. Furthermore, stability failures of prestressed concrete girders during construction would cause a detrimental economic impact due to the costs associated with the failure of the girder, the ensuing construction delays, damage to construction equipment and potential closures to highways over which the bridge was being constructed. An experimental and analytical study was performed to determine the stability behavior of prestressed concrete beams. Two stability phenomenons were investigated: (1) lateral-torsional buckling and (2) global stability. An emphasis was placed on the effects of initial imperfections on the stability behavior; the effect elastomeric bearing pads and support rotational stiffness was investigated. The experimental study involved testing six rectangular prestressed concrete beams for lateral-torsional buckling, a PCI BT-54 for thermal deformations and the same PCI BT-54 for global stability. The 32-ft. long rectangular beams were 4-in. wide and 40-in. deep. The PCI BT-54 had a 100-ft. long span. A material and geometric nonlinear, incremental load analysis was performed on the six rectangular beams. The nonlinear analyses matched the experimental load versus lateral displacement and load versus rotation behavior, and the analysis predicted the experimental maximum load within an error of 2%. The nonlinear analysis was extrapolated to several different initial imperfection conditions to parametrically study the effect of initial lateral displacement and initial rotation on the inelastic lateral-torsional buckling load. A simplified expression for lateral-torsional stability of beams with initial imperfections was developed. The data from the parametric study were used to develop reduction parameters for both initial sweep and initial rotation. The rollover stability behavior of the PCI BT-54 was investigated experimentally, and it was found that support end rotations and the elastomeric bearing pads had an adverse effect on the global stability. The nonlinear analysis was employed with the addition of a bearing pad model. It was found that the behavior was sensitive to the bearing pad stiffness properties and the assumption of uniform bearing. From the research, it was apparent that rollover stability was the controlling stability phenomenon for precast prestressed concrete bridge girders, not lateral-torsional buckling. Experimental techniques Nonlinear geometric analysis Structural stability Inelastic behavior Precast concrete Bridges Concrete bridges Prestressed concrete beams
162	Performance of AASHTO girder bridges under blast loading Islam, A. K. M. Anwarul, Yazdani, Nur. January 2005 (has links) Thesis (Ph. D.)--Florida State University, 2005. / Advisor: Dr. Nur Yazdani, Florida State University, FAMU-FSU College of Engineering, Dept. of Civil Engineering. Title and description from dissertation home page (viewed Sept. 19, 2005). Document formatted into pages; contains xi, 178 pages. Includes bibliographical references.
163	Estrutura mista aço-concreto : análise de ponte composta por vigas de alma cheia Schmitz, Rebeca Jéssica January 2017 (has links) O emprego de uma estrutura mista de aço – concreto (laje em concreto e vigas em perfis de aço) representa a priori uma solução mais eficiente para estruturas de pontes do que a consideração de uma estrutura toda em concreto ou toda em aço. No entanto para que isto ocorra na prática é necessário um dimensionamento criterioso desta estrutura, o que deve ser feito tendo como apoio softwares de simulação numérica. No CEMACOM tem sido desenvolvidos vários trabalhos nesse tema, os quais resultaram num código computacional com capacidade para simular vigas mistas submetidas a cargas de curta duração ou cargas de longa duração. Em contraponto, nesse trabalho a proposta é customizar um software comercial de elementos finitos (ANSYS) para realizar as mesmas tarefas. Depois do modelo construído tem se vantagens pois se dispõe da plataforma do ANSYS que permite analisar vários problemas associados ao assunto. Fez-se uma proposta de modelo numérico para se analisar vigas mistas no ANSYS. Tendo como ponto de partida os trabalhos de Lazzari (2015) e Lazzari et al. (2016) para a implementação do comportamento do concreto, fez-se algumas implementações numa rotina tipo usermat para fazer análises de cargas de curta duração. Os efeitos de longa duração, fluência e retração, foram implementados na rotina usermat tendo como base os trabalhos de Dias (2013) e Moreno (2016). O código customizado foi comparado contra resultados experimentais e numéricos que demonstraram o adequado funcionamento do mesmo. Finalmente o ANSYS customizado foi aplicado para modelar uma estrutura de ponte que havia sido previamente calculada por Schmitz (2014) empregando procedimentos de projeto normalizados. Os resultados obtidos são comparados contra o processo normalizado e são apresentadas as vantagens deste processo. / The use of composite steel and concrete structures (concrete deck and steel profile beams) represents a priori a more efficient solution for bridges structure than the consideration of a whole structure with concrete or whole with steel. However for this to occur in practice it is necessary a consistent design of this structure, and this should be done with the support of softwares of numerical simulations. In CEMACOM have been developed many works in this theme, which resulted on a computational code with the capacity for simulate composite beams submitted to loads with short duration or loads with long duration. In counterpoint, in this work the proposal was to customize a commercial software of finite elements (ANSYS) to do the same tasks. After the construction of the model it have advantages because it is able to use the ANSYS platform, which permit to analyze various problems associated with this subject. It was done a numerical model for analysis of composite beams in ANSYS. Considering as the start point the works of Lazzari (2015) and Lazzari et al. (2016) for the implementation of concrete behavior, some implementations were done in a routine of the type usermat to make analysis with loads with short duration. The effects of long duration, creep and shrinkage, were implemented on the usermat routine considering the jobs of Dias (2013) and Moreno (2016). The customized code was compared with experimental and numerical results that demonstrated a proper functioning. Finally, the customized ANSYS was applied to modeling a bridge structure, which was previously designed in Schmitz (2014) using standard proceedings. The obtained results are compared with the standard procedure and it is presented the advantages of this more complex proceeding. Vigas mistas Pontes (Engenharia) Simulação numérica Ansys (Programa de computador) Composite beams Customization ANSYS Composite steel Concrete bridges
164	Estrutura mista aço-concreto : análise de ponte composta por vigas de alma cheia Schmitz, Rebeca Jéssica January 2017 (has links) O emprego de uma estrutura mista de aço – concreto (laje em concreto e vigas em perfis de aço) representa a priori uma solução mais eficiente para estruturas de pontes do que a consideração de uma estrutura toda em concreto ou toda em aço. No entanto para que isto ocorra na prática é necessário um dimensionamento criterioso desta estrutura, o que deve ser feito tendo como apoio softwares de simulação numérica. No CEMACOM tem sido desenvolvidos vários trabalhos nesse tema, os quais resultaram num código computacional com capacidade para simular vigas mistas submetidas a cargas de curta duração ou cargas de longa duração. Em contraponto, nesse trabalho a proposta é customizar um software comercial de elementos finitos (ANSYS) para realizar as mesmas tarefas. Depois do modelo construído tem se vantagens pois se dispõe da plataforma do ANSYS que permite analisar vários problemas associados ao assunto. Fez-se uma proposta de modelo numérico para se analisar vigas mistas no ANSYS. Tendo como ponto de partida os trabalhos de Lazzari (2015) e Lazzari et al. (2016) para a implementação do comportamento do concreto, fez-se algumas implementações numa rotina tipo usermat para fazer análises de cargas de curta duração. Os efeitos de longa duração, fluência e retração, foram implementados na rotina usermat tendo como base os trabalhos de Dias (2013) e Moreno (2016). O código customizado foi comparado contra resultados experimentais e numéricos que demonstraram o adequado funcionamento do mesmo. Finalmente o ANSYS customizado foi aplicado para modelar uma estrutura de ponte que havia sido previamente calculada por Schmitz (2014) empregando procedimentos de projeto normalizados. Os resultados obtidos são comparados contra o processo normalizado e são apresentadas as vantagens deste processo. / The use of composite steel and concrete structures (concrete deck and steel profile beams) represents a priori a more efficient solution for bridges structure than the consideration of a whole structure with concrete or whole with steel. However for this to occur in practice it is necessary a consistent design of this structure, and this should be done with the support of softwares of numerical simulations. In CEMACOM have been developed many works in this theme, which resulted on a computational code with the capacity for simulate composite beams submitted to loads with short duration or loads with long duration. In counterpoint, in this work the proposal was to customize a commercial software of finite elements (ANSYS) to do the same tasks. After the construction of the model it have advantages because it is able to use the ANSYS platform, which permit to analyze various problems associated with this subject. It was done a numerical model for analysis of composite beams in ANSYS. Considering as the start point the works of Lazzari (2015) and Lazzari et al. (2016) for the implementation of concrete behavior, some implementations were done in a routine of the type usermat to make analysis with loads with short duration. The effects of long duration, creep and shrinkage, were implemented on the usermat routine considering the jobs of Dias (2013) and Moreno (2016). The customized code was compared with experimental and numerical results that demonstrated a proper functioning. Finally, the customized ANSYS was applied to modeling a bridge structure, which was previously designed in Schmitz (2014) using standard proceedings. The obtained results are compared with the standard procedure and it is presented the advantages of this more complex proceeding. Vigas mistas Pontes (Engenharia) Simulação numérica Ansys (Programa de computador) Composite beams Customization ANSYS Composite steel Concrete bridges
165	Contribuição ao estudo do efeito de combinação de veículos de carga sobre pontes rodoviárias de concreto / Contribution to the study of the impact of special loads vehicles on highway concrete bridges Marcelo Ferreira dos Santos 28 March 2003 (has links) O crescente desenvolvimento na indústria de transporte tornou-se um tema de pesquisa em diversos países, uma vez que as obras de arte especiais até então construídas não foram projetadas para as elevadas cargas atualmente transportadas. Mostra-se necessária uma reavaliação de como a ação do carregamento móvel é levada em consideração. Dessa forma, elaborou-se um estudo de normas e códigos de diversos países sobre o tema. Definem-se algumas combinações de veículos de cargas (CVCs) e analisam-se as conseqüências e a viabilidade do tráfego das mesmas. Essa análise é realizada através da comparação dos esforços solicitantes provocados pelas CVCs e pelos veículos previstos por normas em diversos sistemas estruturais e por meio da verificação da capacidade portante de um projeto típico. Objetivando-se encontrar uma solução que se adequasse à realidade brasileira, é elaborado um estudo sobre como outros países vêm tratando a questão das combinações de veículos de cargas especiais. Ao final do trabalho, constata-se a existência de CVCs que, apesar de atenderem às exigências estabelecidas pelo Conselho Nacional de Trânsito (CONTRAN), são incompatíveis com a as pontes da malha viária nacional. / The increasing development in the transport industry has become a research topic in several countries, once the bridges constructions built to date were not originally designed to support the ever increasing heavy loads nowadays being transported. It is thus necessary a re-evaluation of how the action of live loading is taken in consideration. A study of the codes and specifications of several countries is elaborated. It is defined some cases of combinations of special load vehicles (CVCs) and it is analyzed the consequences and viability of their traffic. This analyses is done by comparing the efforts caused by the CVC\'s to the other normative vehicles in various structural systems and by the verification of the strength capacity of a typical project. In order to find a solution in accordance with the Brazilian reality, a study is elaborated on how other countries manage the combinations of special load vehicles issue. Among other conclusions of this research, it is worth noting that there are CVC\'s that attend the standards established by the National Council of Transportation (CONTRAN) but are not compatible with the bridges of national roads. Cargas especiais Combinações de veículos de carga CVCs Estudo de viabilidade Pontes de concreto Combination of load vehicles Concrete bridges CVCs Special loads Viability study
166	Identificação de patologias em pontes de vias urbanas e rurais no municipio de Campinas-SP / Identification of pathology in brigdes in the city and in the country in the county of Campinas-SP Sartorti, Artur Lenz 12 August 2018 (has links) Orientador: Nilson Tadeu Mascia / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil e Arquitetura / Made available in DSpace on 2018-08-12T06:32:42Z (GMT). No. of bitstreams: 1 Sartorti_ArturLenz_M.pdf: 8739751 bytes, checksum: b8c521a2573d5e6622b0d27a97dc444a (MD5) Previous issue date: 2008 / Resumo: A existência de um grande número de pontes com problemas patológicos importantes motiva a pesquisa sobre este assunto. As pontes de pequeno e médio porte têm relevância significativa para o desenvolvimento econômico e social do país, pois devem assegurar o trânsito de pessoas, veículos e matérias primas e escoamento dos produtos gerados. No entanto, o estado precário em que se encontra grande parte das pontes em vias urbanas e rurais, dificulta o deslocamento, causando desconforto e insegurança aos usuários. Além disso, elevam-se os custos de transporte para os produtores e de manutenção para as prefeituras. Diante desta realidade, busca-se nesse trabalho, avaliar o estado de conservação de pontes de pequeno e médio porte em vias urbanas e rurais na região de Campinas (SP). Desta forma, um correto embasamento teórico do assunto permitirá a adoção da acertada atitude frente a um quadro patológico. Sendo assim, esta pesquisa foca uma ampla revisão bibliográfica abrangendo o estado-da-arte do projeto de pontes e da identificação das patologias nas estruturas metálicas, de concreto armado e/ou protendido e de madeira, e também visa estabelecer conceitos que serão aplicados quando da escolha do método corretivo. Além do embasamento teórico, buscou-se constatar "in loco" a manifestação de patologias em nove pontes na região do município de Campinas (SP), apresentando-se sugestões quanto à profilaxia e correção em cada caso. Para colaborar com as sugestões, foram desenvolvidos dois projetos de pontes tipo anexados à pesquisa, os quais são de estruturas mistas de aço-concreto e de madeira. Finalmente observa-se a partir da presente pesquisa, que existe a necessidade de um mapeamento rigoroso das pontes urbanas e rurais com vistas de elevar a vida útil e garantir maior segurança à sociedade. / Abstract: The existence of a great number of bridges with pathological problems motivates the research on this subject. The small and medium bridges have a main importance to the economic and social development of the country, due to they must guarantee the people, vehicle, and raw material transit and the flow of manufacture products. However, the precarious condition that a great part of the bridges is in the city and in the rural area and has difficult the movement, causing discomfort and insecurity to people. Besides, there is an increase of the cost of transport to the producer and of the maintenance to the town hall. In the presence of this reality, this work intends to evaluate the conservation state of small and medium bridges in the city and in the rural area in the region of Campinas (SP). Thus, a consistent theoretical base about this subject will permit to choose a right attitude on a pathological way and this research focuses on a complete review of bibliography covering the state-of-art of the bridge design and the pathological identify of steel, reinforced or prestressed concrete and wood structures and also will establish concepts that will be applied to the choice of a corrective method. Apart from this theoretical base, it was presented, "in loco", the pathological demonstration of nine bridges in the region of Campinas (SP), and proposed suggestions about the treatment and correction in each case. To collaborate with these suggestions, two pattern projects of bridges, which were of concrete and steel composite structure and of wood, were developed and annexed to this research. Finally, through this research it is noticed that there is a need of a rigorous mapping of the urban and rural bridges to elevate their useful life and to guarantee the right security to the society. / Mestrado / Estruturas / Mestre em Engenharia Civil Pontes Pontes de concreto Pontes metalicas Pontes - Durabilidade Bridges Concrete bridges Iron and steel bridges Maintenance bridges Evaluation bridges
167	Mapping of Dependent Structural Responses on a Prestressed Concrete Bridge using Machine Learning Regression Analysis and Historical Data : A Comparison of Different Non-linear Regression Approaches Coric, Vedad January 2023 (has links) Prestressed concrete bridges are susceptible to deterioration over time which might significantly affect their capacity and overall performance. In previous decades, infrastructure owners have found that continuous monitoring of these assets is a valuable tool for their management as it facilitates the decision-making process regarding the intervention strategies required. However, as data acquisition and measurement technologies have advanced tremendously in recent years, the amount of information that can be retrieved daily is not easy to manage and analyse. This study presents an evaluation of the effectiveness between different machine learning methods regarding prediction and interpretation of structural responses as well as the feasibility of mapping an independent variable, aspects such as metric performance, learning curves and residual plots was analysed. A comparison was made on the machine learning algorithms performing regression analysis where each model scored over 98% in the R-square metric. This study utilised data collected from a prestressed concrete bridge located in Autio, northern Sweden, that has been continuously monitored for more than three years. Prestressed Concrete Bridges Structural health Monitoring Machine Learning Regression analysis Infrastructure management Infrastructure Engineering Infrastrukturteknik Signal Processing Signalbehandling
168	Förvaltning av betongbroar : Miljö- och kostnadsanalys av åtgärder på kantbalken Ringqvist, Felix, Wollin, Erik January 2022 (has links) Rådande beslutsfattande för broar fokuserar mestadels på de tekniska, ekonomiska och säkerhetsrelaterade perspektiven. Dessa perspektiv är viktiga men samtidigt råder det på samhällsnivå en vilja och ett krav på byggsektorn att minska sin miljöpåverkan.Detta arbete identifierar metoder, arbetssätt och strategier som leder till en ökad livslängd av betongbroar. En ökad livslängd hos vårt befintliga bestånd av betongbroar undviker stora samhällsekonomiska kostnader och är önskvärt ur ett hållbarhetsperspektiv.En miljö- och kostnadsanalys har gjorts på riskkonstruktionen kantbalken. Kantbalkens valdes för analys då konstruktionsdelen visat sig vara särskilt problematisk. Analysen jämför fyra olika förvaltningsstrategier på kantbalken på en bro vars kantbalks byts efter 40 år. Strategierna som jämförs är: byte till en kantbalk med rostfri armering, byte till en kantbalk med rostfri tvärkraftsarmering, byten till en kantbalk i standardutförande och senare installation av olika katodiska skydd. Skiljande underhållsåtgärder för dessa strategier jämförs med hänsyn till ägarkostnader och användarkostnader. Miljöpåverkan för strategierna jämförs med miljöindikatorn Global Warming Potential i produktskedet.Resultatet visar att användandet av rostfri armering i kantbalken sparar mycket på användarkostnader sett till hela livslängden på bron men med en ökad miljöpåverkan i produktskedet. Dessutom kan galvaniskt katodiskt skydd med sprutad zink vara en lovande kostnadseffektiv lösning för att förlänga livslängden på kantbalkar. / Current decision-making for bridges focuses mainly on the technical, economical and safety related perspectives. These perspectives are of course important but at the same time there exists a will on societal level and a demand on the building sector to reduce their environmental impact.This report identifies methods, ways of working and strategies that lead to an increased life-span of concrete bridges. An increased life-span of our existing stock of concrete bridges avoids large socio-economic costs and is desirable from a sustainability perspective.A life-cycle analysis and life-cycle cost assessment has been done on a construction part at risk, the edge beam. The edge beam was chosen for analysis as it was shown to be a particularly problematic part of the construction. The analysis compares four different management strategies for the edge beam of a bridge where the edge beam is replaced after 40 years. The compared strategies are: replacing the edge beam for one with stainless steel reinforcement, replacing the edge beam for one with stainless steel shear reinforcement, replacing the edge beam to a standard one and later installing different cathodic protection solutions. The differing life-cycle measures for these strategies are compared with regards to owner-costs and user-costs. Environmental impact for the strategies is compared using the environmental impact indicator Global Warming Potential in the product stage.The results show that the use of stainless reinforcement in the edge beam saves a lot on user-costs over the whole life-span of the bridge but with an increased environmental impact in the product stage. Additionally, the use of galvanic cathodic protection in the form of sprayed zinc seems to be a promising cost-effective solution to increasing the life-span of edge beams. concrete bridges infrastructure life-cycle life-cycle cost management betongbroar förvaltning infrastruktur livscykel livscykelkostnad Engineering and Technology Teknik och teknologier
169	Internal curing of high-performance concrete for bridge decks Deboodt, Tyler 09 December 2011 (has links) High performance concrete (HPC) provides a long lasting, durable concrete that is typically used in bridge decks due to its low permeability, high abrasion resistance, freeze-thaw resistance and strength. However, this type of concrete is highly susceptible to the deleterious effects of both autogenous and drying shrinkage. Both types of shrinkage occur when water leaves small pores , (< 50 nm) in the paste matrix to aid in hydration or is lost to the surrounding environment. Autogenous deformation (self-desiccation) occurs as the internal relative humidity decreases due to hydration of the cementitious material. Drying (and subsequent shrinkage) occurs when water is lost to the environment and continues until the internal relative humidity is equivalent to the ambient relative humidity. Typically, the magnitude of autogenous shrinkage is less than that of drying shrinkage. These two types of shrinkage do not act independently, and the total shrinkage is the aggregation of the two shrinkage mechanisms. It is imperative to minimize the amount of shrinkage in restrained members, such as bridge decks, to reduce the cracking potential. Various methods have been researched to minimize both types of shrinkage. Two methods to that have been reported to reduce shrinkage were selected for further research; internal curing using pre-soaked lightweight fine aggregate (LWFA) and shrinkage reducing admixtures (SRAs). The purpose of this study was to determine the long-term drying shrinkage performance of these two methods while reducing the external curing duration of 14 days for new bridge deck construction as specified by the Oregon Department of Transportation. In addition to monitoring drying shrinkage, durability testing was performed on concrete specimens to ensure these shrinkage mitigation methods performed at levels similar to concrete with the current mixture design. Freeze-thaw testing, permeability testing and restrained drying shrinkage testing were conducted. It was concluded that the combination of SRAs and pre-soaked LWFA was the most effective method to reduce longterm drying shrinkage for all curing durations (1, 7, and 14 day). Additionally, for durability testing, it was found that the use of SRAs performed the best in freeze-thaw testing, chloride permeability and restrained shrinkage. / Graduation date: 2012 High-performance concrete Durability Internal curing Shrinkage reducing admixtures Bridge deck High strength concrete -- Curing Concrete -- Expansion and contraction
170	Contribuição ao projeto de pilares de pontes de concreto armado com consideração das não-linearidades física e geométrica e Interação solo-estrutura / Contribution to the design of reinforced concrete bridges piers with consideration of material nonlinearity, change in geometry and interaction soil-structure Khouri, Magid Elie 11 June 2001 (has links) Este trabalho consiste no estudo dos fatores envolvidos no projeto estrutural de pontes, mais especificamente aqueles relacionados com o comportamento dos seus pilares. A análise é efetuada mediante uma modelagem única da estrutura integrada ao maciço de solos, onde as não-linearidades física e geométricas e interação solo-estrutura são consideradas. Inicialmente é feita uma abordagem sobre a concepção do projeto dos pilares e seus arranjos, destacando os problemas diretamente envolvidos no seu cálculo. É apresentada uma formulação simples, baseada em uma só fibra ativa, para levar em consideração a não linearidade física do concreto armado. A não-linearidade geométrica é tratada quanto aos seus aspectos e critérios de utilização, e também é apresentada uma formulação baseada na Energia Potencial Total para a obtenção da matriz de rigidez tangente da estrutura. O maciço de solos é modelado com dispositivos discretos parametrizados através de curvas de resistência lateral p-y. Os aparelhos de apoio são modelados através de elementos de contato devidamente parametrizados. Finalmente, são incluídos alguns exemplos numéricos de casos típicos de pontes / This work deals with the study of factories involved in bridge structural design, specifically in regards with column behavior. The analysis is made by a unique model integrated in the soil massy, where the geometric and physics non-linearity and soil-structure interactions are taken into account. At first, it is made an approach about criteria and details of bridge column design. It is showed a simple formulation; based in one unique active fiber discretization, to consider the physics non-linearity of reinforced concrete Main aspects of geometrical non-linearity are presented. Also it is showed a formulation based in Total Potential Energy in order to obtain the structure tangent stuffiness matrix. The soil massy is modeled with discrete mechanisms by p-y lateral resistance curves. The bearing cushion pads are modeled by contact elements. At end, they are included some numerical examples of bridge typical structures column concrete bridges geometric non-linearity Interação solo-estrutura não-linearidade geométrica não-linearidade física pilares pontes de concreto

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