Search results for "Cable-stayed"

showing 6 items of 6 documents

Concrete arch bridges built by lattice cantilevers

2013

In this paper a study about concrete arch bridges built by lattice cantilevers is presented. Lattice cantilevers are partial structures composed of deck, arch, piers and provisional steel diagonals, organized as reticular cantilever girders, in order to build arch bridges without the use of centrings, supports or temporary towers. Characteristics of this construction methodology with its variants are explained together with their implications in the erection sequence. Partial elastic scheme method is implemented in order to find initial forces of temporary cables and a forward analysis is carried out to follow the actual sequence of construction, by extending a procedure already applied to …

Cable-stayedarchEngineeringCantileverStaged constructionbusiness.industryMechanical EngineeringDiagonalLattice cantileverBuilding and ConstructionStructural engineeringArch bridge; Cable-stayed; Lattice cantilever; Partial elastic scheme; Staged constructionArch bridgeDeckConceptual designMechanics of MaterialsPartial elastic schemeLattice (order)GirderCantilever methodArchbridgebusinesscantileverCivil and Structural Engineering
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The influence of time-dependent phenomena in segmental construction of concrete cable-stayed bridges

2011

Construction stages of a cable-stayed bridge are characterized by a sequence in which geometric configuration, restraints and consequently stress and strain patterns vary many times till the final arrangement is achieved. When construction of concrete bridges is made by cantilever method the influence of time-dependent phenomena becomes significant. In this study an evaluation of stay stressing procedures is given by taking into account creep and shrinkage in cantilever construction of concrete cable-stayed bridges. A methodology of stay stressing is proposed with the final target of reaching the desired geometric configuration. Comparison with classical analyses performed by backward metho…

EngineeringCantileverbusiness.industryStress–strain curveBuilding and ConstructionStructural engineeringBridge (nautical)creepDeckCreepCantilever methodsegmental constructionCable stayedbusinessBridgeCable-Stayed Bridge; Creep; Segmental Construction; Prestress Sequence; Cable ForcesShrinkage
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A Mixed Approach for Determination of Initial Cable Forces in Cable-Stayed Bridges and the Parameters Variability

2015

The determination of initial cable forces in cable-stayed bridges is an important first step in design and analysis of the structure under external loads. Adjustments of stay forces are often required during construction in order to assure the requested behaviour of the bridge in terms of final geometrical configuration and internal force distribution. An accurate assessment of the stay tensioning system allows designers to obtain a good result at the end of construction, by considering the parameters involved as deterministic quantities, assuring the observance of the execution tolerances during works. Actual loads and their variations need instead a stochastic approach which can give usef…

EngineeringParameter variabilitylcsh:TE1-450Bridge (nautical)DeckBridge Cable-stayed Parameter variability Probability Staged construction Staylcsh:TG1-470symbols.namesakelcsh:Bridge engineeringMixed approachGaussian functionBridgelcsh:Highway engineering. Roads and pavementsComputer memoryCivil and Structural EngineeringProbabilityCable-stayedStaged constructionbusiness.industrycable-stayed; bridge; stay; probability; staged construction; parameter variabilityBuilding and ConstructionStructural engineeringDistribution (mathematics)symbolsCable stayedClosed-form expressionStaybusinessThe Baltic Journal of Road and Bridge Engineering
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Stressing sequence of steel cable-stayed bridges built by cantilevering

2015

The construction of cable-stayed bridges by cantilevering implies several changes of geometry, stress and strain patterns during the assemblage of segments. The main target to be satisfied in the construction process is the achievement of the required final geometry and of a convenient state of stress for self-weight and sustained loads. The sequence of stay stressing and the values of prestressing forces at each stage of segment assembling have the main role for reaching the desired result of design, due to the large redundancy of cable-stayed structures.Among the different procedures proposed in the literature for initial cable force determination, the Partial Elastic Scheme (PES) Method …

Finite element methodPrestressingConstruction processStaged constructionFinite element procedurePrestressing forcescable stayed bridgeGeometryCable stayed bridgesNonlinear behavioursSteel cable-stayed bridgesSettore ICAR/09 - Tecnica Delle CostruzioniGeometric non-linearityOffshore pipelinesCable stayed bridges; Finite element method; Geometry; Offshore pipelines; Prestressing; Construction process; Finite element procedure; Geometric non-linearity; Nonlinear behaviours; Prestressing forces; Staged construction; Steel cable-stayed bridges; Stress and strainStress and strain
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Construction stages of cable-stayed bridges with composite deck

2012

A cable-stayed bridge is built by following a construction sequence of different subsequent stages that imply changes of the geometric configuration, restraints and consequently stress and strain patterns. A study is presented about stay stressing sequences in cable-stayed bridges with composite deck for the case of construction made by the cantilever method. Initial cable forces are found through partial elastic schemes of construction stages. Different stay stressing procedures are implemented and a comparison between them is proposed in order to evaluate the differences in terms of deformed shape and internal force distribution of the deck and the pylon. Results can be useful to give pra…

constructionEngineeringCable-stayed bridge; composite section; pretension; stays; stressing sequencebusiness.industryGeometric configurationStress–strain curveComposite numberBuilding and ConstructionStructural engineeringBridge (nautical)DeckSettore ICAR/09 - Tecnica Delle CostruzioniCantilever methodPylonsteelCable stayedBridgebusinessBridge Structures
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Construction sequence analysis of long-span cable-stayed bridges

2018

Abstract In cantilever construction of long-span cable-stayed bridges the stressing sequence of stays is fundamental for establishing the final configuration of the bridge. The structural behaviour of these bridges is usually evaluated through a forward staged construction analysis, in which the values of the prestressing forces to be applied to stays are the main unknowns. A unified procedure for determining the initial cable forces and for analyzing the entire sequence is presented here, considering the geometric nonlinearity of stays through the Dischinger equivalent elastic modulus. The target is the simultaneous determination of the initial cable forces with the simulation of the const…

CantileverComputer science0211 other engineering and technologiesNAPS020101 civil engineering02 engineering and technologyBridge (nautical)0201 civil engineeringDeckStress (mechanics)Effects of uncertainties021105 building & constructionPylonForward analysisCivil and Structural EngineeringSequenceConstruction sequencebusiness.industryProbabilistic logicProbabilistic approachCable-stayed structures; Construction sequence; Effects of uncertainties; Forward analysis; NAPS; Partial scheme; PES; Probabilistic approach; Civil and Structural EngineeringStructural engineeringPESSettore ICAR/09 - Tecnica Delle CostruzioniNonlinear systemPartial schemebusinessCable-stayed structures
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