Search results for "lcsh:Bridge engineering"

showing 6 items of 6 documents

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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Evaluation of the Safety Performance of Turbo Roundabouts by Means of a Potential Accident Rate Mode

2015

Turbo roundabouts are a particular road intersection layout, designed to increase the safety of double-lane roundabouts, while maintaining their excellent capacity. The main feature of this new concept of roundabout is the impossibility to move from one lane to another, provided by physical barriers marking the lanes. The paper shows an application to turbo roundabouts of a potential accident rate model, aiming to evaluate their safety improvement. Themodel is based on the concept of potential conflict: each vehicle involved in a general intersection performs a series of maneuvers which potentially imply a crash, according to the actual traffic. The number of accidents related to each criti…

Engineeringbiologylcsh:TE1-450business.industryTurboCrashBuilding and Constructionbiology.organism_classificationPotential conflictTransport engineeringturbo roundaboutspotential conflictslcsh:TG1-470lcsh:Bridge engineeringPhysical BarrierTraffic volumeTurbo roundabouts; Double-lane roundabout; Potential conflicts; Potential accident rate modelRoundaboutPotential accidentpotential accident rate modelbusinesslcsh:Highway engineering. Roads and pavementsIntersection (aeronautics)double-lane roundaboutCivil and Structural EngineeringThe Baltic Journal of Road and Bridge Engineering
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Investigation on Application of Basalt Materials as Reinforcement for Flexural Elements of Concrete Bridges

2015

Basalt polymers are rather new materials for civil engineering; therefore, identification of peculiarities and limitations of application of such polymers in concrete structures (particularly bridges) is of vital importance. This paper experimentally investigates deformation behaviour and cracking of flexural elements, which are predominant parameters governing serviceability of the bridges. Unlike a common practice, the present study is not limited by the analysis of concrete beams reinforced with the polymer bars; it also considers effectiveness of basalt fibre reinforced polymer sheets for repairing the beams. The analysis has revealed that a combination of the high strength and elastici…

Materials scienceServiceability (structure)lcsh:TE1-450internal barslcsh:TG1-470test datalcsh:Bridge engineeringFlexural strengthmedicinereinforced concrete; basalt fibre reinforced polymer (BFRP); internal bars; external sheets; test dataElasticity (economics)Composite materialReinforcementlcsh:Highway engineering. Roads and pavementsCivil and Structural Engineeringchemistry.chemical_classificationbusiness.industrybasalt fibre reinforced polymer (bfrp)StiffnessBuilding and ConstructionStructural engineeringPolymerreinforced concreteexternal sheetsCrackingchemistrymedicine.symptomDeformation (engineering)businessThe Baltic Journal of Road and Bridge Engineering
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Road Functional Classification Using Pattern Recognition Techniques

2019

The existing international standards suggest a methodology to assign a specific functional class to a road, by the values of some features, both geometrical and use-related. Sometimes, these characteristics are in contrast with each other and direct the analyst towards conflicting classes for a road or, worse, one or more of these features vary heterogeneously along the road. In these conditions, the analyst assigns the class that, by his capability and experience, he retains the most appropriate, in a very subjective way. On the contrary, the definition of an automatic procedure assuring an objective identification of the most appropriate functional class for each road would be desirable. …

Value (ethics)Decision support systemlcsh:TE1-450Computer science0211 other engineering and technologiesFunctional classification02 engineering and technologylcsh:TG1-470lcsh:Bridge engineeringfunctional classification; pattern recognition; road classification; road networkInfrastructure networkPattern recognition021105 building & construction0502 economics and businessSettore ICAR/04 - Strade Ferrovie Ed Aeroportilcsh:Highway engineering. Roads and pavementsRoad classificationCivil and Structural Engineering050210 logistics & transportationClass (computer programming)business.industry05 social sciencesContrast (statistics)Pattern recognitionBuilding and ConstructionFunctional classification Pattern recognition Road classification Road networkRoad networkVariable (computer science)Identification (information)Pattern recognition (psychology)Artificial intelligencebusinessThe Baltic Journal of Road and Bridge Engineering
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Optimizing artificial neural networks for the evaluation of asphalt pavement structural performance

2019

Artificial Neural Networks represent useful tools for several engineering issues. Although they were adopted in several pavement-engineering problems for performance evaluation, their application on pavement structural performance evaluation appears to be remarkable. It is conceivable that defining a proper Artificial Neural Network for estimating structural performance in asphalt pavements from measurements performed through quick and economic surveys produces significant savings for road agencies and improves maintenance planning. However, the architecture of such an Artificial Neural Network must be optimised, to improve the final accuracy and provide a reliable technique for enriching d…

lcsh:TE1-450Computer science0211 other engineering and technologies020101 civil engineering02 engineering and technology0201 civil engineeringlcsh:TG1-470lcsh:Bridge engineeringAsphalt pavementDeflection (engineering)021105 building & constructionSettore ICAR/04 - Strade Ferrovie Ed AeroportiAsphalt pavementArchitectureArtificial Neural Network (ANN); asphalt pavement; Long Term Pavement Performance (LTPP); neural network optimisation; Pavement Management System (PMS); structural performancelcsh:Highway engineering. Roads and pavementsCivil and Structural EngineeringArtificial neural network (ANN)Network architectureTraining setArtificial neural networkPavement managementBuilding and ConstructionPavement management system (PMS)Structural performanceReliability engineeringNeural network optimisationAsphaltLong term pavement performance (LTPP)Artificial neural network (ANN) Asphalt pavement Long term pavement performance (LTPP) Neural network optimisation Pavement management system (PMS) Structural performance
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Experimental Investigation on Stiffness and Strength of Single-Lap Z-Pinned Joints in a Laminated CFRP Stress-Ribbon Strip

2016

Carbon fiber-reinforced polymer (carbon-polymer) is an advanced lightweight composite material with high strength and excellent resistance to corrosion and fatigue. Over the past decades, application of fiber-reinforced polymers has been spread from the aerospace to other branches of industry such as automobile and civil engineering. Unidirectional carbon-polymers have a high potential for replacing steel in tensile members. Recently, the first carbonpolymer stress-ribbon bridge has been constructed in Germany. The non-laminated strip-loop carbon-polymer thin strips were used as the load bearing components in this bridge. In comparison with the laminated components, the applied cables are c…

stress-ribbon stripMaterials sciencelcsh:TE1-450020101 civil engineering02 engineering and technologysingle-lap joint0201 civil engineeringCorrosionStress (mechanics)lcsh:TG1-470lcsh:Bridge engineeringRibbonUltimate tensile strengthmedicinelaminateBearing capacityComposite materiallcsh:Highway engineering. Roads and pavementsJoint (geology)Civil and Structural Engineeringcarbon fiber reinforced polymer (cfrp)business.industrycarbon fiber reinforced polymer (CFRP); laminate; single-lap joint; stress-ribbon strip; test data.StiffnessBuilding and ConstructionStructural engineering021001 nanoscience & nanotechnologytest data.Adhesivemedicine.symptom0210 nano-technologybusinessThe Baltic Journal of Road and Bridge Engineering
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