Search results for "Concrete."

showing 10 items of 249 documents

Bending-Shear interaction domains for externally prestressed concrete girders

2013

In prestressed concrete structures, the evaluation of the safety level is generally carried out by separating the bending moment strength and the shear force capacity. Actually interaction between bending moment (M) and shear force (V) can have significant consequences on evaluations in service life, especially when the ultimate limit state (ULS) is considered. In this paper, the M-V interaction is addressed for prestressed concrete girders, in the cases of both bonded and unbonded prestressing tendons. It can be demonstrated, by drawing the interaction domains (M-V), that a significant reduction of the safety level has to be considered when shear force is evaluated together with bending mo…

EngineeringArticle SubjectShear forcebending moment-shear interaction; limit state; strength domain; external prestressing; box girderexternal prestressingshearlimit statelaw.inventionPrestressed concretelawGirderInteraction domains; bending; shear; prestressingLimit state designGeotechnical engineeringShear and moment diagramCivil and Structural Engineeringstrength domainbusiness.industrybox girderStructural engineeringbendingStress fieldSettore ICAR/09 - Tecnica Delle CostruzioniShear (geology)lcsh:TA1-2040Bending momentprestressingInteraction domainlcsh:Engineering (General). Civil engineering (General)businessbending moment-shear interaction
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Increasing the Capacity of Existing Bridges by Using Unbonded Prestressing Technology: A Case Study

2014

External posttensioning or unbonded prestressing was found to be a powerful tool for retrofitting and for increasing the life extension of existing structures. Since the 1950s, this technique of reinforcement was applied with success to bridge structures in many countries, and was found to provide an efficient and economic solution for a wide range of bridge types and conditions. Unbonded prestressing is defined as a system in which the post-tensioning tendons or bars are located outside the concrete cross-section and the prestressing forces are transmitted to the girder through the end anchorages, deviators, or saddles. In response to the demand for a faster and more efficient transportati…

EngineeringArticle Subjectbusiness.industryStructural engineeringBridge (interpersonal)CorrosionDeckLife extensionCrackingSettore ICAR/09 - Tecnica Delle Costruzionilcsh:TA1-2040GirderPrestressed concrete design procedure bridgeForensic engineeringRetrofittingBearing capacitylcsh:Engineering (General). Civil engineering (General)businessCivil and Structural EngineeringExisting Bridge; Life extension; External post-tensioning; Railway bridge; Prestressed concrete bridges; concrete structures rehabilitation and retrofitting
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Conceptual design of prestressed slab bridges through one-way flexural load balancing

2013

In this paper a study on prestressed concrete slab bridges is presented. A design philosophy based on the concept of load balancing through prestressing is proposed in order to minimize the effects of delayed deformations due to creep. Aspects related to the stress redistribution inside these bridges for time-dependent phenomena are analyzed and discussed, by applying the principles of aging linear visco-elasticity. Prestressing is seen as an equivalent external load which counterbalances the permanent loads applied to the bridge, nullifying the elastic deflections due to sustained loads, and thus avoiding the related delayed deformations. An optimization of the structural behavior through …

EngineeringCantileverBridge (nautical)creeplaw.inventionslab bridgePrestressed concreteConceptual designFlexural strengthlawCivil and Structural Engineeringbusiness.industrydelayed deformationMechanical EngineeringLoad balancing (electrical power)Building and ConstructionStructural engineeringvariable cross sectionSettore ICAR/09 - Tecnica Delle CostruzioniCreepMechanics of MaterialsSlabprestressingfunicular structuresflexural load balancingbusiness
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Load carrying capacity of RC compressed columns strengthened with steel angles and strips

2012

Abstract In this paper a comparison between the analytical expressions for the prediction of the load carrying capacity of strengthened reinforced concrete (RC) columns with steel angles and strips is made. Expressions examined consider: the strength contribution due to the confinement effects induced by transverse strips; the composite action due to steel angles and unconfined concrete core; the strength contribution due to the composite actions of angles and concrete core taking into account that steel angles are subjected to axial force and bending moment and concrete core is confined by transverse strips. Design rules given by recent codes for the design of the strengthened columns are …

EngineeringComposite actionAnalytical expressionsbusiness.industryComposite numberStructural engineeringSTRIPSRecommendationsDesign ruleLoad carryinglaw.inventionCore (optical fiber)Settore ICAR/09 - Tecnica Delle CostruzioniTransverse planelawSteel angleStrengtheningBending momentStripAxial forceComposite materialbusinessConcrete columnConfinementCivil and Structural EngineeringEngineering Structures
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Review of push-out and shear response of hybrid steel-trussed concrete beams

2018

The hybrid steel trussed concrete beams examined in the present study are comprised of two principal components, i.e., a steel joist with inclined rebars, realized in industry, which is welded to a smooth steel plate and then embedded within the concrete cast in situ. The paper presents first the state of the art on laboratory tests and analytical modeling of the steel-to-concrete stress transfer mechanism investigated by push-out tests. Next, the most relevant scientific contributions currently available in the technical literature regarding experimental investigation on actual shear behavior are summarized and discussed. Lastly codes and analytical models are reviewed.

EngineeringConcrete beamsArchitecture2300 Environmental Science (all)0211 other engineering and technologies020101 civil engineering02 engineering and technologyWeldingAnalytical modellcsh:TH1-97450201 civil engineeringlaw.inventionPush outlawPush out test021105 building & constructionArchitectureTransfer mechanismCivil and Structural EngineeringEnvironmental Science (all)2300business.industryanalytical modelsStructural engineeringBuilding and ConstructionJoistTechnical literaturePush-out testShear (geology)Analytical models; Precast trussed beam; Push-out test; Steel concrete composite beam; Architecture; 2300; Environmental Science (all); Civil and Structural Engineering; Building and ConstructionSteel concrete composite beamPrecast trussed beambusinesslcsh:Building construction
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Validation of a Shear Model for RC and Hybrid Beams with Two Different Inclinations of Transversal Reinforcement

2016

The validation of an analytical model recently proposed for evaluation of the shear capacity in Reinforced Concrete (RC) beams containing multiple inclination of transverse stirrups is presented. The model is a suitable extension of that currently proposed in Eurocode 2 for the evaluation of the shear resistance, and it is derived by means of the the variable-inclination stress-field theory based on Nielsen’s plastic approach. Experimental and numerical data available in the literature on Hybrid Steel-Trussed Concrete Beams (HSTCBs) are used for model validation and result discussion. Finally, also the comparison with a different analytical approach for the assessment of the shear resistanc…

EngineeringConcrete beamsbusiness.industry0211 other engineering and technologiesShear resistance02 engineering and technologyGeneral MedicineEurocodeStructural engineeringTheory basedModel validationTransverse planeShear (geology)021105 building & constructionbusinessReinforcementApplied Mechanics and Materials
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Analytical evaluation of steel–concrete composite trussed beam shear capacity

2015

A calculation method for the prediction of the shear resistance of precast composite beams, named Hybrid Steel Trussed-Concrete Beams (HSTCBs), is herein proposed. HSTCBs are constituted by a prefabricated steel truss embedded within a concrete matrix cast in situ so that, after curing, the two materials work together in the mechanical response of the composite structural element, the steel truss behaving as reinforcement of the beam. The proposed analytical model is developed on the basis of the results of a reference experimental campaign of three-point bending tests available in the literature, carried out on specimens of HSTCB designed in order to attain a shear failure. Furthermore, th…

EngineeringDiagonalComposite number0211 other engineering and technologiesTruss020101 civil engineering02 engineering and technologyAnalytical modeling; Beam and arch action; Shear resistance; Steel–concrete composite beams; Building and Construction; Civil and Structural Engineering; Mechanics of Materials; Materials Science (all)0201 civil engineeringStructural elementAnalytical modelingBeam and arch actionPrecast concreteSteel–concrete composite beams021105 building & constructionGeneral Materials ScienceMechanics of MaterialCivil and Structural Engineeringbusiness.industryStructural engineeringBuilding and ConstructionFinite element methodSettore ICAR/09 - Tecnica Delle CostruzioniShear resistanceMechanics of MaterialsSolid mechanicsSteel–concrete composite beamMaterials Science (all)businessBeam (structure)
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Effects of circular openings on the compressive behaviour of R.C. columns

2014

Core-drilling technique is nowadays always more frequently performed in existing reinforced concrete (RC) structures in order to investigate on the mechanical properties of concrete and for structural health monitoring purposes. Even if the engineering practice discourages to drill columns, this can be often unavoidable. In this last case the presence of the circular opening influences the compressive behavior of the column in terms of load-carrying capacity and axial deformability. The goal of this investigation was the experimental evaluation of the effects induced by circular openings on the behavior of RC columns. Twenty-four reinforced and plain concrete prisms in presence of circular …

EngineeringDrillbusiness.industryBuilding and ConstructionStructural engineeringReinforced concreteCompression (physics)Rc columnsProperties of concreteColumn (typography)Mechanics of MaterialsSolid mechanicsGeneral Materials ScienceGeotechnical engineeringStructural health monitoringbusinesscore drilling concrete testingCivil and Structural Engineering
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Experimental test results vs. analytical prediction of welded joint strength in hybrid steel trussed concrete beams (HSTCBs)

2013

The aim of the paper is to provide practical guidelines for the design of welded joints of steel truss for encased composite steel–concrete beams. The results of experimental tests are presented and interpreted. The steel truss is made of a steel plate acting as the bottom chord, made of S355 structural steel, coupled with steel rebars which form the upper chord, and steel inclined web rebars (V-reverse) welded to the two chord elements, both of them made of steel B450C. Butt welded joints of web bar to bottom steel plate and fillet welding joints of inclined web bars to top chord bars were tested, as they are different from the ones which are normally used due to the coupling of different …

EngineeringEnvironmental EngineeringConcrete beamsComposite numberTrussWeldingwelded jointslaw.inventionComplex geometrylawComposite materialcomposite trussed beamsdigital scannerCivil and Structural EngineeringAnalytical expressionsExperimental investigationbusiness.industryAnalytical modellingExperimental investigation; composite trussed beams; welded joints; digital scanner; analytical modelingLocal failureStructural engineeringanalytical modelingSettore ICAR/09 - Tecnica Delle CostruzioniWelded jointComposite trussed beamChord (music)businessEuropean Journal of Environmental and Civil Engineering
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Adjustable prestressing for construction stages of incrementally launched bridges

2014

Incrementally launched bridges, which are generally built with the static scheme of a continuous beam on supports, change their scheme several times during launching. In these different configurations, internal forces vary and bending moments of opposite signs occur in the same sections for different positions of deck during advancement. In these bridges, two different kinds of prestressing are necessary: a temporary one during launching and a definitive one in service life. In this study, the possibility of implementing automatic adjustable prestressing for the launching stages is investigated; the launch prestressing is partially supplied by a system which can change the tension value in …

EngineeringEnvironmental EngineeringTension (physics)business.industryLaunchedStructural engineeringContinuous beamDeckconcrete deckSettore ICAR/09 - Tecnica Delle CostruzioniService lifeBending momentprestressingbridgebusinessInternal forcesCivil and Structural Engineeringincremental launching
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