Search results for "Modified Compression Field Theory"

showing 4 items of 4 documents

Shear capacity in concrete beams reinforced by stirrups with two different inclinations

2014

Abstract A model for the estimation of shear capacity in Reinforced Concrete (RC) beams with web reinforcement is provided by introducing a generalization of classical plastic Nielsen’s model, which is based on the variable-inclination stress-field approach. The proposed model is able to predict the shear capacity in RC beams reinforced by means of stirrups having two different inclinations and longitudinal web bars. A numerical comparison with the results of experimental tests and those provided by a Finite Element Model (FEM) based on the well known theory of Modified Compression Field Theory (MCFT) is carried out for validating the robustness of the proposed model. Finally, a set of para…

Different inclined stirrupsModified Compression Field TheoryEngineeringShear strength; Different inclined stirrups; Analytical model; Plastic model; Stress fieldGeneralizationbusiness.industryStructural engineeringStress fieldAnalytical modelFinite element methodStress fieldDifferent inclined stirrupSettore ICAR/09 - Tecnica Delle CostruzioniShear strengthRobustness (computer science)Shear strengthAnalytical model; Different inclined stirrups; Plastic model; Shear strength; Stress fieldGeotechnical engineeringReinforcementbusinessPlastic modelCivil and Structural EngineeringShear capacity
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Ultimate Shear of RC Beams with Corroded Stirrups and Strengthened with FRP

2019

Transverse reinforcement plays a key role in the response behavior of reinforced concrete beams. Therefore, corrosion of steel stirrups may change the failure mode of elements from bending to shear, leading to a brittle and catastrophic crisis. It is important to strengthen reinforced concrete beams with corroded stirrups to enhance the shear resistance. This paper presents a formulation, based on the modified compression field theory, to estimate the ultimate shear of reinforced concrete beams strengthened with FRP, because of stirrup corrosion. The detrimental effect of corrosion on steel stirrup yield strength was taken into account by introducing an empirical decay law. The effective st…

Modified Compression Field TheoryBeams; Corrosion; FRP; MCFT; Parametric analysis; Reinforced concrete; Shear; Stirrups; Civil and Structural Engineering; Building and ConstructionMaterials science0211 other engineering and technologies020101 civil engineering02 engineering and technologyshearstirrupslcsh:TH1-97450201 civil engineeringCorrosioncorrosion; stirrups; shear; FRP; MCFT; reinforced concrete; beams; parametric analysisBrittleness021105 building & constructionArchitectureMCFTCivil and Structural EngineeringEnvironmental Science (all)corrosion2300Parametric analysibusiness.industryBeamStructural engineeringBuilding and ConstructionFibre-reinforced plasticBeams; Corrosion; FRP; MCFT; Parametric analysis; Reinforced concrete; Shear; Stirrups; Architecture; 2300; Environmental Science (all); Civil and Structural Engineering; Building and ConstructionReinforced concretereinforced concreteStirrupShear (geology)parametric analysisbeamsbusinessFailure mode and effects analysisFRPlcsh:Building constructionBuildings; Volume 9; Issue 2; Pages: 34
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Nonlinear Analysis of Beams Reinforced in Shear with Stirrups and Steel Fibers

2012

The modified compression field theory (MCFT) and the disturbed stress field model (DSFM) are often used to predict the nonlinear behavior of reinforced concrete structures. This study presents several extensions of the MCFT and DSFM to the case of high-strength steel fiber-reinforced concrete beams subjected to transverse loads. Experimental four-point bending tests were conducted on 12 concrete beams with a different percentage of fibers and/or stirrups. To validate the updates introduced in the analytical models, numerical analysis was performed using nonlinear finite element software. Modeling of the post-peak softening branch of the tensile and compressive constitutive curves of fibrous…

Modified Compression Field TheoryMaterials scienceSFRC beamsbusiness.industryNumerical analysiscrackingBuilding and ConstructionFiber-reinforced concreteStructural engineeringshearFinite element methodlaw.inventionStress fieldfiber-reinforced concretenonlinear finite element model analysiSettore ICAR/09 - Tecnica Delle CostruzioniCrackingTransverse planeShear; SFRC beamslawUltimate tensile strengthexoerimental testComposite materialbusinessCivil and Structural Engineering
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Experimental Tests and FEM Model for SFRC Beams under Flexural and Shear Loads

2008

The complete load-vs-displacement curves obtained by four-point-bending tests on Steel Fiber Reinforced Concrete (SFRC) beams are predicted by using a nonlinear finite element code based on the Modified Compression Field Theory (MCFT) and the Disturbed Stress Field Model (DSFM) suitably adapted for SFRC elements. The effect of fibers on the shear-flexure response is taken into account, mainly incorporating tensile stress-strain analytical relationship for SFRC. The numerical results show the effectiveness of the model for prediction of the behavior of the tested specimens reinforced with light amount of stirrups or with fibers only. © 2008 American Institute of Physics.

Modified Compression Field TheoryMaterials scienceSFRC beamsbusiness.industryShearStructural engineeringFiber-reinforced concreteNonlinear finite element analysisFinite element methodlaw.inventionStress fieldfiber-reinforced concretePhysics and Astronomy (all)Settore ICAR/09 - Tecnica Delle Costruzionishear and flexureShear; SFRC beamsFlexural strengthShear (geology)lawExperimental testUltimate tensile strengthComposite materialbusinessFEM analysiAIP Conference Proceedings
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