Search results for "Inclined stirrups"

showing 6 items of 6 documents

Modello Esplicito Per La Resistenza A Taglio Di Travi In C.A. Con Armature Trasversali Disposte Secondo Due Giaciture

2016

An analysis oriented mechanical model for shear strength evaluation of rc beams with transversal reinforcement with two different inclination, that required a numerical analysis, is tuned into a design oriented analytical model that can be handy utilized for practical design.

Settore ICAR/09 - Tecnica Delle CostruzioniShear strength different inclined stirrups design model
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Comparative analysis of shear resisting models for hybrid steel trussed concrete beams

2018

The hybrid steel trussed concrete beams represent a structural solution widely adopted in the industrial constructions thanks to the numerous advantages due to their use, such as economic convenience, high performances and constructional speed de-riving from the partial prefabrication process and from the self load-carrying capacity of the beam in the first operative phase, prior to the in-site casting of concrete. The hybrid steel trussed concrete beams examined in the present study are constituted by two prin-cipal components, i.e. a steel joist with inclined rebars, realized in industry, which is welded to a smooth steel plate and then embed-ded within the concrete material cast in situ.…

Settore ICAR/09 - Tecnica Delle Costruzionihybrid steel trussed concrete beamsshear strength; inclined stirrups; hybrid steel trussed concrete beams; analytical models; FEM modelsinclined stirrupsanalytical modelsanalytical modelshear strengthFEM modelsinclined stirruphybrid steel trussed concrete beam
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Shear models of Rc-encased steel joist beams in MRFs

2019

This study presents the application of different analytical and finite element (FE) models aimed at predicting the shear resistance of reinforced concrete (RC) and reinforced concrete-encased steel joist (HRCESJ) beams with inclined transversal reinforcement in moment resisting frames (MRFs). In particular, four analytical models are taken into account, two of them specifically conceived for HRCESJ beams in seismic area. The analytical models considered are Eurocode-2 model for the shear strength of RC beams; a variable-inclination stress-field approach; a strut-and-tie additive model and, finally, an analytical formulation in which the shear capacity depends on the number of pairs of incli…

Analytical models; Finite element models; Hybrid steel-concrete beams; Inclined stirrups; Moment resisting frames; Shear strengthInclined stirrupsShear strengthFinite element modelsInclined stirrupMoment resisting frameHybrid steel-concrete beamAnalytical modelsMoment resisting framesHybrid steel-concrete beamsAnalytical modelFinite element model
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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 stressfield 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 resistance…

reinforced concrete beamSettore ICAR/09 - Tecnica Delle Costruzionistress field approachprecast steel-concrete trussed beamstress field approach.analytical model; different inclined stirrups; precast steel-concrete trussed beams; reinforced concrete beams; shear strength; stress field approach.analytical modelshear strengthdifferent inclined stirrupdifferent inclined stirrupsprecast steel-concrete trussed beamsreinforced concrete beams
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Shear resistance analytical evaluation for RC beams with transverse reinforcement with two different inclinations

2020

An analysis-oriented mechanical model for shear strength evaluation of Reinforced Concrete (RC) beams with transverse reinforcement with two different inclinations, which required a numerical analysis, is turned into a design-oriented analytical model that can easily be utilized for practical purposes. The model assessed the shear resistance, according to the “lower-bound solution”, employing a numerical procedure that maximizes the element shear strength varying the stresses in the two sets of transverse reinforcement and the magnitude and inclination of the web concrete compressive stress field. The model is formulated with the aim of representing an extension of Eurocode 2 framework to R…

Field (physics)business.industryNumerical analysis0211 other engineering and technologiesShear resistanceMagnitude (mathematics)02 engineering and technologyBuilding and ConstructionStructural engineeringMaximizationDesign-oriented analytical model; Different inclined stirrups; Shear strength; Variable inclination of compressive stress fieldDifferent inclined stirrupSettore ICAR/09 - Tecnica Delle CostruzioniCompressive strengthDesign-oriented analytical modelShear strengthMechanics of Materials021105 building & constructionSolid mechanicsShear strengthGeneral Materials ScienceVariable inclination of compressive stress fieldbusinessCivil and Structural EngineeringMathematics
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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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