0000000000595503

AUTHOR

Adolfo Santini

showing 3 related works from this author

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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Some comments on the experimental behavior of FRC beams in flexure

2008

In the present paper the experimental results, recently obtained by the authors, regarding the monotonic and the cyclic flexural response of normal and high-strength concrete beams reinforced with steel bars and discontinuous fibers, are shown. From the experimental results, all referred to low values of shear-to-depth ratios, it emerges clearly that the shear failure is brittle especially under cyclic actions highlighting the role of the fibers in the flexural behavior of the beams. The cyclic action produces a significant decay in the stiffness and in the strength capacity of the beams, and the addition of fibers reduces these negative effects. Form theoretical point of view good agreemen…

Concrete beamsMaterials scienceDeformation (mechanics)business.industrydesignStiffnessStructural engineeringshear and flexural strengthshearPhysics and Astronomy (all)Settore ICAR/09 - Tecnica Delle CostruzioniBrittlenessShear (geology)Flexural strengthCreepsteel fibermedicinebeammedicine.symptombusinesscyclic action
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Influence Of Lateral Load Distributions On Pushover Analysis Effectiveness

2008

The effectiveness of two simple load distributions for pushover analysis recently proposed by the authors is investigated through a comparative study, involving static and dynamic analyses of seismic response of eccentrically braced frames. It is shown that in the upper floors only multimodal pushover procedures provide results close to the dynamic profile, while the proposed load patterns are always conservative in the lower floors. They over-estimate the seismic response less than the uniform distribution, representing a reliable alternative to the uniform or more sophisticated adaptive procedures proposed by seismic codes. © 2008 American Institute of Physics.

EngineeringUniform distribution (continuous)business.industryStructural engineeringseismic codeSystem monitoringIncremental Dynamic Analysisnon liner static analysipushover curvePhysics and Astronomy (all)Settore ICAR/09 - Tecnica Delle Costruzioniload distributionStructural loadSimple (abstract algebra)load distributions; non liner static analysis; pushover curve; seismic codes; Physics and Astronomy (all)Geotechnical engineeringbusinessAIP Conference Proceedings
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