Search results for "Infill"

showing 10 items of 43 documents

Erosion en milieu sableux cultivé au Niger : dynamique actuelle et passée en liaison avec la pression anthropique et les changements climatiques

2011

Sahelian ecosystems, especially those installed on sandy soils react very quickly and intensely to small climatic changes. In this semi-arid area, wind erosion which occurs mainly on cultivated millet fields and is threatening the sustainable use of land resources. Furthermore, the rapid population growth and the severe droughts of the twentieth century have had important impacts on ecosystems. To better manage this fragile environment, it is important first to understand how it works. This thesis was included in the framework of the AMMA project (African Monsoon Multidisciplinary Analyses) and was in the heart of a CORUS 2 (Coopération pour la Recherche Universitaire et Scientifique) progr…

Changement climatiquePoussières éoliennesPression anthropiqueAnthropogenic impact[SDU.STU]Sciences of the Universe [physics]/Earth SciencesDustCarotte sédimentaire[ SDU.STU ] Sciences of the Universe [physics]/Earth SciencesClimatic changesSediment coreLakes infillingSahelWind erosion[SDU.STU] Sciences of the Universe [physics]/Earth SciencesErosion éolienneNigerComblement des lacs

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Prediction of the out-of-plane response of infilled frames under seismic loads by a new fiber-section macro-model

2016

This chapter suggests that an extension of the capability of the traditional inplane macro-models to capture the simultaneous in-plane and Out-Of-Plane (OOP) response of infills. A new simplified macro-model for the assessment of both in plane and out-of-plane responses of infilled frames was developed and validated. The possibility to simulate the arching action is achieved by using distributed plasticity fiber-section elements, able to directly account for the coupling between axial load and bending moment. The arching action is explicitly introduced by the use of fiber-section beam-column elements, which can model the coupling between axial-load and bending moment. The model presented is…

CouplingEngineeringbusiness.industryMaterials Science (miscellaneous)Seismic loadingBuilding and ConstructionStructural engineeringPlasticitymaronry infills. reinforced concrete frames in-plane out-of-plane equivalent strutDisplacement (vector)Mechanism (engineering)Settore ICAR/09 - Tecnica Delle Costruzioniequivalent strutmaronry infills. reinforced concrete framesBending momentMacroout-of-planebusinessin-planeJoint (geology)

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Evaluation of infilled frames: an updated in-plane-stiffness macro-model considering the effects of vertical loads

2015

The influence of masonry infills on the in-plane behaviour of RC framed structures is a central topic in the seismic evaluation and retrofitting of existing buildings. Many models in the literature use an equivalent strut member in order to represent the infill but, among the parameters influencing the equivalent strut behaviour, the effect of vertical loads acting on the frames is recognized but not quantified. Nevertheless a vertical load causes a non-negligible variation in the in-plane behaviour of infilled frames by influencing the effective volume of the infill. This results in a change in the stiffness and strength of the system. This paper presents an equivalent diagonal pin-jointed…

EngineeringEquivalent diagonal pin-jointed strut modelInfilled framesDiagonalIn-plane behaviourInfilled frames In-plane behaviour Equivalent diagonal pin-jointed strutmodel Vertical load influenceVertical load influenceComputer Science::Computational Engineering Finance and SciencemedicineInfillRetrofittingGeotechnical engineeringMacroCivil and Structural Engineeringmodelbusiness.industryStiffnessStructural engineeringBuilding and ConstructionMasonryGeotechnical Engineering and Engineering GeologyEquivalent diagonal pin-jointed strutFinite element methodStiffeningSettore ICAR/09 - Tecnica Delle CostruzioniGeophysicsmedicine.symptombusinessInfilled frame

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Fundamental period of infilled reinforced concrete frame structures

2016

AbstractThe fundamental period of vibration appears to be one of the most critical parameters for the seismic design and assessment of structures. In the present paper, the results of a large-scale analytical investigation on the parameters that affect the fundamental period of reinforced concrete structures are presented. The influence of the number of storeys, the number of spans, the span length, the infill wall panel stiffness and the percentage of openings within the infill panel on the fundamental period of infilled RC frames was investigated. Based on these results, a regression analysis is applied in order to propose a new empirical equation for the estimation of the fundamental per…

EngineeringInfill wallModal analysis0211 other engineering and technologies020101 civil engineeringOcean Engineering02 engineering and technologyreinforced concrete frame buildingSpan (engineering)0201 civil engineeringSeismic analysisregression analysiFundamental periodmedicineInfillGeotechnical engineeringSafety Risk Reliability and QualityCivil and Structural Engineering021110 strategic defence & security studiesmodal analysibusiness.industryinfilled frameMechanical EngineeringStiffnessStructural engineeringBuilding and ConstructionMasonryGeotechnical Engineering and Engineering GeologyVibrationSettore ICAR/09 - Tecnica Delle Costruzionimasonrymedicine.symptombusiness

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Prediction of the additional shear action on frame members due to infills

2014

Infill masonry walls in framed structures make a significant contribution to the response under seismic actions. With special regard to reinforced concrete (RC) structures, it is known that internal forces modifications caused by the frame–infill interaction may be not supported by the surrounding frame because of the additional shear forces arising at the ends of beams and columns. Such additional forces may lead to the activation of brittle collapse mechanisms and hence their prediction is basic in capacity assessment, especially for structures that disregard the details for seismic zones. In this paper a parametric study is carried out addressed to the prediction of the shear forces ment…

EngineeringInfilled framesMasonry infillsbusiness.industryInfilled frames; Masonry infills; Local shear effects; Micromodel; Equivalent strut.Shear forceBuilding and ConstructionStructural engineeringMasonryConcentricGeotechnical Engineering and Engineering GeologyInfilled framesSettore ICAR/09 - Tecnica Delle CostruzioniMicromodelGeophysicsBrittlenessShear (geology)InfillEquivalent strutGeotechnical engineeringInfilled frames · Masonry infills · Local shear effects · Micromodel · Equivalent strutbusinessLocal shear effectsCivil and Structural EngineeringParametric statisticsBulletin of Earthquake Engineering

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Seismic Performance of Masonry Infilled RC Structures via N2 Pushover Assessment Procedures: Outcomes under Different Modeling Hypotheses of a Case S…

2016

The assessment of the capacity of RC masonry infilled RC structures constitutes nowadays a still debated issue. Pushover based procedures for the evaluation of seismic performance, such as N2 method, are largely used in practice and in force in several technical codes. The latter has proved to be reliable for a large number of structural typologies, however in the case of infilled frames, the choices made on the modelling strategy may radically modify the outcomes observable from the capacity curves and the consequent performance levels achievable. In the paper, the extent of different modelling choices on the results of the application of N2 procedure is investigated by the deep analysis o…

EngineeringShear ActionPushoverbusiness.industryN2General MedicineStructural engineeringMasonryInfilled FramesReinforced concreteInfilled framesShear (sheet metal)reinforced concrete shear action infilled frames masonry n2 pushoverMasonrybusinessInfilled Frames Masonry N2 Pushover Reinforced Concrete Shear ActionReinforced ConcreteReliability (statistics)Applied Mechanics and Materials

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Masonry infills and RC frames interaction: Literature overview and state of the art of macromodeling approach

2015

The issue of the influence of masonry infills within RC frames structures has been widely investigated in the last decades by several researchers. The large interest addressed to this topic depends on the actual observation that when in presence of seismic events, the response of framed structures is strongly conditioned by the interaction with the infill walls, which however are considered as non-structural elements and not included in the models. The influence of masonry infills role in structural response is so much relevant to affect not only the overall strength and the stiffness but it may also radically change the possible collapse mechanisms of the overall structural complex under t…

EngineeringmacromodelEnvironmental Engineeringbusiness.industryinfilled framemicromodelinfilled frames; interaction; macromodel; masonry; micromodel; reinforced concrete;Constitutive equationStiffnessinteractionStructural engineeringRc framesMasonryreinforced concreteNonlinear systemIdentification (information)Settore ICAR/09 - Tecnica Delle Costruzionimasonryinfilled framesInfillmedicineState (computer science)medicine.symptombusinessCivil and Structural Engineering

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Prediction of the Fundamental Period of Infilled RC Frame Structures Using Artificial Neural Networks

2015

The fundamental period is one of the most critical parameters for the seismic design of structures. There are several literature approaches for its estimation which often conflict with each other, making their use questionable. Furthermore, the majority of these approaches do not take into account the presence of infill walls into the structure despite the fact that infill walls increase the stiffness and mass of structure leading to significant changes in the fundamental period. In the present paper, artificial neural networks (ANNs) are used to predict the fundamental period of infilled reinforced concrete (RC) structures. For the training and the validation of the ANN, a large data set i…

General Computer ScienceArticle SubjectComputer scienceGeneral MathematicsStructure (category theory)020101 civil engineering02 engineering and technologylcsh:Computer applications to medicine. Medical informatics0201 civil engineeringSeismic analysislcsh:RC321-571Materials Testing0202 electrical engineering electronic engineering information engineeringInfillmedicineMathematics (all)lcsh:Neurosciences. Biological psychiatry. NeuropsychiatryMaterials Testing; Neural Networks (Computer); Neuroscience (all); Computer Science (all); Mathematics (all)Neuroscience (all)Artificial neural networkbusiness.industryGeneral NeuroscienceFrame (networking)Computer Science (all)StiffnessGeneral MedicineStructural engineeringNeural Networks (Computer)Reinforced concretelcsh:R858-859.7020201 artificial intelligence & image processingArtificial intelligenceNeural Networks Computermedicine.symptombusinessPeriod (music)Research ArticleComputational Intelligence and Neuroscience

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Infilled frames: Developments in the evaluation of cyclic behaviour under lateral loads

2005

In order to consider the modified seismic response of framed structures in the presence of masonry infills, proper models have to be formulated. Because of the complexity of the problem, a careful definition of an equivalent diagonal pin-jointed strut, able to represent the horizontal force-interstorey displacement cyclic law of the actual infill, may be a solution. In this connection the present paper, continuing a previous work in which a generalised criterion for the determination of the ideal cross-section of the equivalent strut was formulated, analizes some models known in literature for the prediction of the lateral cyclic behaviour discussing their field of validity. As a support of…

Hysteretic behaviourMasonry infillEngineeringIdeal (set theory)Stiffening effectSimplified modelbusiness.industryMechanical EngineeringDiagonalWork (physics)Building and ConstructionStructural engineeringMasonryField (computer science)Displacement (vector)Connection (mathematics)Settore ICAR/09 - Tecnica Delle CostruzioniMechanics of MaterialsInfillEquivalent strutGeotechnical engineeringbusinessInfilled frameCivil and Structural Engineering

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Analysis of local shear effects in brick masonry infilled RC frames

2013

Masonry infills panels placed among framed structures meshes have a relevant influence in presence seismic actions in terms of strength stiffness and global displacement capacity. In the case of RC structures, the modifications of internal forces due to infill-frame interaction may be not compatible with surrounding frame members strength especially considering additional shear forces arising at the ends of beams and columns in contact with the panel under lateral actions. Such effects may be in many cases the cause of unexpected brittle collapse mechanisms which compromise the safety of the entire structure. In this paper by means of a double (micromodeling and macromodeling) procedure reg…

Infilled RC framesMasonry veneerRc framesMicromodelLocal shear effectBrick masonry; Equivalent strut; Infilled RC frames; Local shear effects; Micromodel;Settore ICAR/09 - Tecnica Delle CostruzioniMicromodelShear (geology)Computational Theory and MathematicBrick masonryBrick masonryEquivalent strutGeotechnical engineeringGeologyInfilled RC frameCivil and Structural EngineeringLocal shear effects

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