Search results for " in-plane"

showing 10 items of 10 documents

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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Out-of-Plane Behavior of URM Infill: Accuracy of Available Capacity Models

2022

The aim of this paper is to check the accuracy of analytical capacity models available for the prediction of out-of-plane strength of unreinforced masonry (URM) infill walls. The accuracy of the available models is checked by detailed comparison with the existing experimental results. In doing so, both types of capacity models are evaluated: Type I for the prediction of the strength in the undamaged state, and Type II for the prediction of strength reduction in the in-plane damaged state. Results from the calculations are discussed, and the best among the available models are recommended. Furthermore, the influence of orthotropy of the infill masonry in the out-of-plane capacity predicted b…

Interstorey drift ratio (IDR)Mechanics of MaterialsMechanical EngineeringUnreinforced masonry (URM) infillGeneral Materials ScienceBuilding and ConstructionCapacity models; In-plane (IP) and out-of-plane (OOP) interaction; Interstorey drift ratio (IDR); OOP capacity; Unreinforced masonry (URM) infillCapacity modelsOOP capacityCivil and Structural EngineeringIn-plane (IP) and out-of-plane (OOP) interaction
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Macroelement Model for In-Plane and Out-of-Plane Responses of Masonry Infills in Frame Structures

2018

A new macroelement model is presented in this paper for the simulation of the in-plane (IP) and out-of-plane (OOP) response of infilled frames subjected to seismic actions. The model consists of two diagonal, one horizontal, and one vertical struts. Each strut is represented by two fiber-section beam-column elements. The model is able to capture the arching action of the wall under an OOP load as well as the interaction between the IP and OOP actions. The proposed modeling approach is sufficiently simple and efficient that it can be used for the static or dynamic analysis of an entire structural system. An experimental validation has been carried out. A further numerical study performed wit…

Masonry infillConcrete and masonry structure0211 other engineering and technologies020101 civil engineering02 engineering and technologyCivil Engineering0201 civil engineeringConcrete and masonry structuresOut of planeOut-of-planeMechanics of MaterialGeneral Materials ScienceArching actionCivil and Structural Engineering021110 strategic defence & security studiesMasonry infillsbusiness.industryMechanical EngineeringFrame (networking)In-planeBuilding and ConstructionStructural engineeringMaterials EngineeringMasonryFiber-section elementInfilled framesSettore ICAR/09 - Tecnica Delle CostruzioniIn planeMechanics of MaterialsMasonry infills; In-plane; Out-of-plane; Arching action; Macromodel; Fiber-section elements; Concrete and masonry structures.Materials Science (all)businessFiber-section elementsGeologyMacromodel
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MODELLING IN-PLANE AND OUT-OF-PLANE RESPONSE OF INFILLED FRAMES THROUGH A FIBER MACRO-MODEL

2017

A new fiber macro-model for the simulation of combined in-plane and out-of plane response of infilled frames subjected to seismic actions is presented in the paper. The model consists of 4 pinned struts (two diagonals, one horizontal and one vertical) modeled with the nonlinear beam/column fiber-section elements available in OpenSees. The model is particularly suitable to predict the out-of-plane response as fiber-section elements can account for the coupling between axial load and bending moment occurring because of the arching mechanism developed by the infills beyond the first cracking. Moreover the model can account for the effect of the reciprocal damaging accumulated both in-plane and…

Masonry infills in-plane out-of-plane arching action macro-model.Settore ICAR/09 - Tecnica Delle CostruzioniMasonry infillsarching actionmacro-modelout-of-planein-planeMasonry infills in-plane out-of-plane arching action macro-model
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Experimental Tests on Typical Masonry of Messina Area (Italy) Retrofitted with CAM: Full Scale Panels

2014

The present paper focuses on an in-situ testing campaign recently developed in the Messina area, Italy, aiming at the assessment of the in-plane shear behaviour of traditional masonry retrofitted with the innovative CAM system (a system of 3D pre-tensioned stainless steel ties). The typical masonry of Messina area, is characterised by low mechanical properties, both for its texture and for the bad quality of mortar, as well as lack of transverse connections. The high seismic risk characterizing the zone, amplifies the need for in-plane strengthening and transverse connections improving. The CAM system, Masonry Active Ties or Manufact Active Confining, allows to realise a 3D pre-tensioned ty…

Masonry In-Plane Shear CAM PanelsSettore ICAR/09 - Tecnica Delle Costruzioni
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Numerical modelling of out-of-plane response of infilled frames: State of the art and future challenges for the equivalent strut macromodels

2017

Abstract Infill-frame interaction constitutes a still open question both in research and in practicing engineering. Computational models used to predict this interaction are, in most cases, addressing the estimation of the response of the infilled frames when subjected to actions parallel to their plane. However, the observation of the post-earthquake damage has demonstrated that infills, weakened by the in-plane actions, may fail out-of-plane increasing the risks associated to the earthquake scenarios. In spite of this, different studies have shown that infills, if properly designed and supported by the frame, exhibit a significant strength and displacement capacity when called to resist t…

Numerical testingEngineeringInfilled frames0211 other engineering and technologies020101 civil engineering02 engineering and technology0201 civil engineeringOut of planeOut-of-planeSeismic assessmentMasonryArching actionCivil and Structural Engineering021110 strategic defence & security studiesComputational modelbusiness.industryIn-planeStructural engineeringMasonryInfilled framesSettore ICAR/09 - Tecnica Delle CostruzioniNonlinear systemIn planeArching action; In-plane; Infilled frames; Masonry; Out-of-plane; Seismic response;businessInfilled frameSeismic response
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OUT OF PLANE CAPACITY OF INFILLS AFTER IN PLANE LOADING: A PREDICTION ANALYTICAL MODEL

2019

Earthquakes produce on infills In-Plane (IP) and Out-Of-Plane (OOP) actions. The recent earthquakes have proved that the OOP collapse of infills is a diffused mechanism also in buildings designed to resist to seismic events in agreement to the most modern strategies. This fact makes the question arises about the safety of infills with respect OOP actions. The strong interaction between IP and OOP behaviour of infills traduces in a progressively reduction of the OOP strength. Further, only in few cases codes suggest adequate strategies to face this issue. For what above, in the paper the reduction of OOP strength because of the IP damage is studied by an extended numerical experimental campa…

Settore ICAR/09 - Tecnica Delle CostruzioniInfills Out-of-Plane behaviour In-Plane/Out-of-Plane interaction Out-of-plane strength.
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Experimental tests on typical masonry of Messina area (Italy) retrofitted with CAM: A full scale arch

2014

The present paper focuses on an in-situ testing campaign recently developed in the Messina area, Italy, aiming at the assessment of the in-plane shear behaviour of traditional masonry structures retrofitted with the innovative CAM system (a system of 3D pre-tensioned stainless steel ties). The typical masonry of Messina area, is characterised by low mechanical properties, both for its texture and for the bad quality of mortar, as well as lack of transverse connections. The high seismic risk characterizing the zone, amplifies the need for in-plane strengthening and transverse connections improving. The CAM system, Masonry Active Ties or Manufact Active Confining, allows to realise a 3D pre-t…

Settore ICAR/09 - Tecnica Delle CostruzioniMasonry In-Plane Shear CAM Arch
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Out of Plane response of Unreinforced Masonry infills: Comparative analysis of experimental tests for the definition of strategies of macro modelling…

2022

During an earthquake, an interaction between the in-plane and out-of-plane seismic forces occurs and the infilled frames suffer damage in both in-plane and out-of-plane directions simultaneously. Particularly, the out-of-plane collapse of unreinforced masonry infill walls is critical even for new buildings complying with the modern seismic codes, resulting in high casualties and huge economic losses. However, the out-of-plane behaviour of infill walls is yet not fully understood. This study is therefore aimed towards characterizing the out-of-plane seismic capacity of unreinforced masonry infill walls. First of all, available out-of-plane experimental tests performed on unreinforced masonry…

Settore ICAR/09 - Tecnica Delle CostruzioniUnreinforced Masonry Infills Macro-element Modelling Out-of-Plane In-Plane Out-of-Plane interaction Out-of-Plane Fragility Prediciton of Out-of-Plane Capacity
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