Search results for "REINFORCED"

showing 6 items of 236 documents

Flexural Behavior of Steel Fibrous Reinforced Concrete Deep Beams

2012

Experimental research was carried out regarding the flexural behavior of deep beams cast with plain and fibrous concrete with hooked steel fibers, and subjected to monotonic vertical loads. Four deep fiber-reinforced concrete beams were cast. Two of them were made of plain concrete with main and web steel reinforcements (RC), and two were made of hooked steel fiber-reinforced concrete (SFRC) with main steel reinforcements. The experimental results show the brittle behavior of reinforced deep RC members characterized by crushing of concrete struts and fracture of web steel bars. SFRC deep beams exhibit higher strength and, above all, ductility with respect to RC members due to the bridging a…

steel fibersConcrete beamsMaterials sciencebusiness.industryMechanical EngineeringBuilding and ConstructionStructural engineeringReinforced concreteFinite element methoddeep beamBrittlenessFlexural strengthMechanics of MaterialsDeflection (engineering)General Materials SciencebusinessReinforcementSofteningCivil and Structural EngineeringJournal of Structural Engineering
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Experimental Investigation on Stiffness and Strength of Single-Lap Z-Pinned Joints in a Laminated CFRP Stress-Ribbon Strip

2016

Carbon fiber-reinforced polymer (carbon-polymer) is an advanced lightweight composite material with high strength and excellent resistance to corrosion and fatigue. Over the past decades, application of fiber-reinforced polymers has been spread from the aerospace to other branches of industry such as automobile and civil engineering. Unidirectional carbon-polymers have a high potential for replacing steel in tensile members. Recently, the first carbonpolymer stress-ribbon bridge has been constructed in Germany. The non-laminated strip-loop carbon-polymer thin strips were used as the load bearing components in this bridge. In comparison with the laminated components, the applied cables are c…

stress-ribbon stripMaterials sciencelcsh:TE1-450020101 civil engineering02 engineering and technologysingle-lap joint0201 civil engineeringCorrosionStress (mechanics)lcsh:TG1-470lcsh:Bridge engineeringRibbonUltimate tensile strengthmedicinelaminateBearing capacityComposite materiallcsh:Highway engineering. Roads and pavementsJoint (geology)Civil and Structural Engineeringcarbon fiber reinforced polymer (cfrp)business.industrycarbon fiber reinforced polymer (CFRP); laminate; single-lap joint; stress-ribbon strip; test data.StiffnessBuilding and ConstructionStructural engineering021001 nanoscience & nanotechnologytest data.Adhesivemedicine.symptom0210 nano-technologybusinessThe Baltic Journal of Road and Bridge Engineering
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Procedure for Safety Assessment and BIM Modelling of an Historical Complex Structure through a Macroelement Approach: The Building “Molino-Pastificio…

2022

The structural assessment of existing historical structures is a complex task due to the inner main difficulty in making up reliable models for structural analysis, able to include mechanical and geometrical nonlinearities, existing damage, complex configurations and arrangements of materials. This task becomes more difficult in mixed RC-masonry structures, which structural modelling can be particularly tough due to the different connections and interactions between structural members and materials. This paper presents the case study of a multi-storey mixed Reinforced Concrete (RC)- masonry historical structure, namely the former mill “Molino-Pastificio Soresi” building, located in Partinic…

structural modelpushover analysisSettore ICAR/09 - Tecnica Delle Costruzionimacro-elementmasonryassessmenthistorical buildingbuilding knowledgeSettore ICAR/11 - Produzione Ediliziareinforced concrete
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A Quantitative Analysis of the Thermoelastic Effect in CFRP Composite Materials

2010

In this study the thermoelastic signal from carbon fibre-reinforced plastic (CFRP) laminates is investigated. A comparison between the theoretical and experimental values of the thermoelastic signal is reported, with the theoretical predictions obtained from two different quantitative models. These models are based on the classic thermoelastic effect law extended to the case of orthotropic materials (by using the mesomechanical or bulk approach), and the modified law assuming that the surface resin-rich layer behaves as a strain witness of the laminate. It is found that the theoretical predictions of the two models can be strongly and differently influenced by the intrinsic orthotropy of ca…

thermomechanical calibrationSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di Macchinelaminate theorythermoelastic stress analysisCarbon fibre-reinforced plasticsCarbon fibre-reinforced plastics; laminate theory; thermoelastic stress analysis; thermomechanical calibrationcarbon fibre-reinforced plastics laminate theory thermoelastic stress analysis thermomechanical calibration
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Multi-scale modelling of heterogeneous shell structures

2011

International audience; This paper reviews multi-scale computational homogenisation frameworks for the non-linear behaviour of heterogeneous thin planar shells. Based on a review of some of the currently available methods, a computational homogenisation scheme for shells is applied on to representative volume elements for plain weave composites. The effect of flexural loading on the potential failure modes of such materials is analysed, focusing on the reinforcement-matrix delamination mechanism. The attention is next shifted toward failure localisation in masonry unit cells. Subsequently, a recently developed computational FE2 solution scheme accounting for damage localisation at structura…

thin planar shellstextile reinforced compositesmasonry[ SPI.MAT ] Engineering Sciences [physics]/Materialscomputational homogenisation[SPI.MAT] Engineering Sciences [physics]/Materials[SPI.MAT]Engineering Sciences [physics]/Materialsfailure
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Electrical conductivity of glass fiber-reinforced plastic with nanomodified matrix for damage diagnostic

2021

The electrical conductivity of glass fiber-reinforced plastic (GFRP) with epoxy matrix modified by multiwall carbon nanotubes (MWCNT) was studied. The electrical conductivity of nanomodified lamina and multi-layered GFRP was investigated on several levels using a structural approach. Components of the electrical conductivity tensor for unidirectional-reinforced monolayer were calculated similarly as in micromechanics using the conductivity of the nanomodified matrix. The electrical conductivity of multilayer composite was calculated using laminate theory and compared with values measured experimentally for various fiber orientation angles. Calculated and experimental data were in good agree…

voltage distributionTechnologyMaterials scienceGlass fiberCarbon nanotubeConductivityArticlelaw.inventionFracture toughnessmicromechanicsElectrical resistance and conductancelawGeneral Materials ScienceComposite materialinterlaminar fractureMicroscopyQC120-168.85carbon nanotubeselectrical conductivityTQH201-278.5glass fiber reinforced plasticMicromechanicsFracture mechanicsdamage diagnosticFibre-reinforced plasticEngineering (General). Civil engineering (General)TK1-9971Descriptive and experimental mechanicsElectrical engineering. Electronics. Nuclear engineeringTA1-2040
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