Search results for "solid mechanics"

showing 10 items of 93 documents

RC column externally strengthened with RC jackets

2013

In this paper the behaviour in compression of RC columns externally strengthened with concrete jacketing is analysed and a cross-section analysis of the jacketed member under axial load and bending moment is developed. The focus was to study the effect of confinement of concrete jacket on concrete core and the behaviour of compressed bars with buckling effects. Some other important aspects such as shrinkage, creep, old to new concrete surfaces and bond split effects were not included in the model because: the use of thick non-shrink grout jacket and a well-roughened surface of old-to-new concrete was supposed; long term effects were included though corrective coefficients for monolithic beh…

Engineeringbusiness.industryGroutBuilding and ConstructionStructural engineeringengineering.materialCompression (physics)Settore ICAR/09 - Tecnica Delle CostruzioniCreepBucklingMechanics of MaterialsSolid mechanicsBending momentGeneral Materials ScienceComposite materialbusinessDuctilityCivil and Structural EngineeringShrinkageConcrete columns Concrete jacketing Confinement Moment–curvature diagram
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On the Measurement and Prediction of the Out-of-Plane Displacement Surrounding Cold-Expanded Holes

2010

Experimental measurements of the out-of-plane displacement surrounding cold-expanded holes in a 6082-T6 aluminum alloy were made with a 3D optical scanner using the technique of the encoded light-pattern projection in white light. The measured surface profiles have shown the thickness discontinuity along the hole edge due to the effect of the split in the sleeve. An analytical–numerical solution of the out-of-plane displacement is presented based on existing analytical models. Thus, the results given by the analytical model were then compared with the experimental data and with a finite element (FE) model that simulates the cold-expansion process. The location of the elastic–plastic boundar…

ScannerMaterials scienceOut of plane displacementbusiness.industryMechanical EngineeringAlloyAerospace Engineeringchemistry.chemical_elementMechanicsengineering.materialBinary encoded light stripe projectionFinite element methodOpticsDiscontinuity (geotechnical engineering)Finite elementchemistryDisplacement measurementMechanics of MaterialsAluminiumResidual stressSolid mechanicsSettore ING-IND/12 - Misure Meccaniche E TermicheengineeringCold-expansion of holebusinessExperimental Mechanics
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Measuring intrinsic thickness of rough membranes: application to nanofibrillated cellulose films

2015

Adequate measurement of thickness of sheet-like materials or membranes is most important for quantifying their properties such as density, barrier properties and mechanical strength. Depending on the surface roughness of the membrane, the thickness measured by standard micrometre devices (apparent thickness) may considerably overestimate the actual geometrical mean thickness (intrinsic thickness) required for such purposes. In this work, we present a method for correcting the measured apparent thickness value of thin membranes for their surface roughness, thereby obtaining an improved estimate of the intrinsic thickness. The surface roughness data required for the correction can be obtained…

Pulp fibreWork (thermodynamics)Materials scienceintrinsic thicknessbusiness.industryMechanical Engineeringkalvot (biologia)Surface finishchemistry.chemical_compoundOpticsMembranechemistrynanofibrillated cellulose filmsMechanics of MaterialsSolid mechanicsCalibrationSurface roughnessGeneral Materials SciencepaksuusCellulosebusinessJournal of Materials Science
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Measurement of residual stresses by the hole-drilling method: General stress-strain relationship and its solution

1990

Hole drilling methodMaterials scienceMechanics of MaterialsResidual stressMechanical EngineeringStress–strain curveSolid mechanicsAerospace EngineeringComposite materialExperimental Mechanics
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Seismic evaluation of ordinary RC buildings retrofitted with externally bonded FRPs using a reliability-based approach

2020

International audience; Despite the extensive literature on reinforced concrete (RC) members retrofitted with fiberreinforced polymer (FRP) composites, few studies have employed a reliability-based approach to evaluate the seismic performance of RC buildings in terms of their collapse capacity and ductility. In this study, the performance of a poorly-confined RC building structure is investigated for different FRP retrofitting schemes using different configurations and combinations of wrapping and flange-bonded FRPs, as two well-established techniques. A nonlinear pushover analysis is then implemented with a computational reliability analysis based on Latin Hypercube Sampling (LHS) to deter…

Computer science02 engineering and technologyRetrofitting0203 mechanical engineeringRC buildings[PHYS.MECA.SOLID]Physics [physics]/Mechanics [physics]/Solid mechanics [physics.class-ph]RetrofittingCollapse capacityDuctilityReliability (statistics)Civil and Structural EngineeringDuctilitybusiness.industryProbabilistic logicFailure modeStructural engineeringFibre-reinforced plastic021001 nanoscience & nanotechnologyReliability020303 mechanical engineering & transportsLatin hypercube samplingCeramics and Composites0210 nano-technologybusinessMaterial propertiesFailure mode and effects analysisFRP
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Residual Stresses Induced by Cold Expansion of Adjacent and Cut-Out Holes

2012

Fatigue life of fastener holes can be enhanced via a cold-expansion process to introduce a compressive residual stress field around the hole edge and to reduce crack growth propagation. Considering that aerospace components contain multiple rows of holes, the present investigation focuses on the evaluation of the three-dimensional residual stress distribution in adjacent cold-expanded (CE) holes. The redistribution of residual stresses caused by a cut introduced between two adjacent holes was also investigated. Finite element (FE) analysis and experimental technique were used to assess the residual stress distribution in a 6082-T6 aluminum plate with two adjacent holes expanded sequentially…

Cut-out holebusiness.product_categoryMaterials scienceMechanical EngineeringSettore ING-IND/34 - Bioingegneria IndustrialeCold-expansion of holesAerospace Engineeringchemistry.chemical_elementEdge (geometry)Binary encoded light stripe projectionFastenerFinite element methodFatigue crack propagationFinite elementchemistryMechanics of MaterialsResidual stressAluminiumSolid mechanicsForensic engineeringCold-expansion of holeCut-out holesComposite materialbusinessExperimental Mechanics
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Analytical evaluation of steel–concrete composite trussed beam shear capacity

2015

A calculation method for the prediction of the shear resistance of precast composite beams, named Hybrid Steel Trussed-Concrete Beams (HSTCBs), is herein proposed. HSTCBs are constituted by a prefabricated steel truss embedded within a concrete matrix cast in situ so that, after curing, the two materials work together in the mechanical response of the composite structural element, the steel truss behaving as reinforcement of the beam. The proposed analytical model is developed on the basis of the results of a reference experimental campaign of three-point bending tests available in the literature, carried out on specimens of HSTCB designed in order to attain a shear failure. Furthermore, th…

EngineeringDiagonalComposite number0211 other engineering and technologiesTruss020101 civil engineering02 engineering and technologyAnalytical modeling; Beam and arch action; Shear resistance; Steel–concrete composite beams; Building and Construction; Civil and Structural Engineering; Mechanics of Materials; Materials Science (all)0201 civil engineeringStructural elementAnalytical modelingBeam and arch actionPrecast concreteSteel–concrete composite beams021105 building & constructionGeneral Materials ScienceMechanics of MaterialCivil and Structural Engineeringbusiness.industryStructural engineeringBuilding and ConstructionFinite element methodSettore ICAR/09 - Tecnica Delle CostruzioniShear resistanceMechanics of MaterialsSolid mechanicsSteel–concrete composite beamMaterials Science (all)businessBeam (structure)
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Behavior of fiber reinforced concrete-filled tubular columns in compression

2002

Experimental compression tests on steel tubular columns filled with plain concrete and fiber reinforced concrete are carried out. For each type of column three different lengths are considered in order to point out the influence of slenderness on the ductility in compression. The experimental investigations presented here have emphasized the improvement in ductility capacity obtained when fiber reinforced concrete is utilised instead of plain concrete. Moreover, the results obtained stress that the lateral displacements due to global instability are drastically reduced.

Materials sciencebusiness.industryBuilding and ConstructionStructural engineeringFiber-reinforced concreteCompression (physics)law.inventionStress (mechanics)Mechanics of MaterialsReinforced solidlawSolid mechanicsGeneral Materials ScienceComposite materialDuctilitybusinessCivil and Structural EngineeringMaterials and Structures
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Accceleration of Fatigue Tests of Polymer Composite Materials by Using High-Frequency Loadings

2004

The possibility of using high-frequency loading in fatigue tests of polymer composite materials is discussed. A review of studies on the use of high-frequency loading of organic-, carbon-, and glass-fiber-reinforced plastics is presented. The results obtained are compared with those found in conventional low-frequency loadings. A rig for fatigue tests of rigid materials at loading frequencies to 500 Hz is described, and results for an LM-L1 unidirectional glass-fiber plastic in loadings with frequencies of 17 and 400 Hz are given. These results confirm that it is possible to accelerate the fatigue testing of polymer composite materials by considerably increasing the loading frequency. The n…

Materials sciencePolymers and PlasticsGeneral MathematicsFatigue testingchemistry.chemical_elementPolymer composite materialsCondensed Matter PhysicsBiomaterialsVibrationchemistryMechanics of MaterialsSolid mechanicsCeramics and CompositesPolymer compositesComposite materialCarbonMechanics of Composite Materials
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CVBEM solution for De Saint-Venant orthotropic beams under coupled bending and torsion

2014

The aim of this paper is to provide a solution for the coupled flexure–torsion De Saint Venant problem for orthotropic beams taking full advantage of the complex variable boundary element method (CVBEM) properly extended using a complex potential function whose real and imaginary parts are related to the shear stress components, the orthotropic ratio and the Poisson coefficients. The proposed method returns the complete stress field and the unitary twist rotation of the cross section at once by performing only line integrals. Numerical applications have been reported to show the validity and the efficiency of the proposed modified CVBEM to handle shear stress problems in the presence of ort…

Mechanical EngineeringMathematical analysisComputational MechanicsLine integralCVBEMTorsion (mechanics)GeometryPhysics::Classical PhysicsOrthotropic materialComputer Science::Numerical AnalysisStress fieldSolid mechanicsShear stressorthotropic beamsTwistSettore ICAR/08 - Scienza Delle CostruzioniBoundary element methodMathematicsActa Mechanica
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