Search results for "Structural Engineering"

showing 10 items of 1998 documents

Mechanical behavior of a sandwich with corrugated GRP core: numerical modeling and experimental validation

2014

In this work the mechanical behaviour of a core reinforced composite sandwich structure is studied. The sandwich employs a Glass Reinforced Polymer (GRP) orthotropic material for both the two external skins and the inner core web. In particular, the core is designed in order to cooperate with the GRP skins in membrane and flexural properties by means of the addition of a corrugated laminate into the foam core. An analytical model has been developed to replace a unit cell of this structure with an orthotropic equivalent thick plate that reproduces the in plane and out of plane behaviour of the original geometry. Different validation procedures have been implemented to verify the quality of t…

Materials scienceDiscretizationlcsh:Mechanical engineering and machineryComposite numberlcsh:TA630-695Shell (structure)Orthotropic materialFinite Element.Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineFlexural strengthHomogenisationlcsh:TJ1-1570Composite materialSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeSandwich Structurebusiness.industrySandwich StructuresMechanical EngineeringCorrugated CoreInner corelcsh:Structural engineering (General)Structural engineeringFinite element methodCore (optical fiber)Mechanics of MaterialsbusinessFrattura ed Integrità Strutturale
researchProduct

Hydraulic jumps at drop and abrupt enlargement in rectangular channel

2002

The different types of hydraulic jumps that occur in a rectangular channel at an abrupt increase in section are experimentally studied. The abrupt section increase is due to both a drop and an increase in the channel width. Experiments were carried out with three different values of the ratio L/l between the channel widths respectively downstream and upstream of the abrupt section increase. For each L/l value five values of Froude number F1, of the supercritical flow upstream of the section increase were considered, and for each of them live values of the depth y1 of the same flow. The experiments showed that, as the depth y2 of the downstream subcritical flow increases, several types of hy…

Materials scienceDrop (liquid)Direct observationMechanicsChannel widthSupercritical flowHydraulic jumps in rectangular channelsPhysics::Fluid Dynamicssymbols.namesakeFroude numbersymbolsGeotechnical engineeringMomentum-depth relationship in a rectangular channelHydraulic jumpWater Science and TechnologyCivil and Structural EngineeringJournal of Hydraulic Research
researchProduct

Asphalt surface mixtures with improved performance using waste polymers via dry and wet processes

2017

"Published online: June 29, 2017"

Materials scienceDry process0211 other engineering and technologies02 engineering and technologyMixture performance.Wet proce021105 building & constructionSettore ICAR/04 - Strade Ferrovie Ed AeroportiGeneral Materials ScienceCivil and Structural EngineeringWaste polymerschemistry.chemical_classificationDry proceScience & TechnologyWaste managementBuilding and ConstructionPolymer021001 nanoscience & nanotechnologyImproved performanceWet processWaste polymerchemistryMechanics of MaterialsAsphaltMixture performance0210 nano-technologyAsphalt modification
researchProduct

Shear strength of steel fiber reinforced concrete beams with stirrups

2006

The present paper proposes a semi-empirical analytical expression that is capable of determining the shear strength of reinforced concrete beams with longitudinal bars, in the presence of reinforcing fibers and transverse stirrups. The expression is based on an evaluation of the strength contribution of beam and arch actions and it makes it possible to take their interaction with the fibers into account. For the strength contribution of stirrups, the effective stress reached at beam failure was considered by introducing an effectiveness function. This function shows the share of beam action strength contribution on the global strength of the beam calculated including the effect of fibers. T…

Materials scienceEffective stressFiber-reinforced concretelaw.inventionlawFiberArchComposite materialStirrupCivil and Structural EngineeringShear-moment interactionbusiness.industryMechanical EngineeringBuilding and ConstructionStructural engineeringStrength of materialsTransverse planeSettore ICAR/09 - Tecnica Delle CostruzioniCompressive strengthShear (geology)Shear strengthMechanics of MaterialsPhysics::Accelerator PhysicsbusinessBeam (structure)Concrete
researchProduct

Local Reinforcement Effect of a Strain Gauge Installation on Low Modulus Materials

2005

The reinforcement effect of electrical resistance strain gauges is well documented in the technical literature. In this paper the local reinforcement effect in tension is studied by using a simple theoretical model by considering a strain gauge mounted on a semi-infinite plate having the same width of the strain gauge and subjected to a uniaxial tension load. Neglecting the effect of the adhesive layer and considering the interface shear stress as an exponential distribution, the proposed model gives a closed-form solution. In detail, this model permits a simple formula to be obtained which allows the user to correct the local reinforcement effect provided that a proper calibration is perfo…

Materials scienceExponential distributionbusiness.industryTension (physics)Applied MathematicsMechanical EngineeringStructural engineeringElectrical resistance and conductanceMechanics of MaterialsModeling and SimulationShear stressCalibrationAdhesivebusinessReinforcementStrain gaugeThe Journal of Strain Analysis for Engineering Design
researchProduct

Elastoplastic Damaging Model for Adhesive Anchor Systems. I: Theoretical Formulation and Numerical Implementation

2011

In this and in the companion paper, the mechanical response of adhesive anchor systems is theoretically and numerically predicted and experimentally observed. The theoretical prediction is on the basis of an elastoplastic damaging model formulated to predict the structural response associated with the development of a fracture in adhesive anchor systems. This part describes the analytical model developed in the framework of a thermodynamically consistent theory, which assumes adhesion where the structure is sound, and friction in correspondence with the fracture. Isotropic damage is considered. The model can predict the structural behavior at the interface between two surfaces of ductile, b…

Materials scienceFEAPRebarlaw.inventionAcoustic emissionsymbols.namesakeBrittlenessFinite elementlawMathematical modelbusiness.industryMechanical EngineeringNumerical analysisIsotropyElastoplasticityStructural engineeringInterfaceFinite element methodPullout testDamageAcoustic emissionMechanics of MaterialsHelmholtz free energysymbolsSettore ICAR/08 - Scienza Delle CostruzionibusinessJournal of Engineering Mechanics
researchProduct

Simultaneous measurement of temperature and strain in glass fiber/epoxy composites by embedded fiber optic sensors: I. Cure monitoring

2007

In this paper (Part I) the use of fiber optic sensors for real-time monitoring of the cure kinetics of GFRP composites is explored. The proposed sensing system allows the simultaneous measurement of both temperature and strain by monitoring the change in reflected wavelength from two coupled fiber Bragg grating (FBG) sensors that have been embedded into the composite laminate. Instrumented GFRP laminates with 12, 18 and 24 reinforcing plies, respectively, were prepared by means of the vacuum bagging technique. Samples were cured in a thermally controlled oven at 80 degrees C and 30 kPa for 240 min (isothermal stage) and then cooled down to ambient temperature by turning off the heating sour…

Materials scienceFiber Bragg grating (FBG) sensorsComposite numberGlass fiberFiber Bragg gratingComposite cure monitoringSettore ING-IND/12 - Misure Meccaniche E TermicheSITUTemperature mesurementGeneral Materials ScienceCure monitoringElectrical and Electronic EngineeringComposite materialBRAGG GRATING SENSORSCivil and Structural EngineeringOptical fiber sensorEpoxyFibre-reinforced plasticCondensed Matter PhysicsTHERMOSETFiber Bragg grating (FBG) sensors; Optical fiber sensor; Composite cure monitoring; Strain measurement; Temperature mesurementAtomic and Molecular Physics and OpticsMechanics of MaterialsFiber optic sensorvisual_artSignal Processingvisual_art.visual_art_mediumEPOXY-RESINStrain measurementStructural health monitoringFIBRE/EPOXY COMPOSITESSYSTEM
researchProduct

Paper-reinforced biomimetic cellular structures for automotive applications

2009

The aim of this work was to make and test some sandwich structures, made of biomimetic cellular cores of recycled paper. In a preliminary study some paper laminates were investigated. Then two different kinds of cores were made by simple processes, according to two natural structures (i.e. feather and honeycomb). To evaluate the mechanical properties of these new sandwiches, static flexural, flatwise and edgewise compression tests were performed.

Materials scienceFlexural strengthbusiness.industryHoneycombsHoneycombAutomotive industryBiomimeticStructural engineeringSandwich structuresComposite materialbusinessSandwich structures; Honeycombs; BiomimeticMaterials & Design
researchProduct

Study of Snowboard Sandwich Structures

2005

The aim of the present research is to extend the knowledge of mechanical properties both on single components and on complete structure employed for snowboard. Flexural and torsion tests are performed to acquire important comparison parameters between snowboard sandwich structures that differ for the core material employed (wood, PVC foam core). A simplified FEM model is proposed to simulate the flexural tests of the sandwich structure showing good predictive capability.

Materials scienceFlexural strengthbusiness.industryTorsion (mechanics)Predictive capabilityStructural engineeringbusinesssnowboard sandwich structure mechanical propertiesFinite element method
researchProduct

Forming of aluminum foam sandwich panels: Numerical simulations and experimental tests

2006

Abstract The forming of the completed aluminium foam sandwich (AFS) panels would determine an improvement in the manufacturing of parts and panels. In this paper the authors have investigated the formability of AFS through experiments and numerical simulations. As far as the former are concerned, commercially prepared panels have been considered and bending and stamping processes have been taken into account. In addition, FEM analyses have been developed, utilizing a porous material model following the evolution of the material density throughout the forming processes.

Materials scienceFoams AFS FEMBending (metalworking)business.industryMetals and AlloysForming processesMetal foamStructural engineeringStampingIndustrial and Manufacturing EngineeringFinite element methodComputer Science ApplicationsAluminium foam sandwichModeling and SimulationCeramics and CompositesFormabilityComposite materialbusinessSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneSandwich-structured compositeJournal of Materials Processing Technology
researchProduct