Search results for " Finite element method"

showing 8 items of 58 documents

Finite element analysis in vertebrate palaeontology

2002

The Finite Element Analysis (FEA) is a numerical method which allows to analyse the static and dynamic behaviour of complex structures. A structure is substituted by a model consisting of a number of small, well-defined elements, each interconnected by nodes. Within the element attributes and material properties, the model can be exposed to static or dynamic loads. The displacements of the structure as the reaction to its loadings are calculated. Other data such as stress or strain at localized points in the structure are derived from these displacements. Originally developed for engineering, FEA soon was introduced to human medicine by modelling the behaviour of bone, teeth, cartilage and …

Stress (mechanics)Finite element limit analysisbusiness.industryNumerical analysisPaleontologySmoothed finite element methodMixed finite element methodStructural engineeringMaterial propertiesbusinessFinite element methodExtended finite element methodSenckenbergiana lethaea
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Measuring Multiple Residual-Stress Components using the Contour Method and Multiple Cuts

2009

The conventional contour method determines one component of residual stress over the cross section of a part. The part is cut into two, the contour (topographic shape) of the exposed surface is measured, and Bueckner’s superposition principle is analytically applied to calculate stresses. In this paper, the contour method is extended to the measurement of multiple residual-stress components by making multiple cuts with subsequent applications of superposition. The theory and limitations are described. The theory is experimentally tested on a 316L stainless steel disk with residual stresses induced by plastically indenting the central portion of the disk. The multiple-cut contour method resu…

Surface (mathematics)Mathematical modelResidual stress measurement - Contour method - Multiaxial stress - Neutron diffraction - Bueckner’s principle - Finite element methodbusiness.industryMechanical EngineeringAerospace EngineeringGeometryStructural engineeringFinite element methodCross section (geometry)Settore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineSuperposition principleMechanics of MaterialsResidual stressIndentationSolid mechanicsbusinessMathematicsExperimental Mechanics
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A smart composite-piezoelectric one-dimensional finite element model for vibration damping analysis

2015

A one-dimensional finite element method for generally layered smart beams is presented in this paper. The model implements the first-order shear deformation beam theory and is based on the preliminary analytical condensation of the electric state to the mechanical state. This allows us to establish an effective mechanical beam kinematically equivalent to the original smart beam including the effects of electro-elastic couplings. The contributions of the external electric loads are included in both the equivalent stiffness properties and the equivalent mechanical boundary conditions. Hermite shape functions, which depend on parameters representative of the staking sequence through the equiv…

Timoshenko beam theoryEngineeringbusiness.industrySmart beamMechanical EngineeringComposite numberMechanical engineering02 engineering and technologyMixed finite element methodStructural engineering021001 nanoscience & nanotechnologyPiezoelectricityFinite element methodVibration020303 mechanical engineering & transports0203 mechanical engineeringfinite elementvibration dampingGeneral Materials ScienceMaterials Science (all)Settore ING-IND/04 - Costruzioni E Strutture Aerospaziali0210 nano-technologybusinessExtended finite element methodJournal of Intelligent Material Systems and Structures
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Metallurgical Evolutions in Hot Forging of Dual Phase Titanium Alloys: Numerical Simulation and Experiments

2015

Titanium forging has been encountering a growing interest in the scientific and industrial communities because of the distinct advantages it provides with respect to machining, in terms of both mechanical properties of the product and material waste, thus significantly reducing the Buy to Fly ratio. In the paper, a numerical FE model, based on a tri-coupled approach and able to predict the microstructural evolutions of the workpiece during the process, is developed and set up. Calculated results are compared to experiments for a few industrial case studies. The final phases distribution in the forged parts is experimentally measured and compared to the FE model output finding satisfying ove…

TitaniumFEMEngineering controlled terms: Finite element methodIndustrial communitieMechanical EngineeringPhase transformationHot forgingTitanium Dual phaseFE modelIndustrial case studyMechanics of MaterialMaterials Science (all)ForgingPhase transitionMaterial wasteWorkpiece Engineering main heading: Titanium alloys
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TOPOLOGY OPTIMIZATION OF A CONNECTING ROD FOR AN INTERNAL COMBUSTION ENGINE

2009

The topology optimization of a structure is a process that allows to establish if in a point of an assigned domain there should be some material. No assumption is made with regard to the number and the distribution of the contours and the final topology, that can be very different compared to that one initially hypothesized. In this paper a study related to the topology optimization of a connecting rod for an internal combustion engine is presented. The used technique for the optimization is the density (or distribution of material) method. The developed application, besides giving an innovative solution of the topology of the connecting rod with a lower mass in comparison with the initial …

Topology optimization connecting rod finite element method
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Multi-physical modelling of reverse electrodialysis

2017

Abstract Reverse electrodialysis (RED) is an electrochemical membrane process that directly converts the energy associated with the concentration difference between two salt solutions into electrical energy by means of a selective controlled mixing. The physics of RED involves the interaction of several phenomena of different nature and space-time scales. Therefore, mathematical modelling and numerical simulation tools are crucial for performance prediction. In this work, a multi-physical modelling approach for the simulation of RED units was developed. A periodic portion of a single cell pair was simulated in two dimensions. Fluid dynamics was simulated by the Navier-Stokes and continuity …

Work (thermodynamics)EngineeringSettore ING-IND/26 - Teoria Dello Sviluppo Dei Processi ChimiciSettore ING-IND/25 - Impianti ChimiciGeneral Chemical EngineeringAnalytical chemistry02 engineering and technology020401 chemical engineeringStack (abstract data type)Reversed electrodialysisFluid dynamicsPerformance predictionGeneral Materials Science0204 chemical engineeringSettore ING-IND/19 - Impianti NucleariWater Science and TechnologyComputer simulationPlane (geometry)business.industryMechanical EngineeringGeneral ChemistryMechanics021001 nanoscience & nanotechnology6. Clean waterMembraneReverse electrodialysis multi-physical model finite element method power density profiled membranesSettore ING-IND/06 - Fluidodinamica0210 nano-technologybusiness
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Investigations on the linear friction welding process through numerical simulations and experiments

2012

Abstract Linear Friction Welding (LFW) is a solid-state joining process applied to non-axisymmetric components. LFW involves joining of materials through the relative motion of two components undergoing an axial force. In such process the heat source is given by the frictional forces work decaying into heat determining a local softening of the material and eventually bonding conditions. In the paper the authors present a designed and assembled laboratory fixture for LFW operations and the results of an experimental and numerical campaign aimed to weld steel parts. The dedicated fixture permitted to highlight the effect of the most important process parameters. Process conditions allowing ef…

Work (thermodynamics)Materials scienceProcess (computing)Mechanical engineeringWeldingFixtureWelding Friction Solid state bonding Finite element method (FEM)law.inventionProcess conditionslawFriction weldingAxial forceSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneSofteningMaterials & Design
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Guided Wave Techniques for Damage Detection in Composite Aerospace Structures

2018

Composite materials make up an increasing portion of today’s aerospace structures (see, e.g. Boeing 787 and Airbus 380). These aircrafts’ fuselage, for example, is composed of a laminated composite skin connected to composite stringers and C-frames. Of primary importance is the detection of damage in these built-up structures, whether caused by the manufacturing process or in service (e.g. impacts). A related issue is the characterization of the composite (visco)elastic mechanical properties, that can also be related to the quantification of potential damage. Guided elastic waves propagating in the ~100s kHz regime lend themselves to provide the necessary sensitivity to these two conditions…

guided waves dispersion damage detection composites anisotropy semi-analytical finite element method air-coupled ultrasonic testingSettore ICAR/08 - Scienza Delle Costruzioni
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