Search results for "Finite Element"

showing 10 items of 892 documents

Modeling elastic properties of short flax fiber-reinforced composites by orientation averaging

2010

Abstract Natural fibers of plant origin, used as reinforcement in polymer matrix composite materials, exhibit highly anisotropic elastic properties due to their complex internal structure. Mechanical properties can be evaluated not only by tests but also by mechanical models reflecting the principal morphological features of fibers. Such a FEM model is applied to estimate the elastic properties of a unit cell of a short-fiber-reinforced composite, an elementary flax fiber embedded in a polymer matrix. Orientation averaging approach is used for prediction of the stiffness of short flax fiber reinforced polymer matrix composite. The numerical estimates of Young’s modulus are compared to the t…

Polypropylenechemistry.chemical_classificationMaterials scienceGeneral Computer ScienceComposite numberGeneral Physics and AstronomyModulusStiffnessYoung's modulusGeneral ChemistryPolymerFinite element methodComputational Mathematicssymbols.namesakechemistry.chemical_compoundchemistryMechanics of MaterialssymbolsmedicineGeneral Materials ScienceComposite materialmedicine.symptomAnisotropyComputational Materials Science
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Analytical and numerical comparison of position based methods versus physics based formulation of mechanical systems

2017

La simulación de sistemas mecanicos para videojuegos y otras aplicaciones interactivas impone restricciones importantes como estabilidad, flexibilidad en las escenas, y complejidad computacional. En los últimos años han aparecido múltiples estrategias de resolución para sistemas mecánicos con restricciones. Algunos de los más populares en el ámbito de videojuegos únicamente usan las posiciones de las partículas y un algoritmo de proyección sobre la variedad definida por las restricciones, evitando la manipulación de la primera derivada del sistema (las velocidades), obteniendo así gran estabilidad numérica. El principal problema de estos métodos es la dependencia en parámetros no físicos, d…

Position Based DynamicsFEMUNESCO::MATEMÁTICAS::Ciencia de los ordenadores::SimulaciónSimulation of Mechanical SystemsFinite Element MethodElastic MaterialsPBD
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Study of new joining technique: flat clinching

2007

In this paper a development of clinching, called flat clinching, is presented. After a press clinching process, the joined sheets have been deformed by a punch with a lower diameter against a flat die. In this way a new configuration is created with a geometry that has no discontinuity on the external surface (bottom). A new procedure has also been tested: the second step is perfomed by pressing the joint between two flat dies. This second case has revealed itself to be very effective.Tensile tests have been done to compare the joints strength among the various joining techniques. Moreover some joints have been cut to analyse the changing of the contact line shape and how its characteristic…

PressingEngineeringbusiness.product_categorybusiness.industryMechanical EngineeringContact lineStructural engineeringFinite element methodClinchingDiscontinuity (geotechnical engineering)Mechanics of MaterialsDie (manufacturing)General Materials Sciencebusiness
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Influence of substrate design for in vitro mechanical testing

2019

Background: The goal of this study was to evaluate the influence of dental substrate simulator material, and the presence of root and periodontal ligament on the stress distribution in an adhesively-cemented monolithic crown.Material and methods: Five (5) 3D models according to the substrate simulator material and shape were modeled with CAD software for conducting non-linear finite element analysis (FEA): Tooth with and without periodontal ligament - subgroup "pl" (groups Tooth+pl and Tooth-pl), machined tooth in epoxy-resin with and without pulp chamber - subgroup "pc" (ER+pc and ER-pc) and simplified epoxy-resin substrate without pulp chamber and roots (SiER). Next, adhesively-cemented m…

Prosthetic DentistryMaterials scienceResearchmedicine.medical_treatment0206 medical engineeringIsotropyRigidity (psychology)030206 dentistry02 engineering and technology:CIENCIAS MÉDICAS [UNESCO]020601 biomedical engineeringCrown (dentistry)Finite element methodStress (mechanics)03 medical and health sciencesSubstrate (building)stomatognathic diseases0302 clinical medicinestomatognathic systemFull CrownUNESCO::CIENCIAS MÉDICASmedicinePeriodontal fiberComposite materialGeneral Dentistry
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Modeling and numerical simulation of the propagation of pitting corrosion of iron in chlorinated medium : contribution to the evaluation of the durab…

2012

This study deals with the understanding of the mechanisms of pitting corrosion susceptible to occur on carbon steel selected for high level nuclear waste containers. Transport/reaction models have been developed in order to simulate, by finite element method, the propagation of a pit on iron in chlorinated medium. For conservative models, pit is activated by imposing a potential on metal. Thanks to different parametric studies (geometry, environment…) simulations have permitted to classify, by severity order, the factors responsible of the increase or the inhibition of the localized corrosion rate. Otherwise, experiments on occluded (called « lead-in-pencil ») electrodes confirm that confin…

PrécipitationMéthodes des éléments finis[SPI.OTHER] Engineering Sciences [physics]/OtherIronOccluded electrodesModelingChute ohmiqueOhmic dropPrecipitationÉvasementFerCouplingCorrosion par piqûresÉlectrodes occlusesCouplageModélisation[CHIM.OTHE] Chemical Sciences/OtherFinite Element MethodOpening of the defectPitting corrosionConfinement
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Experimental and numerical assessment of subsurface plastic deformation induced by OFHC copper machining

2015

Strain distributions in the machined surface and subsurface of OFHC copper workpieces were determined experimentally and through numerical simulations. An experimental setup, comprising a double frame camera and a pulsed laser, was developed to measure the displacement fields using the digital image correlation (DIC) technique; strain distributions were then calculated. A numerical orthogonal cutting model was also developed and applied in order to predict such distributions. Comparison between simulated and measured results enabled an understanding of the fundamental mechanisms of plastic deformation of the machined surface of OFHC copper.; International audience; Strain distributions in t…

Pulsed laser[ SPI.MECA.GEME ] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanical engineering [physics.class-ph]0209 industrial biotechnologyDigital image correlationMaterials sciencechemistry.chemical_element02 engineering and technologyIndustrial and Manufacturing EngineeringDisplacement (vector)020901 industrial engineering & automationMécanique: Génie mécanique [Sciences de l'ingénieur]Finite Element Method (FEM)0203 mechanical engineeringMachiningComposite materialMechanical EngineeringMetallurgyNumerical assessmentMachiningCopperDeformation[SPI.MECA.GEME]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanical engineering [physics.class-ph]020303 mechanical engineering & transportsMachined surfacechemistryDeformation (engineering)
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Analytical and Numerical Methods for the Evaluation of Critical Conditions in Longitudinal Bars of RC Columns

2017

Buckling collapse of reinforcing bars in concrete members is usually observed in framed structures after severe earthquakes. Second order effects modify the compressive response of steel bars, reducing ductility and affecting the post-elastic branch. Literature investigations show that instability can involve more stirrups, or it can be limited to the pitch. If the critical length is not carefully estimated, transverse steel’s failure can be achieved in brittle manner, causing the sudden loss of confinement in the inner concrete. This paper presents the results of a theoretical investigation, aiming to evaluate the reliability of different approaches for calculating critical conditions of l…

RC structurelongitudinal barfinite elements.buckling
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Design of Numerical Simulations of Linear Friction Welding Processes: Issues and Difficulties

2015

In this paper, a critical analysis of the technical difficulties and numerical issues in running simulations of linear friction welding processes is carried out. The focus of the paper is the comparison of different modeling strategies of a numerical analysis for the LFW process of Ti-6Al-4V titanium alloy, for which the thermal aspect strongly influences the mechanical behavior due to the phase transformation, taking place over a definite range of temperature. A 3D simulation campaign, conducted using the FEA code DEFORMTM, was considered in order to show advantages and disadvantages of each approach, including the most critic limitations and complexity in a correct simulation design using…

Range (mathematics)Materials scienceTransformation (function)Mechanics of MaterialsProcess (engineering)Mechanical EngineeringNumerical analysisThermalMechanical engineeringGeneral Materials ScienceFriction weldingFocus (optics)Finite element methodKey Engineering Materials
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A Rayleigh-Ritz approach for postbuckling analysis of variable angle tow composite stiffened panels

2018

Abstract A Rayleigh-Ritz solution approach for generally restrained multilayered variable angle tow stiffened plates in postbuckling regime is presented. The plate model is based on the first order shear deformation theory and accounts for geometrical nonlinearity through the von Karman’s assumptions. Stiffened plates are modelled as assembly of plate-like elements and penalty techniques are used to join the elements in the assembled structure and to apply the kinematical boundary conditions. General symmetric and unsymmetric stacking sequences are considered and Legendre orthogonal polynomials are employed to build the trial functions. A computer code was developed to implement the propose…

Rayleigh–Ritz methodEngineeringSource codemedia_common.quotation_subjectComposite numberStructure (category theory)02 engineering and technologyPhysics::Fluid Dynamics0203 mechanical engineeringGeneral Materials ScienceBoundary value problemSettore ING-IND/04 - Costruzioni E Strutture AerospazialiVariable angle tow composites Composite stiffened plates Postbuckling analysis Rayleigh-Ritz method First Order Shear DeformationLegendre polynomialsCivil and Structural Engineeringmedia_commonbusiness.industryMechanical EngineeringStructural engineering021001 nanoscience & nanotechnologyFinite element methodComputer Science Applications020303 mechanical engineering & transportsModeling and SimulationOrthogonal polynomials0210 nano-technologybusinessComputers & Structures
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Post-Buckling Analysis of Damaged Multilayered Composite Stiffened Plates by Rayleigh-Ritz Method

2016

A Rayleigh-Ritz approach for the analysis of buckling and post-buckling behavior of cracked composite stiffened plates is presented. The structure is modeled as the assembly of plate elements modeled by the first order shear deformation theory and taking geometric nonlinearities into account through the von Karman’s theory assumptions. Continuity along the plate elements connected edges and the enforcement of rigid and elastic restraints of the plate boundaries are obtained by using penalty techniques, which also allow to straightforwardly implement efficient crack modeling strategies. General symmetric and unsymmetric stacking sequences are considered and numerical procedures have been dev…

Rayleigh–Ritz methodcomposite plates cracked plates post-buckling analysis Ritz method first order shear deformation theory (FSDT)Materials sciencebusiness.industryShear deformation theoryComposite numberStacking02 engineering and technologyGeneral MedicineStructural engineeringFirst order01 natural sciencesFinite element methodRitz methodPhysics::Fluid Dynamics010101 applied mathematics020303 mechanical engineering & transports0203 mechanical engineeringBuckling0101 mathematicsbusinessSettore ING-IND/04 - Costruzioni E Strutture Aerospaziali
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