Search results for "Finite Element"

showing 10 items of 892 documents

On the analysis of Catalan thin vaults

2010

This paper is concerned with the identification, modelling and analysis of thin layered vaults, typical in the Catalan constructions of the XIX century. These special structures, also known as bovedas tabicadas, are characterized by very low thickness with respect to the medium surface dimensions and by the presence of different superimposed layers of bricks tied with mortar, are studied in order to individuate a coherent mechanical model for describing the material behaviour, to recognize the structural response utilizing as comparison adequate experimental results, and to extend the obtained results for the analysis of new vaults or for the restoration design of existing vaults. Firstly, …

Surface (mathematics)Bending (metalworking)Computer sciencebusiness.industryNumerical analysisReal structureStructural engineeringthin vaults material mechanical modelling experimental and numerical analysis restoration designCompression (physics)Finite element methodCharacterization (materials science)MortarbusinessSettore ICAR/08 - Scienza Delle Costruzioni
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Numerical-Experimental Study Regarding the Single Point Incremental Forming Process

2021

The present paper proposes a numerical-experimental comparative study on the single point incremental forming process. A DC04 steel sheet with a thickness of 0.6 mm was used for both the numerical simulation using the finite element method and the experimental research. The type of trajectory used was a spiral trajectory and the finished part obtained was a truncated cone-shaped part. The analysis program used for simulation was Ls-Dyna. The simulations were performed in several variants: with a fixed mesh and with an adaptive mesh, using two different element formulations: 25 (Belytschko-Tsay formulation with thickness stretch) and -16 (fully integrated shell element modified for higher ac…

Surface (mathematics)Computer simulationbusiness.industryNumerical analysisMinor (linear algebra)TrajectoryForming processesStructural engineeringTA1-2040Engineering (General). Civil engineering (General)businessReduction (mathematics)Finite element methodMATEC Web of Conferences
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Failure Analysis of a Humeral Shaft Locking Compression Plate—Surface Investigation and Simulation by Finite Element Method

2019

A case study of a failed humeral shaft locking compression plate is presented, starting with a clinical case where failure occurred and an implant replacement was required. This study uses finite element method (FEM) in order to determine the failure modes for the clinical case. Four loading scenarios that simulate daily life activities were considered for determining the stress distribution in a humeral shaft locking compression plate (LCP). Referring to the simulation results, the failure analysis was performed on the explant. Using fracture surface investigation methods, stereomicroscopy and scanning electron microscopy (SEM), a mixed mode failure was determined. An initial fatigue failu…

Surface (mathematics)Materials scienceFractography02 engineering and technologyFEM simulationlcsh:TechnologyfractographyArticle03 medical and health sciences0302 clinical medicineGeneral Materials Sciencelcsh:Microscopylcsh:QC120-168.85030222 orthopedicsLCP failurelcsh:QH201-278.5business.industrylcsh:TStructural engineering021001 nanoscience & nanotechnologyCompression (physics)Finite element methodlcsh:TA1-2040Humeral shaftFracture (geology)fracture morphologylcsh:Descriptive and experimental mechanicsGallingImplantlcsh:Electrical engineering. Electronics. Nuclear engineering0210 nano-technologybusinesslcsh:Engineering (General). Civil engineering (General)lcsh:TK1-9971Materials
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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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Scattering loss analysis in PMMA WGM micro resonator from surface irregularities

2021

The following work shows new ways to analyze PMMA WGM micro resonators, that have irregularities, which acts as scattering centers. The scattering analyses could be used for integration into sensor systems and corrections of existing experiments.

Surface (mathematics)ResonatorWork (thermodynamics)Materials scienceOpticsScatteringbusiness.industryQ factorWhispering-gallery wavePhysical opticsbusinessFinite element methodOSA Optical Sensors and Sensing Congress 2021 (AIS, FTS, HISE, SENSORS, ES)
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A symmetric Galerkin BEM for plate bending analysis

2009

Abstract The Symmetric Galerkin Boundary Element Method is employed in thin plate bending analysis in accordance with the Love–Kirchhoff kinematical assumption. The equations are obtained through the stationary conditions of the total potential energy, written for a plate whose boundary is discretized in boundary elements. Since the matrix coefficients are made up as double integrals with high order singularities, a strategy is shown to compute these coefficients in closed form. Furthermore, in order to model the kinematical discontinuities and to weight the mechanical quantities along the boundary elements, the Lagrangian quadratic shape functions, rather than C 1 type (spline, Hermitian),…

Symmetric Galerkin Boundary Element MethodDiscretizationMechanical EngineeringMultiple integralMathematical analysisPlate bendingGeneral Physics and AstronomyBending of platesRigid bodyHermitian matrixFinite element methodhypersingular integrals.Mechanics of MaterialsGeneral Materials ScienceGalerkin methodSettore ICAR/08 - Scienza Delle CostruzioniBoundary element methodplate bending SBEM Hypersingular integralsMathematics
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A critical analysis on the friction modelling in orthogonal machining

2007

Abstract Despite the development of high performance finite element-based codes, the simulation of machining still represents a very hard task due to the geometric complexity of the real chip-tool systems and the high cutting speed that requires very long simulation times. For these reasons, many aspects related to machining are not very clear and so easy to simulate. In this paper a rigorous investigation on the role played by the implemented friction model within a 2D simulation of orthogonal cutting was carried out, taking into account different models proposed by the researchers in the last years. The main simulation results were compared with experimental measurements in order to verif…

Task (computing)EngineeringMachiningorthogonal cutting friction temperature distributionbusiness.industryMechanical EngineeringMechanical engineeringExperimental workbusinessSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneIndustrial and Manufacturing EngineeringFinite element methodSimulation
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Genetic Algorithms Applied to the Design of 3D Photonic Crystals

2011

We aim at determining the optimal configuration of photonic crystal structures capable of carrying out a certain optical task. An exhaustive search would require a high computational cost, in this work we show how genetic algorithms can be applied to reliably find an optimal topology of threedimensional photonic crystals. The fitness, representing the performance of each potential configuration, is calculated by means of finite element analysis. Different experiments are presented in order to illustrate the potential of this 3D design approach.

Task (computing)Work (thermodynamics)Theoretical computer scienceComputer scienceGenetic algorithmPhysics::OpticsBrute-force searchAlgorithmFinite element methodTopology (chemistry)Photonic crystal
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Benchmarking of strength models for unidirectional composites under longitudinal tension

2018

© 2018 Elsevier Ltd Several modelling approaches are available in the literature to predict longitudinal tensile failure of fibre-reinforced polymers. However, a systematic, blind and unbiased comparison between the predictions from the different models and against experimental data has never been performed. This paper presents a benchmarking exercise performed for three different models from the literature: (i) an analytical hierarchical scaling law for composite fibre bundles, (ii) direct numerical simulations of composite fibre bundles, and (iii) a multiscale finite-element simulation method. The results show that there are significant discrepancies between the predictions of the differe…

TechnologyMaterials scienceComposite numberMaterials Science02 engineering and technologyFiber-reinforced composite0901 Aerospace EngineeringEngineering0203 mechanical engineeringFragmentationUltimate tensile strengthMicro-mechanicsCOMPUTED-TOMOGRAPHYLOAD-TRANSFERComposite material0912 Materials EngineeringMaterialsStress concentrationEPOXY COMPOSITESTRESS-CONCENTRATIONSScience & TechnologyDAMAGE ACCUMULATIONTension (physics)FIBER-REINFORCED COMPOSITESPolymer-matrix compositesExperimental dataMicromechanics021001 nanoscience & nanotechnologyFinite element methodEngineering Manufacturing020303 mechanical engineering & transportsWIDE FAILURE EXERCISEMechanics of MaterialsMaterials Science CompositesHYBRID COMPOSITES[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Ceramics and CompositesStrength0210 nano-technologyFINITE-ELEMENT0913 Mechanical Engineering
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Identification of blanket design points using an integrated multi-physics approach

2017

Abstract The breeding blanket (BB) is one of the key components for a fusion reactor. It is expected to sustain and remove considerable heat loads due to the heat flux coming from the plasma and the nuclear power deposited by the fusion neutrons. In the design of the BB, the engineering requirements of nuclear, material and safety kind are involved. In the European DEMO project, several efforts are dedicated to the development of an integrated simulation-design tool able to perform a multi-physics analysis, allowing the characterisation of BB design points which are consistent from the neutronic, thermal-hydraulic and thermo-mechanical point of view. Furthermore, at Karlsruhe Institute of T…

TechnologyNuclear engineeringDEMO reactorBlanket7. Clean energy01 natural sciences010305 fluids & plasmasCoupling0103 physical sciencesMulti-physics approachGeneral Materials SciencePoint (geometry)Design point010306 general physicsSettore ING-IND/19 - Impianti NucleariCivil and Structural EngineeringCouplingRequirements engineeringbusiness.industryMechanical EngineeringNuclear powerFusion powerFinite element methodNuclear Energy and EngineeringHeat fluxBreeding blanketbusinessddc:600Fusion Engineering and Design
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