Search results for "finite element method"

showing 10 items of 746 documents

Masonry structures subjected to tsunami loads: Modeling issues and application to a case study

2020

Abstract Tsunamis are among the most dangerous natural disasters for coastal areas experiencing tsunami hazard. One of the major concerns in the assessment of strategies for the risk mitigation is to estimate vulnerability of structures and infrastructures. However, reliable approaches for the evaluation of the structural capacity under tsunami loads are nowadays not always available for all the types of structures, especially masonry. On this aim, the paper deals with the modeling issues of 3D masonry structures subjected to tsunami loads and the effect on the structural behavior of different modeling approaches. First, a brief state of the art on the available studies is presented regardi…

business.industryComputer scienceBuilding and ConstructionStructural engineeringMasonryFinite element methodSeismic analysisSettore ICAR/09 - Tecnica Delle CostruzioniTsunami loadsTsunami hazardArchitectureTsunami modelingAnalysis softwareFinite element modelingMasonryMasonry structureSafety Risk Reliability and QualitybusinessNatural disasterRisk managementCivil and Structural EngineeringVulnerability (computing)Structures
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A Viscoelastic Model for the Long-Term Deflection of Segmental Prestressed Box Girders

2017

Most of segmental prestressed concrete box girders exhibit excessive multidecade deflections unforeseeable by past and current design codes. To investigate such a behavior, mainly caused by creep and shrinkage phenomena, an effective finite element (FE) formulation is presented in this article. This formulation is developed by invoking the stationarity of an energetic principle for linear viscoelastic problems and relies on the Bazant creep constitutive law. A case study representative of segmental prestressed concrete box girders susceptible to creep is also analyzed in the article, that is, the Colle Isarco viaduct. Its FE model, based on the aforementioned energetic formulation, was succ…

business.industryComputer scienceConstitutive equation0211 other engineering and technologies020101 civil engineering02 engineering and technologyBuilding and ConstructionStructural engineeringComputer Graphics and Computer-Aided DesignFinite element methodViscoelasticity0201 civil engineeringComputer Science Applicationslaw.inventionPrestressed concreteComputational Theory and MathematicsCreepDeflection (engineering)lawGirder021105 building & constructionbusinessCivil and Structural EngineeringShrinkageComputer-Aided Civil and Infrastructure Engineering
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Topology Optimization Design of Internal Reinforcements in a Sailing Dinghy

2021

AbstractIn this paper, a novel approach has been followed based on FEM simulation and Topology Optimization tools to locate and model the reinforcements inside the hull of a sailing dinghy. This process assumes that the inner volume included between the hull and the deck is, at the beginning of the simulation, filled with material; then a portion of this inner volume is eroded until a final free form shape of the reinforcements is obtained. A key point of this procedure is the definition of the optimization constrains because the final shape of the reinforcements must fulfill several requirements such as weight, stiffness and stress. At the end of the optimization procedure, the final shape…

business.industryComputer scienceTopology optimizationProcess (computing)StiffnessStructural engineeringFinite element methodDeckStress (mechanics)Hullmedicinemedicine.symptombusinessVolume (compression)
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Structural assessment of the EU-DEMO WCLL Central Outboard Blanket segment under normal and off-normal operating conditions

2021

Abstract Within the framework of the EUROfusion design activities concerning the EU-DEMO Breeding Blanket (BB) system, a research campaign has been carried out at the University of Palermo with the aim of investigating the structural behaviour of the DEMO Water-Cooled Lithium Lead (WCLL) Central Outboard Blanket (COB) segment. The assessment has been performed considering three different loading scenarios: the Normal Operation (NO), the Over-Pressurization (OP) and the Upward Vertical Displacement Event (VDE-up). In particular, NO scenario represents the loading case referring to the nominal operating conditions, whereas the OP scenario refers to the loading conditions due to an in-box LOCA…

business.industryDesign activitiesMechanical EngineeringFEM analysisStructural engineeringVDEBlanketPlasma volumeVertical motionFinite element methodWCLLNuclear Energy and EngineeringPlasma chamberGeneral Materials ScienceVertical displacementBreeding blanketbusinessDEMOGeologySettore ING-IND/19 - Impianti NucleariCivil and Structural EngineeringEvent (probability theory)
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Maximum Displacement Variability of Stochastic Structures Subject to Deterministic Earthquake Loading

1998

The variability of the maximum response displacement of random frame structures under deterministic earthquake loading are examined in this paper using stochastic finite element techniques. The elastic modulus and the mass density are assumed to be described by cross-correlated stochastic fields. Specifically, a variability response function formulation is used for this problem, which allows for calculation of spectral-distribution-free upper bounds of the maximum displacement variance. Further, under the assumption of prespecified correlation functions describing the spatial variation of the material properties, variability response functions are used to calculate the corresponding maximum…

business.industryMechanical EngineeringMathematical analysisVariance (accounting)Structural engineeringFunction (mathematics)Geotechnical Engineering and Engineering GeologyCondensed Matter PhysicsDisplacement (vector)Finite element methodlcsh:QC1-999Mechanics of MaterialsSpatial variabilityMaterial propertiesbusinessElastic modulusRandomnesslcsh:PhysicsCivil and Structural EngineeringMathematicsShock and Vibration
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A particle based simulation model for glacier dynamics

2013

This publication is contribution number 22 of the Nordic Centre of Excellence SVALI, “Stability and Variations of Arctic Land Ice”, funded by the Nordic Top-level Research Initiative (TRI). The work has been supported by the SVALI project through the University of Lapland, Arctic Centre, and through the University Centre in Svalbard. Funding was also provided by the Conoco-Phillips and Lunding High North Research Program (CRIOS: Calving Rates and Impact on Society). A particle-based computer simulation model was developed for investigating the dynamics of glaciers. In the model, large ice bodies are made of discrete elastic particles which are bound together by massless elastic beams. These…

business.product_categoryGlacier terminusTidewater glaciersBasal conditionsLaskennallinen materiaalifysiikkaCalving glaciersPhysics::GeophysicsBergy bitsDiscrete element modelG1SDG 14 - Life Below WaterInclined planefysiikkaGeomorphologylcsh:Environmental sciencesPhysics::Atmospheric and Oceanic PhysicsEarth-Surface ProcessesWater Science and Technologylcsh:GE1-350ice behaviourgeographygeography.geographical_feature_categorymekaniikkaIce-sheetIcebergslcsh:QE1-996.5Computational material physicsjään tutkimusGlacierG Geography (General)MechanicsDebrisIcebergFinite element methodMassless particlelcsh:GeologyHydrodynamicsIce sheetSize distributionsbusinessStabilityGeology
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Computer-Aided Simulation of Die Filling Processes

1989

Summary A numerical method for analysing the filling of axisymmetrical dies of complex shape is proposed. The method, which is a further development of a LP finite element model, is able to take into account the contact conditions directly in the mathematical formulation of the problem. In such a way the solution of the die filling process is obtained by solving a LP problem, avoiding problems of numerical convergence and the heavier calculations requested by other iterative methods.

business.product_categoryIterative methodComputer scienceMechanical EngineeringNumerical analysisProcess (computing)Mechanical engineeringIndustrial and Manufacturing EngineeringFinite element methodDevelopment (topology)Convergence (routing)Die (manufacturing)Applied mathematicsComputer aided simulationbusinessCIRP Annals
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Dual phase titanium alloy hot forging process design: experiments and numerical modeling

2015

Titanium alloys are considered desirable materials when both good mechanical properties and weight reduction are required at the same time. This class of materials is widely used in those fields (aeronautics, aerospace) in which common steels and light-weight materials, e.g., aluminum alloys, are not able to satisfy all operative service conditions. During the last decade, forging of titanium alloys has attracted greater attention from both industrial and scientific/academic researchers because of their potential in providing a near net shaped part with minimal need for machining. In this paper, a numerical model of the forging sequences for a Ti-6Al-4V titanium alloy aerospace component is…

business.product_categoryMaterials scienceFinite element method (FEM)Polymers and PlasticPolymers and Plasticsbusiness.industryMechanical EngineeringMetallurgyTitanium alloyProcess designPhase predictionMicrostructureHot forgingStrength of materialsForgingIndustrial and Manufacturing EngineeringMachiningMechanics of MaterialsDie (manufacturing)Mechanics of MaterialTi-6Al-4VAerospacebusiness
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Damage and fracture study of cold extrusion dies

2004

Abstract In the present paper die fracture in cold extrusion was investigated considering a few different die reduction zone geometries. A former finite element method (FEM) analysis of the process was developed to obtain the contact pressure distribution at the workpiece–die interface for each of the investigated geometries; subsequently a stress and strain analysis utilizing the BEM code Franc3D was carried out, with the aim to evaluate the crack propagation at each loading cycle, i.e. at each extrusion process. In this way the die life for each of the investigated extrusion die geometries was compared utilizing the Paris law and the values assumed by the stress concentration coefficient …

business.product_categoryMaterials scienceMechanical EngineeringStress–strain curveMechanical engineeringFracture mechanicscold extrusionFinite element methodStress (mechanics)Mechanics of MaterialsFracture (geology)Die (manufacturing)General Materials ScienceExtrusionComposite materialbusinessStress concentrationEngineering Fracture Mechanics
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The Relevance Of The Preform Design In Coining Processes Of Cupronickel Alloy

2007

Coining is a forging process in which a metallic disk, characterized by a low volume‐surface ratio, is deformed with the aim to impress 3D images on its three surfaces. Due to the large production volumes and, at the same time, to the high quality standards required to the final products in terms of final dimensions, tolerances and surface finishing, such closed‐die, cold forging process requires a careful evaluation and choice of the proper operative parameters. In particular, along with technological parameters as the die velocity, die stroke and lubrication, which, in turn, contribute to affect the pressure values on the die surfaces, and thus the press choice, geometrical parameters as …

business.product_categoryMaterials scienceMechanical engineeringForming processesStrain rateFinite element methodForgingCoining Cupronickel FEMLubricationDie (manufacturing)Coining (metalworking)businessSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneSurface finishing
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