Search results for "Finite element"

showing 10 items of 892 documents

Design and Study of a Wide-Band Printed Circuit Board Near-Field Probe

2021

Magnetic near-field probes (NFP) represent a suitable tool to measure the magnetic field level from a small electromagnetic interference (EMI) source. This kind of antenna is useful as a magnetic field probe for pre-compliance EMC measurements or debugging tasks since the user can scan a printed circuit board (PCB) looking for locations with strong magnetic fields. When a strong H-field point is found, the designer should check the PCB layout and components placement in that area to detect if this could result in an EMI source. This contribution focuses on analyzing the performance of an easy to build and low-cost H-field NFP designed and manufactured using a standard PCB stack-up. Thereby,…

Electromagnetisme MesuramentsTK7800-8360Computer Networks and CommunicationsComputer scienceAcousticsTransmission lossNear and far fieldmagnetic field probeElectromagnetic interferenceFinite element methodnear-field antennaPrinted circuit boardFinite Element Method (FEM)Hardware and ArchitectureControl and Systems EngineeringEMIelectromagnetic interference (EMI)Signal ProcessingAntenes (Electrònica)Sensitivity (control systems)Electrical and Electronic EngineeringAntenna (radio)ElectronicsElectronics
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Electromechanical impedance method for the health monitoring of bonded joints: Numerical modelling and experimental validation

2014

The electromechanical impedance (EMI) method is one of the many nondestructive evaluation approaches proposed for the health monitoring of aerospace, civil, and mechanical structures. The method consists of attaching or embedding one or more wafer-type piezoelectric transducers (PZTs) to the system of interest, the host structure, and measuring certain electrical characteristics of the transducers. As these characteristics are also related to the impedance of the host structure, they can be used to infer the mechanical properties of the monitored structure. In the study presented in this paper, we utilize the EMI to monitor the quality of adhesively bonded joints. A finite element formulati…

Electromechanical impedance methodFinite element methodStructural health monitoringBonded jointBuilding and ConstructionCivil and Structural Engineering
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Optimization of the domain in elliptic variational inequalities

1988

This paper is concerned with a nonsmooth shape optimization problem for the Signorini unilateral boundary-value problem. The necessary optimality conditions are derived. The results of computations are presented.

Elliptic curveMathematical optimizationControl and OptimizationApplied MathematicsComputationVariational inequalityShape optimization problemBoundary value problemGradient methodFinite element methodDomain (mathematical analysis)MathematicsApplied Mathematics & Optimization
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Modelling Aspects in Accumulative Roll Bonding Process by Explicit Finite Element Analysis

2013

Accumulative Roll-Bonding (ARB) process is a severe plastic deformation (SPD) process, capable of developing grains below 1 μm in diameter and improving mechanical properties of the material. In this study, the authors compared two different FE-codes with respect of its applicability for numerical analysis of the ARB process. Modelling this process was achieved using the explicit code for Abaqus/CAE both in 2D and 3D. The proposed model was used to assess the impact of ARB cycles on the final material properties. The numerical results in 2D and 3D were compared and contrasted. The research work presented in this paper is focused on the simulation optimization based on CPU time minimization.…

Engineering drawingEngineeringbusiness.industryMechanical EngineeringNumerical analysisProcess (computing)CPU timeStructural engineeringFinite element methodAccumulative roll bondingMechanics of MaterialsGeneral Materials ScienceMinificationSevere plastic deformationMaterial propertiesbusinessKey Engineering Materials
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Designing an Innovative Face-Milling Cutter

2013

The paper consists in a research in the design of an innovative face-milling cutter, in terms of product lifecycle management (PLM), with the help from creative design methods, such as TRIZ. The model of the lifecycle management of the cutting tools was presented, emphasizing the functional analysis and creative design phase. Based on this analysis, a new constructive variant of the milling cutter was designed and simulated with finite element method, highlighting its advantages compared with classic construction variants.

Engineering drawingEngineeringbusiness.industryModal analysisComputerApplications_COMPUTERSINOTHERSYSTEMSGeneral MedicineConstructiveFinite element methodManufacturing engineeringlaw.inventionApplication lifecycle managementProduct lifecyclelawFace (geometry)Milling cutterTRIZbusinessApplied Mechanics and Materials
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Effectiveness of numerical simulation in avoiding defects in hot extrusion forging products

1999

The hot extrusion forging, in the production of an half shaft of a motorcycle engine, has been analysed by means of finite element simulations. The severe mesh distortion occurring in the simulation has been overcome with the aid of a code provided with automatic remeshing techniques. The study is aimed to promote the use of FEM not only in the designing phase but also as a tool able to investigate defects occurring at the production level.

Engineering drawingMaterials scienceComputer simulationDistortionMechanical engineeringExtrusionFinite element methodForging
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Cutting Temperatures Evaluation in Ceramic Tools: Experimental Tests, Numerical Analysis and SEM Observations

1994

The authors propose a multiple approach for the evaluation of cutting temperatures in ceramic tools. The first approach was the experimental evaluation of equitemperature lines, obtained in three-dimensional cutting by employing constant melting point powders scattered on planes parallel to rake face. In the second approach, a numerical finite element analysis was performed. At this step the determination of the percentage of total heat produced in the operation that flows into the tool was considered and, consequently, the temperature distribution within the whole volume of the insert. Finally, the examination of the crater zone with SEM microscopy confirmed the temperature levels as previ…

Engineering drawingMaterials scienceCutting toolScanning electron microscopeMechanical EngineeringNumerical analysisRakeIndustrial and Manufacturing EngineeringFinite element methodVolume (thermodynamics)visual_artMelting pointvisual_art.visual_art_mediumCeramicComposite materialCIRP Annals
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Residual Stresses due to High Temperature Annealing. Mathematical Model and Calculations

2006

The mathematical model is developed for description of thermomechanical processes at cooling during high temperature annealing with the known initial temperature distribution (the temperature of holding) and stresses (acquired stresses at the final of a holding). It is taken into account the thermal sensitivity and material hardening at elasto-plastic solid deforming. The methodology based on the finite element method is proposed for solving thermomechanics problems of wide range. The suitable software is developed. At the final stage of annealing a cylindrical solid it is investigated residual stresses being formed on the cooling stage.

Engineering drawingMaterials scienceMathematical modelMechanics of MaterialsResidual stressAnnealing (metallurgy)Mechanical EngineeringThermalHardening (metallurgy)General Materials ScienceMechanicsCondensed Matter PhysicsFinite element methodMaterials Science Forum
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Finite element modelling of temperature distribution in the cutting zone in turning processes with differently coated tools

2005

Abstract The aim of this study is to check the applicability of various simulation models to obtain finite element solutions of cutting forces, specific cutting energy and adequate temperatures for a range of coated tool materials and defined cutting conditions. Commercial explicit finite element code Thirdwave AdvantEdge has been used in simulations of orthogonal cutting processes performed by means of uncoated carbide and coated tools. The latter were equipped with progressively increasing number of thin layers including TiC, TiN and Al 2 O 3 films deposited onto ISO P20 carbide substrates. Results showing the tool–chip interfacial friction influencing the temperature distribution fields,…

Engineering drawingThin layersMaterials scienceMetals and Alloyschemistry.chemical_elementIndustrial and Manufacturing EngineeringFinite element methodComputer Science ApplicationsCarbideDistribution (mathematics)chemistryModeling and SimulationCeramics and CompositesThermal simulationComposite materialTinFinite element codeTool materialJournal of Materials Processing Technology
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Improving Formability in SPIF Processes through High Speed Rotating Tool: Experimental and Numerical Analysis

2013

Single-point incremental forming (SPIF) is a quite new sheet-forming process which offers the possibility to deform complex parts without dedicated dies using a single-point tool and a standard three-axis CNC machine. Although the process mechanics enables higher strains with respect to traditional sheet-forming processes, research has been focused on further increasing the maximum forming angle. In the paper, a new approach is used to enhance the material formability through a localized sheet heating as a consequence of the friction work caused by high speed rotating tool. Numerical simulation was utilized to relate the effect of temperature with the main field variables distribution in th…

Engineering drawingWork (thermodynamics)Materials scienceField (physics)Computer simulationMechanical EngineeringNumerical analysisProcess (computing)Mechanical engineeringFinite element methodMechanics of MaterialsNumerical controlFormabilityGeneral Materials ScienceKey Engineering Materials
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