finite element analysis of induction heating process design for

Finite element analysis of coupled electromagnetic and

2008/1/1The analysis of an induction heating cooker is a complex process because induction heating is a combination of electromagnetic and heat transfer. In this paper, a coupled electromagnetic and thermal field analysis tool for education is proposed. The tool is based on the finite element method. A very simple and highly practical finite element computation procedure has also been

Finite element method

The finite element method (FEM) is a widely used method for numerically solving differential equations arising in engineering and mathematical modeling. Typical problem areas of interest include the traditional fields of structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential. The FEM is a general

Process Design of the Hot Pipe Bending Process Using

Induction heating process has been analyzed to estimate influence of heating process parameters on heating characteristic by finite difference method. Then pipe bending experiments have been performed for verification of finite element and finite difference analysis results.

A computer aided finite element/experimental analysis of

1996/6/1COMPUTERS IN INDUSTRY ELSEVIER Computers in Industry 28 (1996) 195-205 A computer aided finite element/experimental analysis of induction heating process of steel K. Sadeghipour *, J.A. Dopkin, K. Li Department of Mechanical Engineering, Temple

Finite element analysis of coupled electromagnetic and

2008/1/1The analysis of an induction heating cooker is a complex process because induction heating is a combination of electromagnetic and heat transfer. In this paper, a coupled electromagnetic and thermal field analysis tool for education is proposed. The tool is based on the finite element method. A very simple and highly practical finite element computation procedure has also been

Approximate analytical solution for induction heating of

2016/2/1article{osti_1225114, title = {Approximate analytical solution for induction heating of solid cylinders}, author = {Jankowski, Todd A. and Pawley, Norma H. and Gonzales, Lindsey M. and Ross, Craig A. and Jurney, James D.}, abstractNote = {An approximate solution to the mathematical model for induction heating of a solid cylinder in a cylindrical induction coil is presented here.

Modeling of Induction Heating of Steel Billets for Control

A mathematical model based on Finite Element Method is presented. Design of induction heaters is constantly evolving and improving in terms of electrical and thermal efficiency. In recent years there is a trend of modular designed induction heating systems with separated power supply which replaces conventional one coil-one power supply heaters.

Effective methods for optimal design of induction coils

This paper aims to describe main ideas and demonstrates results of the research activities carried out by the authors in the field of optimal design concepts for induction heater for surface hardening. The main goal of the research studies is the application of different

Finite Element Simulation of Induction Heating of a Tubular

Finite element simulation and analysis of induction heating of tubular geometry has been carried out using the software COMSOL. Two types of coil geometries, namely split-type helical coil and pancake type coil design have been studied. Different parametric

Design and Analysis of Piston by using Finite Element Analysis

Design and Analysis of Piston by using Finite Element Analysis Sandeep K. Kourav1, Vishnu B. Ghagare2 1,2Mechanical Engineering Department, Trinity College of Engineering and Research, Savitribai Phule, Pune University Pune, India Abstract— This paper describes the

Toward the Design of an Induction Heating System for

2017/1/1Toward the Design of an Induction Heating System for Asphalt Pavements with the Finite Element Method Panos Apostolidis, Xueyan Liu, Cor Kasbergen, A.Tom Scarpas, and Martinus van de Ven Transportation Research Record 2017 2633 : 1, 136-146

Three‐dimensional finite‐element analysis multiphysics

2020/7/15Computational three‐dimensional (3D) finite‐element analysis (FEA) modelling was the initial method chosen to determine if Joule heating of CFCs was feasible. It was important that 3D models were developed to understand the behaviour of CFCs in terms of eddy current flow based on electrical conductivity, construction (layers and orientation) and response to external EM fields.

FINITE ELEMENT ANALYSIS OF RECIPROCATING SCREW

Fully-Coupled Numerical Analysis of High-Frequency Induction Heating for Thin-Wall Injection Molding Hyeju Eom Keun Park (2009) Polymer-Plastics Technology and Engineering, 48:10, 1070-1077. 9. S.J. Bull, Qiusha Zhou -A simulation test for wear in injection moulding machines, Wear 249 (2001) 372–378.

Induction Heating Process Design Using Comsol

Induction heating computer simulation is a powerful tool for process design and optimization, induction coil design, equipment selection, as well as education and business presentations. The authors share their vast experience in the practical use of computer simulation for different induction heating and heat treating processes. In this paper treated with mathematical modeling and numerical

Mathematical Modeling of Eddy

2014/6/1A new induction heating device is presented in this paper. This device can convert mechanical energy into heat energy by utilizing eddy currents, which are induced by rotating permanent magnets. A mathematical model is established for estimating eddy-current loss of the device. The distribution of induced currents and the resultant magnetic field intensity are considered in the process

Induction Heating Process Design Using Comsol

Induction heating computer simulation is a powerful tool for process design and optimization, induction coil design, equipment selection, as well as education and business presentations. The authors share their vast experience in the practical use of computer simulation for different induction heating and heat treating processes. In this paper treated with mathematical modeling and numerical

Modelling of Induction Heating of Steel Work Piece for Forging

347 Table 3. Heating duration and moving velocity of work piece of 407 mm length steel bar was set 20 Drop out time, s Heating duration, s Length of inductor, m Moving velocity, cm/s 24 353.81 6 1.70 25 368.55 6 1.63 26 383.29 6 1.57 27 398.03 6 1.51

Using Numerical Methods to Design and Control Heating Induction Systems

3. Heating coil design using finite element magnetic software Having deducted the mathematical relationship between the heating coil and the load, it is necessary now to obtain the parameters needed to feed this model. These parameters are induction coilppss)

Two

Two-Dimensional Finite Element Simulation of Induction Thermography of an Aluminum Alloy Panel Abstract Induction heating is the process of heating an electrically conducting object by electromagnetic induction, where eddy currents are generated within the test piece and electrical resistance leads to Joule heating of the test

FEA Simulation Thermal Analysis of Induction Hardening Process

induction-hardening problem; little effort has been given to modeling the integrated process from heating to final hardening. n the present effort, an integrated finite element analysis(FEA) based modeling system has been developed with the capability to

A Finite Element Simulation for Induction Heat Treatment of

Since induction heating is a complex process involv-ing phase transformation which shows nonlinear behavior because of the different atomic volumes of the austenite and martensite phases,3) and since heat transfer is related A Finite Element Simulation for

Induction Heating Process Simulation for Forging

2010/7/6For many years, induction equipment manufacturers have utilized complex in-house coil calculation programs and process-simulation software for forging-system conception and design. The simulation of induction heating is very complex because of the selectable frequency and adjustable power levels available.

ANALYSIS OF INDUCTION HEATING SYSTEM FOR HIGH

using finite element method and COMSOL 4.2 software package. Key words: induction heating, high frequency welding, 3D analysis, finite element method, coupled field problem 1. INTRODUCTION Technologies based on induction heating are widely used in

Finite Element Analysis of Induction Heating Process Design for

Finite Element Analysis of Induction Heating Process Design for SMART Foundry 2020 (SMART=Sustainable Metal casting using Advanced Research and Technology) Presented By: Himanshu Singh PhD Scholar National Institute of Technology, Nagpur

Modeling of Induction Heating of Steel Billets for Control

A mathematical model based on Finite Element Method is presented. Design of induction heaters is constantly evolving and improving in terms of electrical and thermal efficiency. In recent years there is a trend of modular designed induction heating systems with separated power supply which replaces conventional one coil-one power supply heaters.

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