Heating by Electromagnetic Sources (HES 2016).
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| Online Access: |
Full text (MCPHS users only) |
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| Main Author: | |
| Format: | Electronic eBook |
| Language: | English |
| Published: |
[Place of publication not identified] :
Emerald Publishing : Emerald Group Publishing Limited,
2017
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| Subjects: | |
| Local Note: | ProQuest Ebook Central |
Table of Contents:
- Cover; EDITORIAL ADVISORY BOARD; Design concepts of induction mass heating technology based on multiple-criteria optimization; Lattice Boltzmann modelling for multiphase bubble flow in electroconducting liquids; Design and simulation of the electromagnetic heating of a biological tissue; Numerical modeling of hybrid laser welding taking into account phase change of material; Inverse technique for determining temperature dependence of material properties; AC induction heating of ferromagnetic slabs saturated with a DC field
- Influence of SEN depth and port angle on vertical electromagnetic brake effects in continuous casting mouldInduction heating in estimation of thermal properties of conductive materials; Nonlinear model order reduction for the fast solution of induction heating problems in time-domain; Improved Litz wire manufacture process using resonant power converter-based induction heating; Design of power converters for induction heating applications taking advantage of wide-bandgap semiconductors; Construction improvement of the thermoelastic clutch based on shape optimization
- Numerical modelling of induction heated multi-zones rubber vulcanization processStriation effect in induction heating: myths and reality; Emissivity compensated infrared thermometry for planar materials; Improving the accuracy of time-harmonic FE simulations in induction heating applications; Self-adaptive NGSA algorithm and optimal design of inductors for magneto-fluid hyperthermia; Mapping of magnetic properties for simulations of high-temperature electromagnetic applications; Influence of the magnetic permeability on modeling of induction surface hardening
