Electrothermics (iste)
by Javad Fouladgar /
2012 / English / PDF
21.8 MB Download
This book concerns the analysis and design of induction heating
of poor electrical conduction materials.
This book concerns the analysis and design of induction heating
of poor electrical conduction materials.
Some innovating applications such as inductive plasma
installation or transformers, thermo inductive non-destructive
testing and carbon-reinforced composite materials heating are
studied. Analytical, semi-analytical and numerical models are
combined to obtain the best modeling technique for each case.
Each model has been tested with experimental results and
validated. The principal aspects of a computational package to
solve these kinds of coupled problems are described.
Some innovating applications such as inductive plasma
installation or transformers, thermo inductive non-destructive
testing and carbon-reinforced composite materials heating are
studied. Analytical, semi-analytical and numerical models are
combined to obtain the best modeling technique for each case.
Each model has been tested with experimental results and
validated. The principal aspects of a computational package to
solve these kinds of coupled problems are described.
In the first chapter, the mathematical tools for coupled
electromagnetic and thermal phenomena are introduced. In Chapter
2, these tools are used to analyze a radio frequency inductive
plasma installation. The third chapter describes the methodology
of designing a low frequency plasma transformer. Chapter 4
studies the feasibility of the thermo inductive technique for
non-destructive testing and the final chapter is dedicated to the
use of induction heating in the lifecycle of carbon-reinforced
composite materials.
In the first chapter, the mathematical tools for coupled
electromagnetic and thermal phenomena are introduced. In Chapter
2, these tools are used to analyze a radio frequency inductive
plasma installation. The third chapter describes the methodology
of designing a low frequency plasma transformer. Chapter 4
studies the feasibility of the thermo inductive technique for
non-destructive testing and the final chapter is dedicated to the
use of induction heating in the lifecycle of carbon-reinforced
composite materials.
Contents
Contents
1. Thermal and Electromagnetic Coupling, Javad Fouladgar, Didier
Trichet and Brahim Ramdane.
1. Thermal and Electromagnetic Coupling, Javad Fouladgar, Didier
Trichet and Brahim Ramdane.
2. Simplified Model of a Radiofrequency Inductive Thermal Plasma
Installation, Javad Fouladgar and Jean-Pierre Ploteau.
2. Simplified Model of a Radiofrequency Inductive Thermal Plasma
Installation, Javad Fouladgar and Jean-Pierre Ploteau.
3. Design Methodology of A Very Low-Frequency Plasma Transformer,
Javad Fouladgar and Souri Mohamed Mimoune.
3. Design Methodology of A Very Low-Frequency Plasma Transformer,
Javad Fouladgar and Souri Mohamed Mimoune.
4. Non Destructive Testing by Thermo-Inductive Method, Javad
Fouladgar, Brahim Ramdane, Didier Trichet and Tayeb Saidi.
4. Non Destructive Testing by Thermo-Inductive Method, Javad
Fouladgar, Brahim Ramdane, Didier Trichet and Tayeb Saidi.
5. Induction Heating of Composite Materials, Javad Fouladgar,
Didier Trichet, Samir Bensaid and Guillaume Wasselynck
5. Induction Heating of Composite Materials, Javad Fouladgar,
Didier Trichet, Samir Bensaid and Guillaume Wasselynck