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3-D Simulation of induction heating of anisotropic composite materials Sign In or Purchase to View Full Text
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S. Bensaid ;
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J. Fouladgar
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Abstract: This paper presents a three-dimensional modeling of induction heating of conductive composite materials using the shell elements. These elements are generalized by taking into account the anisotropic behavior of the load. Magnetic fields and temperatures on the composite load are then calculated and compared with experimental measurements. Published in: IEEE Transactions on Magnetics ( Volume: 41, Issue: 5, May 2005 )
Page(s): 1568 - 1571
INSPEC Accession Number: 8430750
Date of Publication: 16 May 2005
DOI: 10.1109/TMAG.2005.845047
ISSN Information:
Publisher: IEEE Sponsored by: IEEE Magnetics Society
Contents
I. Introduction
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Composite materials are used in high technological industrial applications such as space and military purposes. Their structure is a combination of fibers reinforcement and a polymer matrix. In this paper, the case of the conductive composites with carbon fibers is considered where the induction heating process can be used. This process presents several advantages compared to classical techniques as quoted in the literature [1], [7]. In fact, with induction heating, the power is induced in the heart of the material and reduces in this way the cycle time of manufacturing.
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IEEE Keywords Anisotropic magnetoresistance, Composite materials, Conducting materials, Magnetic fields, Temperature, Magnetic materials, Finite element methods, Thermal conductivity, Differential equations, Magnetic field measurement
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INSPEC: Controlled Indexing anisotropic media, conducting polymers, carbon fibre reinforced composites, induction heating, magnetic fields
INSPEC: Non-Controlled Indexing finite elements, induction heating, anisotropic composite materials, 3D modeling, conductive composite materials, shell elements, anisotropic behavior, magnetic fields, composite load
Author Keywords shell elements, Composite material, finite elements, induction heating
Authors S. Bensaid Inst. de Recherches en Electrotechnique et Eletronique de NantesAtlantique (IREENA), Saint Nazaire, France
D. Trichet Inst. de Recherches en Electrotechnique et Eletronique de NantesAtlantique (IREENA), Saint Nazaire, France
J. Fouladgar Inst. de Recherches en Electrotechnique et Eletronique de NantesAtlantique (IREENA), Saint Nazaire, France
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