Characterization of Electrical Conductivity of Anisotropic CFRP Materials by Means of Induction Thermography Technique

Characterization of Electrical Conductivity of Anisotropic CFRP Materials by Means of Induction Thermography Technique

Numerical simulations by means of finite elements are used to investigate the capacities of the induction thermography technique for the characterization of electrical conductivities of unidirectional carbon fiber reinforced polymer (CFRP) materials. A coupled electromagnetic-thermal model is presen...

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Veröffentlicht in:IEEE transactions on magnetics 2018-03, Vol.54 (3), p.1-4
Hauptverfasser: Bui, H. K., Senghor, F. D., Wasselynck, G., Trichet, D., Fouladgar, J., Lee, K., Berthiau, G.
Format: Artikel
Sprache:eng
Schlagworte:
Anisotropic magnetoresistance
Carbon
Carbon fiber reinforced plastics
Carbon fiber reinforced polymer (CFRP)
Computer simulation
Conductivity
coupled model
Eddy current testing
Eddy currents
electrical conductivity characterization
Electrical properties
Electrical resistivity
Electromagnetic induction
Engineering Sciences
Fiber reinforced polymers
induction thermography
Magnetism
Mathematical models
Numerical models
Physical properties
Resistance
Temperature measurement
Tensile stress
Thermal analysis
Thermography
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Zusammenfassung:Numerical simulations by means of finite elements are used to investigate the capacities of the induction thermography technique for the characterization of electrical conductivities of unidirectional carbon fiber reinforced polymer (CFRP) materials. A coupled electromagnetic-thermal model is presented using hexahedral elements to deal with the thin region of fully anisotropic physical properties. Eddy-current problem is solved using the {{T}} - \Omega formulation to deduce heat source density power. Transient thermal problem is solved with a fixed time step. An error minimization-based method is presented to identify the electrical resistivity of unidirectional CFRP from the induction thermography measurement.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2017.2742979