FVM model and virtual instrument based system for electromagnetic characterization of steel material
Abstract
This paper deals with a finite volume model and virtual instrument based system for electromagnetic characterization of steel material. Both magnetic permeability and electrical conductivity are electromagnetic properties must be defined. These two parameters are strongly required for electromagnetic problems analysis such as in eddy current nondestructive testing problem. The magnetic permeability is measured by using the B(H) loop of the steel material which is illustrated by experimental measurement through a virtual instrument based system. However, the electrical conductivity is obtained by the solution of an inverse problem. For that reason a direct electromagnetic model is analyzed using the finite volume method.References
Aguiam, D. E., L. S. Rosado, P. M. Ramos & M. Piedade (2014) Portable instrument for eddy currents Non-Destructive testing based on heterodyning techniques. Proceeding of Instrumentation and Measurement Technology Conference (I2MTC), Montevideo, Uruguay, pp. 1368-1372.
Baglio, S., G. Muscato, N. Pitrone & N. Savalli (2001) Automatic measurement system for the estimation of surface resistivity distribution. Proceeding of IEEE Instrumentation and Measurement Technology Conference, Budapest, pp. 902-905.
Bowler, N. (2006) Frequency-dependence of relative permeability in steel. In AIP Conference Proceeding. IOP INSTITUTE OF PHYSICS PUBLISHING LTD 820(B), Brunswick, Maine (USA), pp. 1269.
Cheriet, A., M. Feliachi & S.M. Mimoune (2007) Nonconforming mesh generation for finite volume method applied to 3-D magnetic field analysis. European Physical Journal Applied Physics 37(2): 191–195.
Geuzaine, C., & J. Remacle (2009) Gmsh a three-dimensional finite element mesh generator with built-in pre- and post-processing facilities. International Journal for Numerical Methods in Engineering 79(11): 1309-1331.
Hamia, R., C. Cordier & C. Dolabdjian (2014) Eddy-current non-destructive testing system for the determination of crack orientation. NDT & E International 61: 24-28.
Kis, P., M. Kuczmann, J. Fuzi & A. Ivanyi (2004) Hysteresis measurement in LabView. Physica B : Condensed Matter 343(1): 357-363.
Li, J. C., Y. Wang, D. C. Ba (2012) Characterization of semiconductor surface conductivity by using microscopic four-point probe. technique,Physics Procedia 32: 347-355.
Mabrouk, A E., A. Cheriet & M. Feliachi (2013) Fuzzy logic control of electrodynamic levitation devices coupled to dynamic finite volume method analysis. Applied Mathematical Modeling Journal 37(8): 5951-5961.
Mironov, V. S., J. K. Kim, M. Park, S. Lim & W.K. Cho (2007) Comparison of electrical conductivity data obtained by four-electrode and four-point probe methods for graphite-based polymer composites. Polymer Testing 26(4): 547-555.
Motoasca, S. & E Helerea (2008) Magnetic measurements of soft magnetic materials and hysteresis modeling using Labview programs. Journal of optoelectronics and advanced materials 10(7): 1847-1852.
Nelder, J. A. & R. Mead (1965) A simplex method for function minimization. The Computer Journal 7(4): 308-313.
Palanisamy, R. & W. Lord (1979) Finite element modeling of electromagnetic NDT phenomena. IEEE transactions on Magnetics 15(06): 1479-1481.
Polik, Z. & M. Kuczmann (2008) Measuring and control the hysteresis loop by using analog and digital integrators. Journal of optoelectronics and advanced materials 10(7): 1861-1865.
Zou, J.,Y. Q. Xie, J. S. Yuan, X. S. Ma, X. Cui, S. M. Chen & J. L. He (2004) Analysis of the Thin Plate Eddy-Current Problem by Finite Volume Method. IEEE transactions on magnetic 40(2): 1370-1373.
Baglio, S., G. Muscato, N. Pitrone & N. Savalli (2001) Automatic measurement system for the estimation of surface resistivity distribution. Proceeding of IEEE Instrumentation and Measurement Technology Conference, Budapest, pp. 902-905.
Bowler, N. (2006) Frequency-dependence of relative permeability in steel. In AIP Conference Proceeding. IOP INSTITUTE OF PHYSICS PUBLISHING LTD 820(B), Brunswick, Maine (USA), pp. 1269.
Cheriet, A., M. Feliachi & S.M. Mimoune (2007) Nonconforming mesh generation for finite volume method applied to 3-D magnetic field analysis. European Physical Journal Applied Physics 37(2): 191–195.
Geuzaine, C., & J. Remacle (2009) Gmsh a three-dimensional finite element mesh generator with built-in pre- and post-processing facilities. International Journal for Numerical Methods in Engineering 79(11): 1309-1331.
Hamia, R., C. Cordier & C. Dolabdjian (2014) Eddy-current non-destructive testing system for the determination of crack orientation. NDT & E International 61: 24-28.
Kis, P., M. Kuczmann, J. Fuzi & A. Ivanyi (2004) Hysteresis measurement in LabView. Physica B : Condensed Matter 343(1): 357-363.
Li, J. C., Y. Wang, D. C. Ba (2012) Characterization of semiconductor surface conductivity by using microscopic four-point probe. technique,Physics Procedia 32: 347-355.
Mabrouk, A E., A. Cheriet & M. Feliachi (2013) Fuzzy logic control of electrodynamic levitation devices coupled to dynamic finite volume method analysis. Applied Mathematical Modeling Journal 37(8): 5951-5961.
Mironov, V. S., J. K. Kim, M. Park, S. Lim & W.K. Cho (2007) Comparison of electrical conductivity data obtained by four-electrode and four-point probe methods for graphite-based polymer composites. Polymer Testing 26(4): 547-555.
Motoasca, S. & E Helerea (2008) Magnetic measurements of soft magnetic materials and hysteresis modeling using Labview programs. Journal of optoelectronics and advanced materials 10(7): 1847-1852.
Nelder, J. A. & R. Mead (1965) A simplex method for function minimization. The Computer Journal 7(4): 308-313.
Palanisamy, R. & W. Lord (1979) Finite element modeling of electromagnetic NDT phenomena. IEEE transactions on Magnetics 15(06): 1479-1481.
Polik, Z. & M. Kuczmann (2008) Measuring and control the hysteresis loop by using analog and digital integrators. Journal of optoelectronics and advanced materials 10(7): 1861-1865.
Zou, J.,Y. Q. Xie, J. S. Yuan, X. S. Ma, X. Cui, S. M. Chen & J. L. He (2004) Analysis of the Thin Plate Eddy-Current Problem by Finite Volume Method. IEEE transactions on magnetic 40(2): 1370-1373.
Published
2016-12-21
How to Cite
EL GHOUL, Islam-Ncereddine et al.
FVM model and virtual instrument based system for electromagnetic characterization of steel material.
Journal of Applied Engineering Science & Technology, [S.l.], v. 2, n. 2, p. 87-90, dec. 2016.
ISSN 2571-9815.
Available at: <https://revues.univ-biskra.dz./index.php/jaest/article/view/1895>. Date accessed: 21 nov. 2024.
Issue
Section
Section A: Electrical, Electronics and Automatic Engineering
Keywords
FVM; Labview; Magnetic permeability; Electrical conductivity; Steel
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