THERMAL SCIENCE
International Scientific Journal
INFLUENCE OF SPECIFIC ELECTRICAL RESISTANCE ON THE HEATING OF METAL PLATES EXPOSED TO HIGH FREQUENCY ELECTROMAGNETIC WAVES
ABSTRACT
Temperature distribution in the metallic plate influenced by high frequency electromagnetic wave depends on thermal and electrical properties of the plate material. The goal of the paper is to present the significance of the temperature dependence of the electrical resistivity and its influence on the plate heating. A mathematical model of the problem was established and an analytical closed-form solution the problem was presented. The active power of the electromagnetic wave was calculated by Poynting vector. Temperature field was obtained by integral-transform technique. Numerical examples were presented for three different materials (copper, aluminum, and steel). Calculated results show the large influence of temperature dependent electrical resistance on heating of the metallic plate.
KEYWORDS
PAPER SUBMITTED: 2022-09-24
PAPER REVISED: 2023-02-10
PAPER ACCEPTED: 2023-02-20
PUBLISHED ONLINE: 2023-04-22
THERMAL SCIENCE YEAR
2023, VOLUME
27, ISSUE
Issue 5, PAGES [3649 - 3658]
- Oded, K., Entropy and Temperature of Electromagnetic Radiation, Natural Science, 11 (2019), 12, pp. 323-335
- Asifa, I., Muhammad, A., Periodic Mixed Convection Flow along the Surface of a Thermally and Electrically Conducting Cone, Thermal Science, 24 (2020), Suppl. 1, pp S225-S235
- Shen, H., et al., Study on Temperature Field Induced in High Frequency Induction Heating, Acta Metallurgica Sinca, 19 (2006), 3, pp 190-196
- Milošević-Mitić, V., et al., Dynamic Temperature Field in the Ferromagnetic Plate Induced by Moving High Frequency Inductor, Thermal Science, 18 (2014), Suppl. 1 pp S49-S58
- Lindgren, L.-E., et al., Modelling of Thermal Stresses in Low Alloy Steels, Journal of Thermal Stresses, 42 (2019), 3, pp. 1-19
- Bouslimi, J., et al., Magnetic Field on Surface Waves Propagation in Gravitational Thermoelastic Media with Two Temperature and Initial Stress in the Context of Three Theories, Thermal Science, 24 (2020) Suppl. 1, pp. S285-S299
- Meng, L., et al., Temperature Controlled Asymmetric Transmission of Electromagnetic Waves, Scientific Reports, 9 (2019), 4097
- Lan, X., et al., High-Temperature Electromagnetic Wave Absorption, Mechanical and Thermal Insulation Properties in-Situ Grown SiC on Porous SiC Skeleton, Chemical Engineering Journal, 397 (2020), 125250
- Surutka J., Electromagnetics (in Serbian), Gradjevinska knjiga, Belgrade, Serbia, 1975
- Milošević-Mitić, V., Temperature and Stress Fields in Thin Metallic Partially Fixed Plate Induced by Harmonic Electromagnetic Wave, FME Transactions, 31 (2003) 31, pp. 49-54
- Milošević-Mitić, V., Temperature, Strain and Stress Fields Produced by Impulsive Electromagnetic Radiation in the Thin Metallic Plate, Presented on 19th ICTAM, Kyoto (1996), Printed in Facta Universitatis Series Mechanic, Automatic Control and Robotics, 3 (2002), 12, pp. 405-416
- Elfaki, A. A., et al., The Effect of Temperature on Conductivity of Conductors and Superconductors, American Journal of Physics and Applications, 5 (2017), 1, pp. 1-5
- Reif-Acherman, S., Studies on the Temperature Dependence of Electric Conductivity for Metals in the Nineteenth Century: A Neglected Chapter in the History of Superconductivity, Revista Brasilcira de Ensino de Fisica, 33 (2011) 4, 4602
- Ravikumar, D., et al., Thermal considerations in the Cryogenic Regime for The Bnl Double Ridge Higher Order Mode Waveguide, Physical Review Accelerators and Beams, 20 (2017), 093201
- Abu-Eishah, S. I., Correlations for the Thermal Conductivity of Metals as a Function of Temperature, International Journal of Thermophysics, 22 (2001) 6, pp. 1855-1868
- Perkowski, S., et al., Axisymmetric Stationary Heat Conduction Problem for Half-Space with Temperature-Dependent Properties, Thermal Science, 24 (2020), 3B, pp. 2137-2150
