Energies (Jun 2023)

Modeling of the Temperature Regimes in a Layered Bimetallic Plate under Short-Term Induction Heating

  • Roman Musii,
  • Petro Pukach,
  • Nataliia Melnyk,
  • Myroslava Vovk,
  • L’udomír Šlahor

DOI
https://doi.org/10.3390/en16134980
Journal volume & issue
Vol. 16, no. 13
p. 4980

Abstract

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A mathematical model for determining the temperature field of a bimetallic plate with plane-parallel boundaries during short-term induction heating by a non-stationary electromagnetic field is proposed. Initial boundary value problems for determining the parameters of a non-stationary electromagnetic field and temperature are formulated. The temperature and the component of the magnetic field intensity vector that is tangential to the plate base were selected as defining functions. We used an approximation of the defining functions in each layer of the plate with quadratic polynomials by the thickness coordinate and Laplace transform of the integral over time. General solutions to the formulated problems under uniform non-stationary electromagnetic action were obtained. Based on them, the temperature during short-term induction heating by a non-stationary electromagnetic field was numerically analyzed depending on its amplitude-frequency parameters and duration.

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