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Analytical solution of the dual phase lag equation describing the laser heating of thin metal film

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EN
Abstrakty
EN
Heat transfer processes occurring in the micro-domains can be described using the dual-phase lag equation (DPLE). This equation can be applied as a model of heating of the thin metal film subjected to the femtosecond laser pulse. In the paper, the 1D dual phase lag equation containing the additional internal heat source resulting from the laser pulse irradiation and supplemented by the appropriate boundary and initial conditions is considered. Appearing in this equation two lag times τq the phase lag of the heat flux) and τT (the phase lag of the temperature gradient) are taken into account. An analytical solution of this equation under the assumption that τT > τq is presented. The separation of the variables technique and the Green’s function method are used in order to find this solution. In the final part of the paper, the example of computations is presented.
Rocznik
Strony
33--40
Opis fizyczny
Bibliogr. 14 poz.
Twórcy
  • Institute of Computer and Information Sciences, Czestochowa University of Technology Częstochowa, Poland
Bibliografia
  • [1] Al-Nimr M.A., Heat transfer mechanism during short duration laser heating in thin metal films, International Journal of Thermophysics 1997, 18(5), 1257-1268.
  • [2] Tzou D.Y., Chiu K.S., Temperature-dependent thermal lagging in ultrafast laser heating, International Journal of Heat and Mass Transfer 2001, 44, 1725-1734.
  • [3] Majchrzak E., Mochnacki B., Greer A.L., Suchy J.S., Numerical modeling of short laser pulse interactions with multi-layered thin metal films, Computer Modeling in Engineering and Sciences 2009, 41(2), 131-146.
  • [4] Majchrzak E, Mochnacki B., Suchy J.S., Numerical simulation of thermal processes proceeding in multi-layered film subjected to ultrafast laser heating, Journal of Theoretical and Applied Mechanics 2009, 47, 2, 383-396.
  • [5] Belkhayat-Piasecka A., Korczak A., Modeling of transient heat transport in metal films using the interval lattice Boltzmann method, Bulletin of the Polish Academy of Sciences – Technical Sciences 2016, 64(3), 599-505.
  • [6] Mochnacki B., Ciesielski M., Numerical model of thermal processes in domain of thin film subjected to a cyclic external heat flux, Materials Science Forum 2012, 706-709, 1460-1465.
  • [7] Majchrzak E., Mochnacki B., Sensitivity analysis of transient temperature field in microdomains with respect to the dual-phase-lag model parameters, International Journal for Multiscale Computational Engineering 2014, 12(1), 65-77.
  • [8] Majchrzak E., Turchan L., Modeling of phase changes in the metal micro-domains subjected to ultrafast laser heating using dual-phase lag equation, Materialwissenschaft und Werkstofftechnik 2016, 47 (5-6), 409-418.
  • [9] Tzou D.Y., Macro- to Microscale Heat Transfer. The Lagging Behavior, John Wiley & Sons Ltd, 2015.
  • [10] Tang D.W., Araki N., Wavy, wavelike, diffusive thermal responses of finite rigid slabs to high-speed heating of laser-pulses, International Journal of Heat and Mass Transfer 1999, 42, 855-860.
  • [11] Zhang Z.M., Nano/microscale Heat Transfer, McGraw-Hill, New York 2007.
  • [12] Polyanin A.D., Nazaikinskii V.E., Handbook of Linear Partial Differential Equations for Engineers and Scientists, Second Edition, CRC Press, Boca Raton-London 2016.
  • [13] Wang L, Zhou X, Wei X., Heat Conduction: Mathematical Models and Analytical Solutions, Springer, Berlin, Heidelberg 2008.
  • [14] Cody W.J., Rational Chebyshev approximations for the error function, Mathematics of Computation 1969, 23(107), 631-637.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e8ed0580-8bd6-4d17-b5b9-0a2fec8596bd
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