Published 6 issues per year
ISSN Print: 1543-1649
ISSN Online: 1940-4352
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ANALYSIS OF THERMAL PROCESSES OCCURRING IN THE MICRODOMAIN SUBJECTED TO THE ULTRASHORT LASER PULSE USING THE AXISYMMETRIC TWO-TEMPERATURE MODEL
ABSTRACT
An axisymmetric microdomain subjected to the ultrashort laser pulse is considered. The two-temperature hyperbolic model, together with the isothermal solid–liquid and liquid–vapor phase changes, is presented. This model consists of six highly nonlinear equations. These equations describe both the electrons and lattice heat fluxes in the radial and axial directions as well as the electrons and lattice temperatures. To solve these equations supplemented by appropriate boundary and initial conditions, the finite difference method with staggered grid is proposed. The algorithm contains the procedures which take into account the phase changes occurring at the constant temperatures. In the final part of the paper the results of computations are presented.
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Dziatkiewicz Jolanta, Majchrzak Ewa, Numerical analysis of laser ablation using the axisymmetric two-temperature model, 1922, 2018. Crossref
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Majchrzak Ewa, General Boundary Element Method for the Dual-Phase Lag Equations Describing the Heating of Two-Layered Thin Metal Films, in Engineering Design Applications II, 113, 2020. Crossref