@ARTICLE{Mochnacki_B._Dual_2016, author={Mochnacki, B. and Ciesielski, M.}, number={No 4}, journal={Archives of Foundry Engineering}, howpublished={online}, year={2016}, publisher={The Katowice Branch of the Polish Academy of Sciences}, abstract={Heating process in the domain of thin metal film subjected to a strong laser pulse are discussed. The mathematical model of the process considered is based on the dual-phase-lag equation (DPLE) which results from the generalized form of the Fourier law. This approach is, first of all, used in the case of micro-scale heat transfer problems (the extremely short duration, extreme temperature gradients and very small geometrical dimensions of the domain considered). The external heating (a laser action) is substituted by the introduction of internal heat source to the DPLE. To model the melting process in domain of pure metal (chromium) the approach basing on the artificial mushy zone introduction is used and the main goal of investigation is the verification of influence of the artificial mushy zone ‘width’ on the results of melting modeling. At the stage of numerical modeling the author’s version of the Control Volume Method is used. In the final part of the paper the examples of computations and conclusions are presented.}, type={Artykuły / Articles}, title={Dual Phase Lag Model of Melting Process in Domain of Metal Film Subjected to an External Heat Flux}, URL={http://journals.pan.pl/Content/101933/PDF/afe-2016-0089.pdf}, doi={10.1515/afe-2016-0089}, keywords={solidification process, Theoretical basis of foundry processes, Micro-scale heat transfer, Dual phase lag model, Controlvolume method}, }