Journal of New Technology and Materials
Volume 9, Numéro 1, Pages 89-96
2019-07-04

Heat Transfer Study In Binary Alloys Solidification Pb-sn And Pb-sb

Authors : Adouane Samira . Kerboub Abdelhak . Belbacha El-djemai .

Abstract

Simulation of solidification processes has been of interest for a number of years not only because of its scientific value in understanding pattern formation in nature but also because of its importance in many technological applications. The classical Stefan problem is well accepted for modeling the solidification of pure materials and alloys. The two-dimensional model is based on the resolution of heat transfer equation, including the latent heat term. For solving this equation a finite volume method was used. The obtained model from solving the heat transfer equation has lead results for the temperature changes over cooling time for Antimony-Lead and Lead-Tin alloys at various compositions. The obtained cooling curves were compared with the literature results, and they show a good agreement.

Keywords

Solidification ; Liquid/solid interface. ; Growth morphologies; ; Growth morphologies. ; Nucleation ; Heat transfer