THE EFFECT OF TURBULENCE ON SOLIDIFICATION OF A BINARY METAL ALLOY WITH ELECTROMAGNETIC STIRRING

Authors
PRESCOTT PJ INCROPERA FP
Citation
Pj. Prescott et Fp. Incropera, THE EFFECT OF TURBULENCE ON SOLIDIFICATION OF A BINARY METAL ALLOY WITH ELECTROMAGNETIC STIRRING, Journal of heat transfer, 117(3), 1995, pp. 716-724
Citations number
17
Categorie Soggetti
Engineering, Mechanical",Thermodynamics
Journal title
Journal of heat transferACNP
ISSN journal
00221481
Volume
117
Issue
3
Year of publication
1995
Pages
716 - 724
Database
ISI
SICI code
0022-1481(1995)117:3<716:TEOTOS>2.0.ZU;2-4
Abstract
Electromagnetic induction is considered as a means of altering convect ion during the solidification of a Pb-19 wt pct Sn alloy. Application of a time-varying magnetic field induces Lorentz forces, which augment thermal buoyancy forces in the melt and oppose solutal buoyancy force s in the mushy zone. A continuum model for binary solid-liquid phase c hange is extended to account for turbulence, and laminar and turbulent flow predictions are contrasted. Results indicate that turbulence dec reases the propensity for channel development and macrosegregation by enhancing mixing and reducing the effective Lewis number from 8600 to near unity.