NUMERICAL STUDY ON THE SOLIDIFICATION OF LIQUID METAL DROPLETS IMPACTING ONTO A SUBSTRATE
- 1 June 1997
- journal article
- research article
- Published by Taylor & Francis in Numerical Heat Transfer, Part A: Applications
- Vol. 31 (8) , 797-817
- https://doi.org/10.1080/10407789708914065
Abstract
The problem of normal incidence impact with solidification of a spherical liquid metal droplet onto a rigid planar substrate is studied. The Navier-Stokes equations are solved using a finite volume formulation with a fixed grid. The free surface of the droplet is tracked by the volume-of-fluid method. The surface tension on the droplet surface is evaluated by a continuum surface force model. The energy equation is modeled by using an enthalpy-based formulation. The method developed provides a comprehensive model of the dynamic and thermal aspects of the impact process. The effects of several parameters on the spread of the droplet on the substrate are determined. A correlation for the maximum spread factor is obtained and is in agreement with the experimental data available in the literature.Keywords
This publication has 11 references indexed in Scilit:
- Solidification of droplets on a cold surfacePublished by Elsevier ,2003
- Solidification of Liquid Metal Droplets Impacting Sequentially on a Solid SurfaceJournal of Heat Transfer, 1994
- Heat transfer aspects of splat-quench solidification: modelling and experimentJournal of Materials Science, 1994
- Numerical simulation of convection/diffusion phase change problems—a reviewInternational Journal of Heat and Mass Transfer, 1993
- Fluid flow, heat transfer, and solidification of molten metal droplets impinging on substrates: Comparison of numerical and experimental resultsMetallurgical Transactions B, 1992
- A continuum method for modeling surface tensionJournal of Computational Physics, 1992
- RIPPLE - A new model for incompressible flows with free surfacesPublished by American Institute of Aeronautics and Astronautics (AIAA) ,1991
- Splat-quench solidification of freely falling liquid-metal drops by impact on a planar substrateJournal of Materials Science, 1990
- Volume of fluid (VOF) method for the dynamics of free boundariesJournal of Computational Physics, 1981
- The incomplete Cholesky—conjugate gradient method for the iterative solution of systems of linear equationsJournal of Computational Physics, 1978