Numerical modelling of sequential droplet impingements
Numerical modelling of sequential droplet impingements
During the process of thermal spray coating, molten powders are sprayed and deposited on substrates to generate protective coatings. It is essential to have a clear understanding of the physics of droplet impingement on the surface of substrates for better control of the generation of splats and the structure of coating. A numerical model is developed in this paper to simulate the dynamics of transient flow during the impingement process, including spreading, break-up, air entrapment and solidification. The computation is achieved using the technique of volume of fluid surface tracking within a fixed Eulerian structured mesh. The three-dimensional simulation is able to accurately give a demonstration of dynamic flow patterns such as the generation of fingers, satellite droplets and pores during impingement. The numerical model is validated with experimental data from the tin droplet measurement and excellent agreement is found between the simulation and the experiment.
p.165303
Kamnis, S.
3ca869e0-8c18-4454-94f6-7fb4d2defa23
Gu, Sai
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Lu, T.J.
5a4bb9e5-aa83-40aa-a79e-91a1d3cd22f9
Chen, C.
ebea955a-5c35-4ccb-9431-9aafaa9fda78
24 July 2008
Kamnis, S.
3ca869e0-8c18-4454-94f6-7fb4d2defa23
Gu, Sai
a6f7af91-4731-46fe-ac4d-3081890ab704
Lu, T.J.
5a4bb9e5-aa83-40aa-a79e-91a1d3cd22f9
Chen, C.
ebea955a-5c35-4ccb-9431-9aafaa9fda78
Kamnis, S., Gu, Sai, Lu, T.J. and Chen, C.
(2008)
Numerical modelling of sequential droplet impingements.
Journal of Physics D: Applied Physics, 41 (16), .
(doi:10.1088/0022-3727/41/16/165303).
Abstract
During the process of thermal spray coating, molten powders are sprayed and deposited on substrates to generate protective coatings. It is essential to have a clear understanding of the physics of droplet impingement on the surface of substrates for better control of the generation of splats and the structure of coating. A numerical model is developed in this paper to simulate the dynamics of transient flow during the impingement process, including spreading, break-up, air entrapment and solidification. The computation is achieved using the technique of volume of fluid surface tracking within a fixed Eulerian structured mesh. The three-dimensional simulation is able to accurately give a demonstration of dynamic flow patterns such as the generation of fingers, satellite droplets and pores during impingement. The numerical model is validated with experimental data from the tin droplet measurement and excellent agreement is found between the simulation and the experiment.
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Published date: 24 July 2008
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Local EPrints ID: 149241
URI: http://eprints.soton.ac.uk/id/eprint/149241
ISSN: 0022-3727
PURE UUID: 97544e5f-a0c9-4af4-b256-18368ceb24f1
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Date deposited: 06 May 2010 11:10
Last modified: 14 Mar 2024 01:06
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Author:
S. Kamnis
Author:
Sai Gu
Author:
T.J. Lu
Author:
C. Chen
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