Surface Wave Propagation of an Ultra Thin Liquid Film on a Rotating Disk
Keyword(s):
We theoretically and numerically study the propagation of axisymmetrical long surface waves of an ultra thin liquid film on a rotating disk. When breaking condition is satisfied, shock waves form and propagate driven by the centrifugal and external shearing forces. The disjoining pressure due to van der Waals force provides diffusion to the system. The surface waves are planarized by the centrifugal force, external shearing force and the disjoining pressure.
1958 ◽
Vol 4
(6)
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pp. 607-614
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2011 ◽
Vol 03
(04)
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pp. 633-665
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1974 ◽
Vol 64
(2)
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pp. 387-392
2005 ◽
Vol 293-294
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pp. 549-556
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1989 ◽
Vol 41
(1)
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pp. 23-30
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1989 ◽
Vol 422
(1862)
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pp. 67-101
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1993 ◽
Vol 49
(03)
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pp. 357
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