This paper is concerned with the analysis of thin and ultra-thin liquid films. The results are applicable to various geometrical and kinematic conditions, including both stationary and moving surfaces. The new results obtained in this work include: • the derivation of an analytical solution for the evolution of film thickness over the entire multiscale range, from the liquid free surface to the asymptotic (disjoining-pressure controlled) region, and for any surface inclination angle between 0 deg and 90 deg, • the formulation of a method to deduce the Hamaker constant based on a single measured value of film thickness at the beginning of the disjoining-pressure-controlled region, applicable to any inclination angle, • the explanation of the reasons why the thickness of liquid films on moving surfaces is normally beyond the range of Van der Waals forces, • the formulation of an expression for the nondimensional asymptotic film thickness as a function of the capillary number; this new result explicitly accounts for the effect of gravity on the average film velocity.

1.
Ingram
,
B. T.
,
1974
,
Wetting of Silica by n-Alkanes
,
J. Chem. Soc. Faraday Transactions I
, ,
70
, p.
868
868
.
2.
Renk
,
F.
,
Wayner
,
P. C.
, and
Homsy
,
G. M.
,
1978
,
On the Transition Between a Wetting Film and a Capillary Meniscus
,
J. Colloid Interface Sci.
,
67
, p.
408
408
.
3.
Bankoff
,
S. G.
,
1990
,
Dynamics and Stability of Thin Heated Films
,
J. Heat Transfer
,
112
, p.
538
538
.
4.
Wayner
,
P. C.
,
1991
,
The Effect of Interfacial Mass Transport on Flow in Thin Liquid Films
,
J. Colloids and Surfaces
,
52
, p.
71
71
.
5.
Wayner, P. C., 1992, Intermolecular and Surface Forces with Application s in Change-of-Phase Heat Transfer, in Boiling Heat Transfer; Modern Developments and Advancements (ed.: R. T. Lahey, Jr.), Elsevier, p. 569.
6.
Voinov
,
O. V.
,
1998
,
Fine Structure of Meniscus of a Wetting Liquid
,
J. Colloid Interface Sci.
,
200
, p.
197
197
.
7.
Probstein, R. F., 1994, Physicochemical Hydrodynamics, An Introduction, 2nd Ed., John Wiley & Sons, Inc.
8.
Truong, J. G., 1987, Ellipsometric and Interferometric Studies of Thin Liquid Films Wetting on Isothermal and Nonisothermal Solid Surfaces, Ph.D. Thesis, RPI.
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