Journal ArticleDOI
Film flow on a rotating disk
TLDR
In this article, the authors analyzed how a film of uniform thickness thins when the disk is set in steady rotation and showed that the leading order term in the long-time-scale solution for the transient film thickness is a lower bound for film thickness for all time.Abstract:
Unsteady liquid film flow on a rotating disk is analyzed by asymptotic methods for low and high Reynolds numbers. The analysis elucidates how a film of uniform thickness thins when the disk is set in steady rotation. In the low Reynolds number analysis two time scales for the thinning film are identified. The long‐time‐scale analysis ignores the initial acceleration of the fluid layer and hence is singular at the onset of rotation. The singularity is removed by matching the long‐time‐scale expansion for the transient film thickness with a short‐time‐scale expansion that accounts for fluid acceleration during spinup. The leading order term in the long‐time‐scale solution for the transient film thickness is shown to be a lower bound for film thickness for all time. A short‐time analysis that accounts for boundary layer growth at the disk surface is also presented for arbitrary Reynolds number. The analysis becomes invalid either when the boundary layer has a thickness comparable to that of the thinning film, or when nonlinear effects become important.read more
Citations
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Journal ArticleDOI
Physics and Applications of DIP Coating and Spin Coating
TL;DR: Dip coating is a simple old way of depositing onto a substrate, especially small slabs and cylinders, a uniform thin film of liquid for solidification into a coating.
Journal ArticleDOI
6 Studies of spin-coated polymer films
TL;DR: In this paper, the fundamental physical and chemical processes governing the conventional spincoating process and methodologies for the preparation of spin-coated polymer thin films are discussed and a range of advanced applications and recent developments within this field are reviewed with focus on engineering chemical and topological structure during the coating process.
Journal ArticleDOI
The mechanics of spin coating of polymer films
TL;DR: In this paper, the process of spin coating is described, with particular attention to applications in microelectronics, and the physical mechanisms involved in the process are discussed and those mechanisms that affect the final state are identified, viz., centrifugal and viscous forces, solute diffusion, and solvent evaporation.
Journal ArticleDOI
The flow of a liquid film along a periodic wall
TL;DR: In this article, the creeping flow of a liquid film along an inclined periodic wall of arbitrary geometry is considered, and the boundary-integral method for Stokes flow is extended to two-dimensional flows involving free surfaces.
Journal ArticleDOI
Influence of solvent and molecular weight on thickness and surface topography of spin‐coated polymer films
TL;DR: In this paper, the influence of polymer molecular weight, molecular weight distribution, and polymer-solvent interactions on the thickness and topography of spin-coated polymer films was examined.
References
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Journal ArticleDOI
The inertial draining of a thin fluid layer between parallel plates with a constant normal force. Part 1. Analytic solutions; inviscid and small-but finite-Reynolds-number limits
TL;DR: In this paper, the Navier-Stokes equation was used to study the inertial draining of a thin fluid layer between planar parallel surfaces under the action of a constant normal force.
Journal ArticleDOI
The inertial draining of a thin fluid layer between parallel plates with a constant normal force. Part 2. Boundary layer and exact numerical solutions
Journal ArticleDOI
Transient flow near a rotating disk
George M. Homsy,John L. Hudson +1 more
TL;DR: In this paper, the solution of the time dependent flow due to the impulsive starting of a single infinite disk from rest is obtained numerically for the entire history of the transient.