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Title: Nonlinear stability characterization of thin viscoelastic liquid films flowing down a plate moving in a vertical direction
Authors: Hung Ming Sung
Chih-Hsin Tsai
Chung-Ting Hsu
Keywords: viscoelastic liquid
thin film flow
long-wave perturbation
method of multiple scales
Date: 2009-03
Issue Date: 2009-05-24T03:36:26Z
Abstract: This project presents a nonlinear stability analysis of thin viscoelastic liquid films flowing down a plate moving in a vertical direction. The long-wave perturbation method is employed to derive the generalized kinematic equations for a free film interface. The elaborated nonlinear film flow model is solved by the method of multiple scales. The modeling results clearly indicate that both subcritical instability and supercritical stability conditions are possibly to occur in the film flow system. The effect of the down-moving motion of the vertical plate tends to enhance the stability of the film flow.
Relation: 修平學報 18, 1-16
Appears in Collections:[Department of Mechanical Engineering & Graduate Institute of Precision Machinery and Manufacturing Technology] Journal

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