Numerical analysis of moving contact line with contact angle hysteresis using feedback deceleration technique

Contact angle (CA) hysteresis is important in many natural and engineering wetting processes, but predicting it numerically is difficult. We developed an algorithm that considers CA hysteresis when analyzing the motion of the contact line (CL). This algorithm employs feedback control of CA which dec...

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Bibliographic Details
Published in:Physics of fluids (1994) 2012-04, Vol.24 (4), p.042105-042105-20
Main Authors: Park, Jun Kwon, Kang, Kwan Hyoung
Format: Article
Language:English
Subjects:
Algorithms
Condensed matter: structure, mechanical and thermal properties
Contact
Contact angle
Control systems
Deceleration
Dynamics
Exact sciences and technology
Hysteresis
Loads (forces)
Physics
Solid-fluid interfaces
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
Wetting
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Summary:Contact angle (CA) hysteresis is important in many natural and engineering wetting processes, but predicting it numerically is difficult. We developed an algorithm that considers CA hysteresis when analyzing the motion of the contact line (CL). This algorithm employs feedback control of CA which decelerates CL speed to make the CL stationary in the hysteretic range of CA, and one control coefficient should be heuristically determined depending on characteristic time of the simulated system. The algorithm requires embedding only a simple additional routine with little modification of a code which considers the dynamic CA. The method is non-iterative and explicit, and also has less computational load than other algorithms. For a drop hanging on a wire, the proposed algorithm accurately predicts the theoretical equilibrium CA. For the drop impacting on a dry surface, the results of the proposed algorithm agree well with experimental results including the intermittent occurrence of the pinning of CL. The proposed algorithm is as accurate as other algorithms, but faster.
ISSN:1070-6631
1089-7666
DOI:10.1063/1.4707703