Project Details
Employing Instabilities in Large Area Thin-Film Coating with Complex Fluids
Subject Area
Coating and Surface Technology
Statistical Physics, Nonlinear Dynamics, Complex Systems, Soft and Fluid Matter, Biological Physics
Statistical Physics, Nonlinear Dynamics, Complex Systems, Soft and Fluid Matter, Biological Physics
Term
from 2018 to 2022
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 396768855
Final Report Year
2022
Final Report Abstract
The main aim of the project was to establish the morphological phase diagrams for structures created in coating processes and to understand the underlying instability mechanisms. These instabilities fundamentally limit rapid industrial uniform thin-film coating processes as, for example dip coating, blade coating and slot-die coating techniques. To achieve this aim thin-film models have been developed and analyzed by time-simulation and path-continuation techniques for one- and two-dimensional substrates. The advance of the underlying techniques, in particular, pathcontinuation for two-dimensional systems and time-periodic states, i.e., for the deposition of regular patterns has also be achieved.
Publications
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Self-organised dip-coating patterns of simple, partially wetting, nonvolatile liquids. Phys. Rev. Fluids, 4:123903, 2019
W. Tewes, M. Wilczek, S. V. Gurevich, and U. Thiele
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Two-dimensional patterns in dip coating - first steps on the continuation path. Phys. D, 409:132485, 2020
P.-M. T. Ly, K. D. J. Mitas, U. Thiele, and S. V. Gurevich
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Bifurcation study for a surface-acoustic-wave-driven meniscus. Physical Review Fluids, 6(9):094002, 2021
K. D. J. Mitas, O. Manor, and U. Thiele
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Pattern formation in slot-die coating, 2021
M. Kasischke, S. Hartmann, K. Niermann, D. Kostyrin, U. Thiele, and E. L. Gurevich