Droplets on inclined plates: local and global hysteresis of pinned capillary surfaces

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Droplets on inclined plates: local and global hysteresis of pinned capillary surfaces

Journal Article (2014)

Author(s)

M. Musterd (TU Delft - ChemE/Transport Phenomena)

Volkert Van Steijn (TU Delft - ChemE/Product and Process Engineering)

Chris Kleijn (TU Delft - ChemE/Transport Phenomena)

M.T. Kreutzer (TU Delft - ChemE/Product and Process Engineering)

Research Group

ChemE/Transport Phenomena

DOI related publication

https://doi.org/10.1103/PhysRevLett.113.066104

To reference this document use:

https://resolver.tudelft.nl/uuid:258a2741-0e4e-4616-b9e7-31d3b8e27b22

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Publication Year

2014

Language

English

Research Group

ChemE/Transport Phenomena

Volume number

113

Pages (from-to)

0661041-0661045

Abstract

Local contact line pinning prevents droplets from rearranging to minimal global energy, and models for droplets without pinning cannot predict their shape. We show that experiments are much better described by a theory, developed herein, that does account for the constrained contact line motion, using as an example droplets on tilted plates. We map out their shapes in suitable phase spaces. For 2D droplets, the critical point of maximum tilt depends on the hysteresis range and Bond number. In 3D, it also depends on the initial width, highlighting the importance of the deposition history.

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