Compressive deformation of liquid marbles

Millimetric liquid droplets coated with particles, known as “liquid marbles”, exhibit some curious physical properties such as extended lifetime with regards to evaporation, low-friction when in contact with other surfaces and non-coalescence with other liquids. The formation dynamics have been well...

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Bibliographic Details
Published in:Powder technology 2018-10, Vol.338, p.7-16
Main Authors: Rane, Y., Foster, E., Moradiafrapoli, M., Marston, J.O.
Format: Article
Language:English
Subjects:
Armored interface
Coalescence
Coalescing
Compressive properties
Deformation
Evaporation
Fluids
Hysteresis
Liquid marbles
Liquids
Marble
Mechanical properties
Physical properties
Rupture
Rupturing
Strain
Thermal properties
Thermodynamic properties
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Summary:Millimetric liquid droplets coated with particles, known as “liquid marbles”, exhibit some curious physical properties such as extended lifetime with regards to evaporation, low-friction when in contact with other surfaces and non-coalescence with other liquids. The formation dynamics have been well-characterized as well as thermal properties, however, their mechanical properties have not. Here, we investigate the response of liquid marbles to compressive deformation between two plates. Above a compressive strain of approximately 40–50%, cracks appear in the particle coating and the liquid can wet the surface of the plates, i.e. the marble ruptures. However, more strikingly, we find that even for relatively small compressive strain (without rupturing), the marbles often undergo an irreversible deformation - that is they do not regain their original shape. We quantify this shape ‘hysteresis’ across a range of particle sizes and liquids, showing that it correlates primarily with compressive strain, but also particle type and underlying fluid. Furthermore, we analyse the compressed marble shapes upon approach to rupture in the context of previous analytical approximations, showing that the recent theory of Whyman & Bormashenko (2015) provides a good description of crushed marble shapes. [Display omitted] •Liquid marbles were subjected to compressive defromation quanti_ed by vertical strain•Above a critical strain, the marbles rupture and lose their integrity•Even for moderate compressions, there can be an irreversible deformation, i.e. hystereis
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2018.05.058