Rifts in rafts
A particle raft floating on an expanding liquid substrate provides a macroscopic analog for studying material failure. The time scales in this system allow both particle-relaxation dynamics and rift formation to be resolved. In our experiments, a raft, an aggregate of particles, is stretched uniaxia...
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| Veröffentlicht in: | Soft matter 2023-02, Vol.19 (5), p.95-912 |
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| creator | Tô, Khá-Î Nagel, Sidney R |
| description | A particle raft floating on an expanding liquid substrate provides a macroscopic analog for studying material failure. The time scales in this system allow both particle-relaxation dynamics and rift formation to be resolved. In our experiments, a raft, an aggregate of particles, is stretched uniaxially by the expansion of the air-liquid interface on which it floats. Its failure morphology changes continuously with pulling velocity. This can be understood as a competition between two velocity scales: the speed of re-aggregation, in which particles relax towards a low-energy configuration determined by viscous and capillary forces, and the difference of velocity between neighboring particles caused by the expanding liquid surface area. This competition selects the cluster length,
i.e.
, the distance between adjacent rifts. A model based on this competition is consistent with the experimental failure patterns.
Particle rafts floating on expanding liquid substrates exhibit velocity-dependent failure morphology and provide an accessible model system for studying cluster formation and material failure across many scales from the microscopic to the celestial. |
| doi_str_mv | 10.1039/d2sm01451c |
| format | Article |
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i.e.
, the distance between adjacent rifts. A model based on this competition is consistent with the experimental failure patterns.
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i.e.
, the distance between adjacent rifts. A model based on this competition is consistent with the experimental failure patterns.
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The time scales in this system allow both particle-relaxation dynamics and rift formation to be resolved. In our experiments, a raft, an aggregate of particles, is stretched uniaxially by the expansion of the air-liquid interface on which it floats. Its failure morphology changes continuously with pulling velocity. This can be understood as a competition between two velocity scales: the speed of re-aggregation, in which particles relax towards a low-energy configuration determined by viscous and capillary forces, and the difference of velocity between neighboring particles caused by the expanding liquid surface area. This competition selects the cluster length,
i.e.
, the distance between adjacent rifts. A model based on this competition is consistent with the experimental failure patterns.
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| ispartof | Soft matter, 2023-02, Vol.19 (5), p.95-912 |
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| language | eng |
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| source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
| subjects | Competition Floats Liquid surfaces Materials failure Substrates Velocity |
| title | Rifts in rafts |
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