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Literature DB >> 30932598

Coalescence in Two-Dimensional Foams: A Purely Statistical Process Dependent on Film Area.

Emilie Forel¹, Benjamin Dollet², Dominique Langevin¹, Emmanuelle Rio¹.

Abstract

While coalescence is ultimately the most drastic destabilization process in foams, its underlying processes are still unclear. To better understand them, we track individual coalescence events in two-dimensional foams at controlled capillary pressure. We obtain statistical information revealing the influence of the different parameters which have been previously proposed to explain coalescence. Our main conclusion is that coalescence probability is simply proportional to the area of the thin film separating two bubbles, suggesting that coalescence is mostly stochastic.

Year: 2019 PMID： 30932598 DOI： 10.1103/PhysRevLett.122.088002

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Coalescence in Two-Dimensional Foams: A Purely Statistical Process Dependent on Film Area.

1. Measurement of film permeability in 2D foams.

2. Stability of Two-Dimensional Liquid Foams under Externally Applied Electric Fields.

3. Unraveling hidden rules behind the wet-to-dry transition of bubble array by glass-box physics rule learner.

4. Emulsion Destabilization by Squeeze Flow.

Review 5. Microfluidics Mediated Production of Foams for Biomedical Applications.

6. Deposits from evaporating emulsion drops.