Structure and energy of liquid foams

Drenckhan, Wiebke; Hutzler, Stefan

doi:10.1016/j.cis.2015.05.004

Cited by 139 publications

(98 citation statements)

References 98 publications

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“…For these we can benefit from both straightforward models and reliable F o r P e e r R e v i e w O n l y numerical methods. More recently, attention has moved to the case of wet foams [2,3], which pose new challenges.…”

Section: Introductionmentioning

confidence: 99%

Statistics and topological changes in 2D foam from the dry to the wet limit

Dunne

Bolton²,

Weaire

et al. 2017

Philosophical Magazine

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Section: Introductionmentioning

confidence: 99%

Statistics and topological changes in 2D foam from the dry to the wet limit

Dunne

Bolton²,

Weaire

et al. 2017

Philosophical Magazine

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“…Inferences based on the bulk distributions of the surface bubbles have been shown to allow reliable estimates of average foam bubble sizes (Cheng & Lemlich, 1983;Drenckhan & Hutzler, 2015). After 3 days, the foams produced by nymphs of the various instars were photographed together with a scale using a digital camera (Canon EOS 60D) coupled with a macro photo lens (Canon MP-E 65 mm).…”

Section: Measurement Of the Diameter Of Bubbles And Canalsmentioning

confidence: 99%

The role of biofoam in shielding spittlebug nymphs (Insecta, Hemiptera, Cercopidae) against bright light

Meyer‐Rochow

Fereres

et al. 2017

Ecological Entomology

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1. Biofoam in spittlebugs has traditionally been seen as a defence against predation and a microclimate that reduces the risks of overheating and drying out. This study addresses the possible role of the foam as a light attenuator.2. Nymphs exhibit higher mortalities when reared under brighter light (1800-2000 lux) than under less bright light (600-800 lux). At all developmental stages, photoavoidance is strongest when the nymphs are depleted of foam covers. Firstand second-instar nymphs appear to be the most vulnerable to exposures by bright light.3. Smaller bubbles are more effective as light attenuators than are larger ones. As younger instars possess smaller canals from which bubbles are released and, furthermore, exhibit higher concentrations of proteins in bubble liquid, they can produce smaller-sized bubbles and their foams are more effective at reducing light than are those of older nymphs.4. The findings of this study show that most of the visible and UV radiation is reflected by the foam: transmittance of visible light was 15% at 600 nm and 12% at 350 nm.5. These results demonstrate that spittlebug foam also possesses properties that render it an effective barrier against potentially damaging solar radiation.

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“…A new geometrical model of open cell foams is herein proposed, which is fully derived analytically starting from the following hypotheses: adoption of the Kelvin cell as the foam unit cell, approximated with a tetrakaidecahedron in the mathematical derivation; four struts converging in each node according to Plateau rules forming an angle γ , expressed in Eq.

true γ = \arccos (- \frac{1}{3}) ≅ 109 . 47^{\circ}

struts with circular or triangular cross section, converging in nodes with truncated sphere and tetrahedral geometry, respectively; parabolic profile of the lateral surface of the strut; C 1 continuity of the profile at the strut‐node intersection. …”

Section: An Analytical Geometrical Modelmentioning

confidence: 99%

Analytical Geometrical Model of Open Cell Foams with Detailed Description of Strut‐Node Intersection

Ambrosetti

Bracconi

Groppi

et al. 2017

Chemie Ingenieur Technik

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Open cell foams are regarded as potential enhanced catalyst carriers due to their high specific surface areas, low pressure drops, and good heat and mass transfer rates. However, it is difficult to evaluate their surface area. An analytical model is proposed, which is derived entirely from geometrical hypotheses and can be applied using different easily accessible input parameters. It can accurately estimate the specific surface and other features of foams for a wide range of porosities. The application of the new model to the reevaluation of published gas/solid mass transfer data is demonstrated.

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Structure and energy of liquid foams

Cited by 139 publications

References 98 publications

Statistics and topological changes in 2D foam from the dry to the wet limit

Statistics and topological changes in 2D foam from the dry to the wet limit

The role of biofoam in shielding spittlebug nymphs (Insecta, Hemiptera, Cercopidae) against bright light

Analytical Geometrical Model of Open Cell Foams with Detailed Description of Strut‐Node Intersection

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