Difference between revisions of "Disjoining pressure"

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==Examples==
  
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===[[Elasticity of Compressed Emulsions]]===
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Mason et al. demonstrate the evolution of emulsion elasticity as a function of droplet volume fraction under shear loading. By measuring G' and G" as function of droplet volume fraction, droplet size, and frequency of oscillation and standardizing the elastic response by Laplace pressure and disjoining pressure, the effect of emulsion packing on elastic parameters is isolated. A model relating G' to the effective droplet volume fraction, droplet size, and disjoining pressure is developed for compressed emulsions above the critical droplet packing density.
  
  
  
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== Keyword in references: ==
  
 
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[[Spreading of nanofluids on solids]]
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[[Direct Measurement of Molecular Forces]]
 
[[Direct Measurement of Molecular Forces]]

Latest revision as of 01:56, 13 November 2012

Entry needed

Examples

Elasticity of Compressed Emulsions

Mason et al. demonstrate the evolution of emulsion elasticity as a function of droplet volume fraction under shear loading. By measuring G' and G" as function of droplet volume fraction, droplet size, and frequency of oscillation and standardizing the elastic response by Laplace pressure and disjoining pressure, the effect of emulsion packing on elastic parameters is isolated. A model relating G' to the effective droplet volume fraction, droplet size, and disjoining pressure is developed for compressed emulsions above the critical droplet packing density.


Keyword in references:

Spreading of nanofluids on solids

Direct Measurement of Molecular Forces

Dynamics of foam drainage

Measuring the Work of Adhesion between a Soft Confined Film and a Flexible Plate

Elasticity of Compressed Emulsions

Biocompatible surfactants for water-in-fluorocarbon emulsions

Yielding and Flow of Monodisperse Emulsions