The influence of spreading particles on the stability of thin liquid films

The influence of spreading particles on the stability of thin liquid films

The influence of spreading particles on the stability of thin liquid films was investigated. Due to the spreading of a particle, i.e. an oil droplet, over a surface of a thin liquid film the latter becomes thinner and may rupture. The following steps in the whole process were distinguished: 1) transport of the particle to the film surface, 2) dewetting of the particle ensuring physical contact between the particle surface and the film surface, 3) spreading of the particle over the film surface and 4) movement of the film bulk liquid induced by the surface movement due to spreading material.An attempt was made to develop a theory that describes the spreading process quantitatively. It describes the film thinning process as a result of the liquid drag due to the surface motion initiated by the spreading material by using the parameters film thickness, droplet radius, liquid bulk viscosity, liquid bulk density and the surface rheological properties of the oil droplet and the film liquid.Model systems of foaming liquid and lipid material were used to study this spreading process. The latter was done on a relative macroscopic scale over bulk surfaces which is different compared to the dimensions and conditions which are valid for spreading particles on a foam film. It was assumed that the developed theory could be applied to both dimensions. The experimental results pointed in this direction. This was verified by the experimental results of introducing small spreading emulsion droplets on thin liquid films. A clear correlation between the above mentioned parameters and film rupture initiated by the spreading droplets was found.

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Bibliographic Details
Main Author: Bisperink, C.G.J.
Other Authors: Prins, A.
Format: Doctoral thesis biblioteca
Language:English
Published: Landbouwuniversiteit Wageningen
Subjects:dispersion, foams, gases, interface, surface phenomena, surfaces, dispersie, gassen, grensvlak, oppervlakten, oppervlakteverschijnselen, schuim,
Online Access:https://research.wur.nl/en/publications/the-influence-of-spreading-particles-on-the-stability-of-thin-liq
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spelling dig-wur-nl-wurpubs-398682024-10-23 Bisperink, C.G.J. Prins, A. Bos, H.J. Doctoral thesis The influence of spreading particles on the stability of thin liquid films 1997 The influence of spreading particles on the stability of thin liquid films was investigated. Due to the spreading of a particle, i.e. an oil droplet, over a surface of a thin liquid film the latter becomes thinner and may rupture. The following steps in the whole process were distinguished: 1) transport of the particle to the film surface, 2) dewetting of the particle ensuring physical contact between the particle surface and the film surface, 3) spreading of the particle over the film surface and 4) movement of the film bulk liquid induced by the surface movement due to spreading material.An attempt was made to develop a theory that describes the spreading process quantitatively. It describes the film thinning process as a result of the liquid drag due to the surface motion initiated by the spreading material by using the parameters film thickness, droplet radius, liquid bulk viscosity, liquid bulk density and the surface rheological properties of the oil droplet and the film liquid.Model systems of foaming liquid and lipid material were used to study this spreading process. The latter was done on a relative macroscopic scale over bulk surfaces which is different compared to the dimensions and conditions which are valid for spreading particles on a foam film. It was assumed that the developed theory could be applied to both dimensions. The experimental results pointed in this direction. This was verified by the experimental results of introducing small spreading emulsion droplets on thin liquid films. A clear correlation between the above mentioned parameters and film rupture initiated by the spreading droplets was found. en Landbouwuniversiteit Wageningen application/pdf https://research.wur.nl/en/publications/the-influence-of-spreading-particles-on-the-stability-of-thin-liq 10.18174/210654 https://edepot.wur.nl/210654 dispersion foams gases interface surface phenomena surfaces dispersie gassen grensvlak oppervlakten oppervlakteverschijnselen schuim Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic dispersion
foams
gases
interface
surface phenomena
surfaces
dispersie
gassen
grensvlak
oppervlakten
oppervlakteverschijnselen
schuim
dispersion
foams
gases
interface
surface phenomena
surfaces
dispersie
gassen
grensvlak
oppervlakten
oppervlakteverschijnselen
schuim
spellingShingle dispersion
foams
gases
interface
surface phenomena
surfaces
dispersie
gassen
grensvlak
oppervlakten
oppervlakteverschijnselen
schuim
dispersion
foams
gases
interface
surface phenomena
surfaces
dispersie
gassen
grensvlak
oppervlakten
oppervlakteverschijnselen
schuim
Bisperink, C.G.J.
The influence of spreading particles on the stability of thin liquid films
description The influence of spreading particles on the stability of thin liquid films was investigated. Due to the spreading of a particle, i.e. an oil droplet, over a surface of a thin liquid film the latter becomes thinner and may rupture. The following steps in the whole process were distinguished: 1) transport of the particle to the film surface, 2) dewetting of the particle ensuring physical contact between the particle surface and the film surface, 3) spreading of the particle over the film surface and 4) movement of the film bulk liquid induced by the surface movement due to spreading material.An attempt was made to develop a theory that describes the spreading process quantitatively. It describes the film thinning process as a result of the liquid drag due to the surface motion initiated by the spreading material by using the parameters film thickness, droplet radius, liquid bulk viscosity, liquid bulk density and the surface rheological properties of the oil droplet and the film liquid.Model systems of foaming liquid and lipid material were used to study this spreading process. The latter was done on a relative macroscopic scale over bulk surfaces which is different compared to the dimensions and conditions which are valid for spreading particles on a foam film. It was assumed that the developed theory could be applied to both dimensions. The experimental results pointed in this direction. This was verified by the experimental results of introducing small spreading emulsion droplets on thin liquid films. A clear correlation between the above mentioned parameters and film rupture initiated by the spreading droplets was found.
author2 Prins, A.
author_facet Prins, A.
Bisperink, C.G.J.
format Doctoral thesis
topic_facet dispersion
foams
gases
interface
surface phenomena
surfaces
dispersie
gassen
grensvlak
oppervlakten
oppervlakteverschijnselen
schuim
author Bisperink, C.G.J.
author_sort Bisperink, C.G.J.
title The influence of spreading particles on the stability of thin liquid films
title_short The influence of spreading particles on the stability of thin liquid films
title_full The influence of spreading particles on the stability of thin liquid films
title_fullStr The influence of spreading particles on the stability of thin liquid films
title_full_unstemmed The influence of spreading particles on the stability of thin liquid films
title_sort influence of spreading particles on the stability of thin liquid films
publisher Landbouwuniversiteit Wageningen
url https://research.wur.nl/en/publications/the-influence-of-spreading-particles-on-the-stability-of-thin-liq
work_keys_str_mv AT bisperinkcgj theinfluenceofspreadingparticlesonthestabilityofthinliquidfilms
AT bisperinkcgj influenceofspreadingparticlesonthestabilityofthinliquidfilms
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