http://www.cnr.it/ontology/cnr/individuo/prodotto/ID201685
LIQUID FILM INVESTIGATIONS UNDER MICROGRAVITY CONDITIONS BY THE LIFT TENSIOMETER (Abstract/Poster in convegno)
- Type
- Label
- LIQUID FILM INVESTIGATIONS UNDER MICROGRAVITY CONDITIONS BY THE LIFT TENSIOMETER (Abstract/Poster in convegno) (literal)
- Anno
- 2012-01-01T00:00:00+01:00 (literal)
- Alternative label
Libero Liggieri , Francesca Ravera , Eva Santini , Michele Ferrari ,
Jürgen Krägel , Georgi Gochev , Reinhard Miller , Alexander V. Makievski ,
Volodymyr I. Kovalchuk , Boris A. Noskov , James K. Ferri ,
Piero Pandolfini , Giuseppe Loglio (2012)
LIQUID FILM INVESTIGATIONS UNDER MICROGRAVITY CONDITIONS BY THE LIFT TENSIOMETER
in 10th EUFOAM 2012, Lisboa, Portugal
(literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- Libero Liggieri , Francesca Ravera , Eva Santini , Michele Ferrari ,
Jürgen Krägel , Georgi Gochev , Reinhard Miller , Alexander V. Makievski ,
Volodymyr I. Kovalchuk , Boris A. Noskov , James K. Ferri ,
Piero Pandolfini , Giuseppe Loglio (literal)
- Note
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#affiliazioni
- CNR-Institute for Energetics and Interphases, Genova, Italy
Max Planck Institute of Colloids and Interfaces, Golm-Potsdam, Germany
Sinterface Technology, Berlin, Germany
Institute of Biocolloid Chemistry, Kiev, Ukraine
St. Petersburg State University - Dept. Colloid Chemistry, St. Petersburg, Russia
Lafayette College- Dept. Chemical and Biomolecular Eng., Easton PA, USA
University of Florence -Dept. of Chemistry, Italy (literal)
- Titolo
- LIQUID FILM INVESTIGATIONS UNDER MICROGRAVITY CONDITIONS BY THE LIFT TENSIOMETER (literal)
- Abstract
- Most features of foams and emulsions are defined by the behaviour and the chemico-physical
properties of the corresponding liquid films (LF). Investigating these properties is particularly
important to boost the comprehension of the behaviour of emulsions and foams in relation to
complex blends of stabilising/destabilising agents, such as those composed by associations of
surface active molecules and particles. LF features cannot be straightforwardly extrapolated by
the properties of the single interfaces composing it, due to the involved volume finiteness and the
small thickness, which limits the exchange of molecules with the bulk and makes the adsorption
layers at the two sides of the films to interact. Among the various approaches proposed to study
different aspects of the chemico-physical properties of LF, particularly attracting is the
possibility to investigate the dynamic film tension and dilational film rheology of spherical films
on the basis of the Capillary Pressure tensiometry. Such technique has been in fact successfully
utilised for studies on single interfaces, offering evident advantages in terms of accessible time
scales for the interfacial tension and perturbation frequency and flexibility for the dilational
rheology. Based on such concept we have started the development of a Liquid Film Tensiometer
(LIFT), proposing it as a new device for LF investigations under weightlessness conditions on
board the International Space Station with the support of the Italian Space Agency.
These conditions are in fact useful to study the properties of the film only subject to capillary
drainage and will also allow investigating these properties in the wet film regime, which is the
most difficult to access under gravity. Such instrument will also include enhanced optical
techniques for the simultaneous measurement of the film thickness.
References
1. Y.H. Kim, et al., J. Colloid Interface Sci.,187 (1997) 29
2. V.I. Kovalchuk et al., J. Colloid Interface Sci., 280 (2004) 498.
3. A. Georgieva et al., Soft Matter, 5 (2009) pp 2063-2071 (literal)
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