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Axisymmetric drop-shape analysis

Neumann has adapted the pendant drop experiment (see Section II-7) to measure the surface pressure of insoluble monolayers [70]. By varying the droplet volume with a motor-driven syringe, they measure the surface pressure as a function of area in both expansion and compression. In tests with octadecanol monolayers, they found excellent agreement between axisymmetric drop shape analysis and a conventional film balance. Unlike the Wilhelmy plate and film balance, the pendant drop experiment can be readily adapted to studies in a pressure cell [70]. In studies of the rate dependence of the molecular area at collapse, Neumann and co-workers found more consistent and reproducible results with the actual area at collapse rather than that determined by conventional extrapolation to zero surface pressure [71]. The collapse pressure and shape of the pressure-area isotherm change with the compression rate [72]. [Pg.114]

The axisymmetric drop shape analysis (see Section II-7B) developed by Neumann and co-workers has been applied to the evaluation of sessile drops or bubbles to determine contact angles between 50° and 180° [98]. In two such studies, Li, Neumann, and co-workers [99, 100] deduced the line tension from the drop size dependence of the contact angle and a modified Young equation... [Pg.363]

Contact Angle Measurements. Axisymmetric drop shape analysis - profile (ADSA-P) The hydrophobicity/ hydrophilicity of a solid surface is usually expressed in terms of wettability, which can be quantified by contact angle measurements. ADSA-P is a technique to determine liquid-fluid interfacial tensions and contact angles... [Pg.84]

Kwok, D.Y., Gietzelt, T., Grundke, K., Jacobasch, H.J., and Neumann, A.W. (1997). Contact angle measurements and contact angle interpretation. 1. Contact angle measurements by axisymmetric drop shape analysis and a goniometer sessile drop technique. Langmuir, 13, 2880-2894. [Pg.142]

S. Lahooti, O.I. del Rio, A.W. Neumeinn and P. Cheng, Axisymmetric Drop Shape Analysis (ADSA), ch. 10 in the book edited by Neumann and Spelt, mentioned in sec. 1.17c. [Pg.58]

D. Li, P. Cheng and A.W. Neumann, Contact Angle Measurement by Axisymmetric Drop Shape Analysis (ADSA), Adv. Colloid Interface Set 39 (1992) 347, and references to the Neumann group in sec. 5.12 D.Y. Kwok, A.W. Neumann, Contact Angle Measurement and Contact Angle Interpretation, Adv. Colloid Interface Set 81 (1999) 167-249. [Pg.605]

Chen, P., del Rio, O.I. and Neumann, A.W. (2000) Axisymmetric drop shape analysis, in Physical Chemistry of Biological Interfaces. Marcel Dekker, New York... [Pg.190]

Bashforth F and Adams JC (1883) An attempt to test the capillary action, Cambridge University Press and Deighton Bell Co., Cambridge Chen P, Kwork DY, Prokop RM, del-Rio 01, Susnar SS and Neumann AW (1998) Axisymmetric drop shape analysis (ADSA) and its applications , in Drops and bubbles in interfacial research, D. Moebius and R. Miller Eds., Studies in Interface Science Series, Vol. 6, Elsevier, Amsterdam Dukhin SS, Kretzschmar G and R. Miller R (1995) Dynamic of adsorption at liquid interfaces. Theory, experiments, applications, D. Moebius and R. Miller Eds., Studies in Interface Science Series, Vol. 1, Elsevier, Amsterdam Joos P (1999) Dynamic Surface Phenomena, VSP, Utrecht, 1999 Kovalchuk VI, Zholkovskij EK, Kragel J, Miller R, Fainerman VB, Wiistneck R, Loglio G and Dukhin SS (2000) Bubble Oscillations in a Closed Cell. J Colloid Interface Sci 224 245-254... [Pg.101]

Dynamic properties of interfaces have attracted attention for many years because they help in understanding the behaviour of polymer, surfactant or mixed adsorption layers.6 In particular, interfacial rheology (dilational properties) is crucial for many technological processes (emulsions, flotation, foaming, etc).1 The present work deals with the adsorption of MeC at the air-water interface. Because of its amphiphilic character MeC is able to adsorb at the liquid interface thus lowering the surface tension. Our aim is to quantify how surface active this polymer is, and to determine the rheological properties of the layer. A qualitative and quantitative evaluation of the adsorption process and the dilata-tional surface properties have been realised by dynamic interface tension measurements using a drop tensiometer and an axisymmetric drop shape analysis. [Pg.167]

Kwok, D. Y., Cheung, L. K., Park, C. B., and Neumann, A. W., Study on the surface tensions of polymer melts using axisymmetric drop shape analysis, Polym. Eng. Sci., 38, 757-764 (1998). [Pg.355]

Additional information on interfacial layers can be gained from rheological and ellipsometry experiments. There is quite a number of different experimental setups used to determine surface rheological parameters (27). New possibilities to determine surface dilational parameters arise from oscillating-drop experiments. Using axisymmetric drop shape analysis (ADSA) the change in interfacial ten-... [Pg.3]

C. Axisymmetric Drop Shape Analysis and Spinning Drop Technique... [Pg.18]

To quantify the effects of mixed waste con sition on wettability and interfacial tension equilibrium, aqueous phase receding contact angle and interfacial tension were measured. Inter cial tension was measured ida a spinning drop tensiometer Model 500 (University of Texas, Austin, TX) and contact angles were obtained using axisymmetric drop shape analysis (17) on quartz slides. Contact angles are reported through the aqueous phase. [Pg.163]

Contact Angle Measurements by Axisymmetric Drop Shape Analysis... [Pg.157]

For even better results, drop profile analysis can be applied instead of measuring the contact angle directly (axisymmetric drop shape analysis, ASDA Fig. 4.20). This technique extracts experimental drop profiles from video images while slowly increasing or decreasing the droplet volume [42, 43]. The best fit of experimental data with theoretical assumptions based on the Laplace equation of capillarity allows one to calculate the surface/inter-facial tension and subsequently the contact angle. Also droplet radius, droplet volume, and the contact area are computed. ADSA can therefore reveal... [Pg.157]

Grundke K, Werner C, Poschel K, Jacobasch HJ (1999) Characterization of adsorbed protein laytas by low-rate dynamic liquid-fluid contact angle measurements using axisymmetric drop shape analysis (part II). Colloids Surf A 156 19-31... [Pg.115]

Li, D., Cheng, R, and Newmann, A. W., Contact angle measurement by axisymmetric drop shape analysis (ADSA), Adv. Colloid Interface Sci., 39, 347, 1992. [Pg.47]

Vianceanu M, Winkler K, Nirschl H, Leneweit G (2007) Surface rheology of monolayers of phospholipids and cholesterol measured with axisymmetric drop shape analysis. CoUoids Surf A 311 140-153... [Pg.89]


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See also in sourсe #XX -- [ Pg.2 , Pg.253 , Pg.255 , Pg.256 , Pg.257 , Pg.258 , Pg.259 , Pg.260 , Pg.261 , Pg.262 , Pg.264 , Pg.265 ]

See also in sourсe #XX -- [ Pg.2 , Pg.253 , Pg.255 , Pg.256 , Pg.257 , Pg.258 , Pg.259 , Pg.260 , Pg.261 , Pg.262 , Pg.264 , Pg.265 ]

See also in sourсe #XX -- [ Pg.191 ]

See also in sourсe #XX -- [ Pg.17 , Pg.18 , Pg.26 ]




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Axisymmetric

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Profile axisymmetric drop shape analysis

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