Drops and Bubbles in Interfacial Research
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portes grátis
Drops and Bubbles in Interfacial Research
Miller, Robert; Mobius, Dietmar
Elsevier Science & Technology
12/1997
714
Dura
Inglês
9780444828941
15 a 20 dias
After a general introduction into the mechanics of liquid menisci, these chapters are dedicated to methods based on drops or bubbles. Describing the accomplishments to make use of drops and bubbles in fundamental research and application, these provide the theoretical basis, a description of experimental set-ups, and experimental examples.
Foreword. The Laplace Equation of capillarity (J. Gaydos). Axisymmetric Drop Shape Analysis (ADSA) and its applications (P. Chen et al.). The drop volume technique (R. Miller, V.B. Fainerman). Spinning drop tensiometry (A.M. Seifert). Capillary pressure tensiometry and applications in microgravity (L. Liggieri, F. Ravera). The maximum bubble pressure tensiometry (V.B. Fainerman, R. Miller). The oscillating bubble method (K.-D. Wantke, H. Fruhner). Physico-chemical hydrodynamics of rising bubble (S.S. Dukhin et al.). Pulmonary surfactant and biophysical function (R. Herold et al.). High temperature tensiometry (A. Passerone, E. Ricci). Dynamics of the impact interaction between a fine solid sphere and a plane gas-liquid interface (A.V. Nguyen, H. Stechemesser). Interactions of emulsion drops (P.D.I. Fletcher). From stalagmometry to multianalyser tensiography; the definition of the instrumental, software and analytical requirements for a new departure in drop analysis (N.D. McMillan et al.). Subject Index.
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After a general introduction into the mechanics of liquid menisci, these chapters are dedicated to methods based on drops or bubbles. Describing the accomplishments to make use of drops and bubbles in fundamental research and application, these provide the theoretical basis, a description of experimental set-ups, and experimental examples.
Foreword. The Laplace Equation of capillarity (J. Gaydos). Axisymmetric Drop Shape Analysis (ADSA) and its applications (P. Chen et al.). The drop volume technique (R. Miller, V.B. Fainerman). Spinning drop tensiometry (A.M. Seifert). Capillary pressure tensiometry and applications in microgravity (L. Liggieri, F. Ravera). The maximum bubble pressure tensiometry (V.B. Fainerman, R. Miller). The oscillating bubble method (K.-D. Wantke, H. Fruhner). Physico-chemical hydrodynamics of rising bubble (S.S. Dukhin et al.). Pulmonary surfactant and biophysical function (R. Herold et al.). High temperature tensiometry (A. Passerone, E. Ricci). Dynamics of the impact interaction between a fine solid sphere and a plane gas-liquid interface (A.V. Nguyen, H. Stechemesser). Interactions of emulsion drops (P.D.I. Fletcher). From stalagmometry to multianalyser tensiography; the definition of the instrumental, software and analytical requirements for a new departure in drop analysis (N.D. McMillan et al.). Subject Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
