ADSA
advanced drop profile analysis methods
analysis
axisymmetric
Bubble Shape
Bubble Surface
Capillary Pressure
Capillary Pressure Tensiometer
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colloid
Colloid Interface
colloids
Colloids Surfaces
Contact Angle
Dilational Interfacial Modulus
Drop Formation
Drop Oscillations
Drop Shape
Drop Volume
Drop Volume Tensiometry
Droplet Formation
dynamic
Dynamic Interfacial Tension
Dynamic Surface Tensions
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Equilibrium Surface Tension
experimental fluid mechanics
flotation process science
Foam Films
interfacial
interfacial rheology
Interfacial Tension
Liquid Flow Field
liquid interface characterisation
Manipulation of Droplets onto a Planar Interface
Maximum Bubble Pressure Method
Maximum Bubble Pressure Tensiometry
Particle-Bubble Interaction in Flotation
Pendant Drop
shape
surface
Surface Tension
surfaces
surfactant adsorption measurement
Surfactant Solutions
tension
Thin Liquid Films
wetting contact angle dynamics
Wetting Dynamics of Aqueous Solutions on Solid Surfaces
Product details
- ISBN 9781138117877
- Weight: 1050g
- Dimensions: 174 x 246mm
- Publication Date: 07 Feb 2019
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Paperback
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This book describes the most important experimental methods for characterizing liquid interfaces, such as drop profile analysis, bubble pressure and drop volume tensiometry, capillary pressure technique, and oscillating drops and bubbles. It presents practical experimental details as well as the underlying theoretical bases. In addition, the book covers a number of applications based on drops and bubbles, such as rising bubbles and the complex process of flotation. It also offers a discussion on wetting, characterized by the dynamics of advancing contact angles.
Reinhard Miller, Libero Liggieri
