| Interfacial Engineering Series |
Authors: D. Fennell Evans, Professor Emeritus, Chemical Engineering and Materials Science, University of Minnesota; Hakan Wennerstrom, Professor, Physical Chemistry, Lund University;Robert J Stokes, Scientist Emeritus, Honeywell Corporation
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Comprehensive fundamentals of interfacial phenomena and surface science presented through the use of graphics, animations, examples and interactive exercises Fundamental concepts are illustrated using familiar processes so that workers at all levels will find these materials of value for technical training.
Special Features: Quick Search Index and Table of Contents, Glossary, Orientation.
More information is available by clicking on 'Course contents' to the right, and at the bottom of this page.
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To purchase this course, follow the steps below:
Course contents include: Amiphiphiles, Blade Coater, Block copolymers, Boltzman distribution, Boltzman equation, Capillary, Capillary condensation, CCC, CFT, Clay particles, Clays, Cloud point, Cloud point temperature, CMC, Coagulation , Coalescence, Coating, Cohesion
Colloid preparation, Colloidal dispersions, Coulomb's equation, Creaming, Creaming of emulsions, Critical coagulation concentration, Critical flocculation temperature, Critical Micelle Concentration, Curtain Coater, Depletion Forces, DLVO Theory, Double layer, Electrokinetics, Electrophoresis, Emulsification, Emulsion polymerization, Flocculation
Flory-Huggins theory, Gibbs Adsorption Isotherm, Gouy-Chapman theory, Henry's equation, Inverted micelles, Kelvin Equation, Langmuir Isotherm, Liposomes, Liquid crystals, Micelles, Monolayer, Monolayers, Poisson-Boltzmann equation, Roll Coater, Slot Coater, Spreading coefficient, Surfactant number, Vesicles, Work of adhesion, Work of cohesion, Young Equation, Young-LaPlace Equation, Zeta potential
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