Fundamentals of Interfacial EngineeringJohn Wiley & Sons, 27 dic 1996 - 736 páginas "Fundamentals of Interfacial Engineering" provides chemical, electronic, mechanical, and biomedical engineers with a coherent, integrated introduction to the fundamental concepts that relate to interfacial phenomena with applications to different processes and product situations. This book emphasizes the importance of intermolecular forces in holding materials together within a bulk phase or across an interface. It outlines the fundamental intermolecular interactions that occur in all interfacial systems. The work also describes the properties, processing, and behavior of fluid interfacial systems and treats solid surfaces and interfaces. In addition to being of direct industrial relevance, this book will provide engineering instructors with an excellent starting point for planning curriculum development in this important area. |
Índice
2 Interaction Forces in Interfacial Systems | 9 |
Avogadros number | 33 |
Bibliography | 42 |
General Properties of Systems | 45 |
Bibliography | 103 |
Equation of Motion for a Moving Control | 111 |
Molar gas constant | 159 |
Amphiphilic SystemsLiquidLiquid | 201 |
Polymer Composites | 347 |
Liquid Coating Processes | 399 |
Process | 407 |
General Properties of Crystalline Solid | 457 |
Determining the Structure of Many | 471 |
by the NernstEinstein Equation | 512 |
Thin FilmsSolidSolid Interfaces | 527 |
Bibliography | 620 |
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Términos y frases comunes
adhesive adsorbed adsorption aggregation amphiphilic amphiphilic molecules angle atoms attractive behavior bilayers bond bulk capillary cation ceramic chain chemical Chemistry coagulation coating coefficient colloidal colloidal particles composite concentration constant contact angle containing crystal crystalline solid curvature curve Debye length decreases density depends deposition diffusion dipole dislocation dispersion DLVO theory droplets electrolyte electron electrostatic emulsion entropy equation equilibrium fiber flow fluid foam force free energy grain boundary grain boundary surface growth headgroup hydrocarbon increases interaction energy interface ionic ions latex lattice layer length liquid material mechanical micelles mole molecular monomer nucleation oxide phase polymer polymer molecule polymerization potential pressure properties radius repulsive result Section shear shear stress shown in Figure sodium solution solvent spheres spherical stability stress structure substrate surface energy surface tension surfactant temperature thermal thermodynamic thickness thin film tion vapor VCH Publishers velocity viscosity volume zeolite
Referencias a este libro
Pharmaceutical Dosage Forms: Disperse Systems Herbert A. Lieberman,Martin M. Rieger,Gilbert S. Banker No hay ninguna vista previa disponible - 1996 |