Reaction Engineering of Step Growth PolymerizationSpringer US, 1987 M03 31 - 430 páginas The literature in polymerization reaction engineering has bloomed sufficiently in the last several years to justify our attempt in putting together this book. Rather than offer a comprehensive treatment of the entire field, thereby duplicating earlier texts as well as some ongoing bookwriting efforts, we decided to narrow down our aim to step growth polymerization systems. This not only provides us the lUxury of a more elaborate presentation within the constraints of production costs, but also enables us to remain on somewhat familiar terrain. The style and format we have selected are those of a textbook. The first six chapters present the principles of step growth polymerization. These are quite general, and can easily be applied in such diverse and emerging fields as polymerization applications in photolithography and microelec tronics. A detailed discussion of several important step growth polymeriz ations follows in the next five chapters. One could cover the first six chapters of this book in about six to eight weeks of a three-credit graduate course on polymerization reactors, with the other chapters assigned for reading. This could be followed by a discussion of chain-growth and other polymeriz ations, with which our material blends well. Alternately, the entire contents of this book could be covered in a course on step growth systems alone. |
Contenido
INTRODUCTION | 1 |
Measurement of MWD and Its Moments | 8 |
1 | 15 |
Derechos de autor | |
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Otras ediciones - Ver todas
Reaction Engineering of Step Growth Polymerization Santosh K. Gupta,Ajit Kumar Vista previa limitada - 2012 |
Reaction Engineering of Step Growth Polymerization Santosh K. Gupta,Ajit Kumar Sin vista previa disponible - 2011 |
Reaction Engineering of Step Growth Polymerization Santosh K. Gupta,Ajit Kumar Sin vista previa disponible - 1987 |
Términos y frases comunes
A₁ A₂ adipic acid analysis ARB polymerization assumed average chain length average molecular weight batch reactors C₁ caprolactam CH₂OH Chem Chemical concentration condensation conversion COOH cyclic derived diffusion E(Mout effect equilibrium ethylene glycol experimental feed Figure film reactor flow formaldehyde formation functional groups gel point gelation HCSTR increase intramolecular reactions irreversible k₁ k₂ Kumar mass transfer mold mole balance equations molecular weight distribution monofunctional compound monomer novolac number average chain nylon obtained oligomers optimization P₁ parameter PB+ PC phenol polycondensation polydispersity index polyester polymer polymer chains polymer formed polymer molecules polymerization reactors Prob(Fout probability of finding R₁ R₂ R₂B₂ rate constants reacted reaction mass Reprinted from Ref S. K. Gupta shown in Fig Simulation solved species step growth polymerization temperature terephthalate total number transesterification unequal reactivity unreacted vapor variables various viscosity written
Referencias a este libro
Polycondensation Processes in Distillation Tower Reactors Richard Karl Biener Vista de fragmentos - 1989 |
Modern Polyesters: Chemistry and Technology of Polyesters and Copolyesters John Scheirs,Timothy E. Long Sin vista previa disponible - 2003 |