Much more than a data reference, this book shows how to apply basic design data to solve practical problems in polymer engineering, via numerous examples. It uniquely offers both resin and up-to-date machine design data in a concise format, and shows how resin-compatible polymer processing equipment can be designed by using easily understandable computational procedures based on thermodynamics and rheology.
Basic design data for resins (mechanical, thermal, rheological, electrical, and optical properties), machines, parts, and processes is complemented by demonstrations of how to apply this data for application in extrusion, blown film, thermoforming, and injection molding. It is designed for simplicity, and all calculations can be carried out with a handheld calculator.
With a practical and time-saving approach to problem-solving in plastics processing, which in many cases negates the need for complex and expensive software or databases, this book is a handy tool for beginners, practicing engineers, students, and instructors in the field of plastics technology, and scientists from other fields with an interest in polymer engineering.
Natti S. Rao has published over 70 papers and authored six books on designing polymer machinery with the help of computer programs. He holds a Ph.D. in Chemical Engineering from the University of Karlsruhe, Germany, and worked for many years as a senior research assistant with BASF AG. Prior to starting his consulting company in 1987, he worked as a visiting professor at the Indian Institute of Technology, Madras. Besides consulting, he conducts seminars on the computer-aided design of polymer machinery. Dr. Rao has given lectures on polymer engineering at the University of Texas, Austin, and he is presently involved in the Continuing Education Department of UMass Lowell, MA.
"Dieser zeitsparende Lösungsansatz für die Kunststoffverarbeitung macht in vielen Fällen teure Software oder komplexe Datenbanken überflüssig. Das Buch ist für Einsteiger, Ingenieure, Studenten Wissenschaftler und Lehrkräfte geeignet, die sich mit Kunststofftechnik und angrenzenden Wissensgebieten befassen." Kunststoffe, Oktober 2017