Tim A. Osswald, Natalie Rudolph

Polymer Rheology

Fundamentals and Applications

• Gebundenes Buch

Produktbeschreibung

This book is designed to provide a background in polymer rheology to both engineering students and practicing engineers. It is written at an intermediate level with sufficient technical information and practical examples to enable the reader to understand the interesting and complex rheological behavior of polymers, to make the right decisions regarding rheological testing methods, and to troubleshoot rheology related problems encountered in polymer processing. The organization of the book and the practical examples throughout make it an ideal textbook and reference source. Processors and raw material suppliers will find the information within particularly valuable. Rheology is a rapidly growing and industrially important field, playing a significant role not only in polymer processing, but also in food processing, coating and printing, and many other manufacturing processes.

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Produktdetails

• Verlag: Hanser Fachbuchverlag
• Artikelnr. des Verlages: 559/00517
• Seitenzahl: 225
• Erscheinungstermin: 1. Januar 2015
• Englisch
• Abmessung: 245mm x 174mm x 20mm
• Gewicht: 538g
• ISBN-13: 9781569905173
• ISBN-10: 1569905177
• Artikelnr.: 37004114

Autorenporträt

Dr.-Ing. Natalie Rudolph is Division Manager Polymer, NETZSCH Analysing & Testing. She was previously Director of R&D in Composites at AREVO, Assistant Professor at the University of Wisconsin-Madison College of Engineering, and Team Leader at the Fraunhofer Institute ICT, Germany.

Inhaltsangabe

1 Introduction
1.1 Polymers
1.2 Newtonian Fluids and Hookean Soilds (Newton and Hooke)
1.3 Viscoelasticity (Maxwell)
1.4 Time Scale (Deborah-Number)
1.5 Rheology (Bingham, Lodge, Bird, Ferry)
1.6 Guide to the book (Table)

Introducing the different developments and problems in rheology with an historical overview

2 Flow of Polymers
2.1 Basic flows (viscometric flows)
2.2 Balance equations
2.3 Viscosity (Experimental data)
2.4 Viscoelasticity (Experimental data)

Explaining the different concepts of transport phenomena with a more detailed mathematical background in the appendix

3 Structure and Properties of Polymers
3.1 Molecular weight and Branching
3.2 Relaxation behavior
3.3 Shear thinning effects
3.4 Normal stresses in shear flow
3.5 Temperature and Pressure effects

4 Generalized Newtonian Fluid Models
4.1 Power Law Model/ Ostwald-DeWaele-Model
4.2 Carreau Model
4.3 Cross Model
4.4 Bingham Model
4.5 Chemo-rheology (Rheology of Thermosets)
4.6 Suspension Rheology (Rheology of multiple phase systems)

5 Rheometry
5.1 Melt Flow Indexer
5.2 Sliding Plate Rheometer
5.3 Capillary Rheometer
5.4 Cone-and-Plate Rheometer
5.5 Parallel Plate Rheometer
5.6 Couette Rheometer
5.7 Newly developed High Pressure Rheometers (sliding plate, slit,...)
5.8 Overview (Guide to choosing the right rheometer for an application)

6 Viscoelasticity
6.1 Linear Viscoelasticity
6.1.1 Relaxation
6.1.2 Creep
6.1.3 Dynamic test
6.2 Non-linear Viscoelasticity
6.2.1 Differential Models
6.2.2 Integral Models
6.3 Applications

Rezensionen

"Die übersichtliche Gliederung und die vielen Praxisbeispiele machen es zu einem idealen Lehrbuch und Nachschlagewerk." GAK Gummi Fasern Kunststoffe, Juli 2015