Polymer and Composite Rheology
2nd Edition
Published on 5. September 2019
Book
Paperback/Softback
408 pages
978-0-367-39848-4 (ISBN)
Description
An analysis of polymer and composite rheology. This second edition covers flow properties of thermoplastic and thermoset polymers, and general principles and applications of all phases of polymer rheology, with new chapters on the rheology of particulate and fibre composites. It also includes new and expanded detail on polymer blends and emulsions, foams, reacting systems, and flow through porous media as well as composite processing operations.
More details
Edition
2nd edition
Language
English
Place of publication
London
United Kingdom
Publishing group
Taylor & Francis Ltd
Target group
Professional and scholarly
Professional Practice & Development
Dimensions
Height: 229 mm
Width: 152 mm
Thickness: 22 mm
Weight
591 gr
ISBN-13
978-0-367-39848-4 (9780367398484)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Rakesh K. Gupta
Polymer and Composite Rheology
Book
06/2000
2nd Edition
CRC Press
€354.40
Shipment within 15-20 days
Rakesh K. Gupta
Polymer and Composite Rheology
E-Book
06/2000
2nd Edition
CRC Press
€92.49
Available for download
Rakesh K. Gupta
Polymer and Composite Rheology
E-Book
06/2000
2nd Edition
CRC Press
€92.49
Available for download
Person
Gupta, Rakesh K.
Content
Introduction to polymer rheology; instruments for shear rheology; shear viscosity of melts of flexible chain polymers; shear viscosity of polymer solutions; normal stress differences in polymers during shear flow; dynamic mechanical properties; extensional viscosity; rigid-rod and liquid-crystal polymer rheology; yield stress, wall slip, particle migration, and other observations with multiphase systems; solid-in-liquid suspensions; short-fibre suspensions; emulsions; gas-containing melts and foams; rheology of powders and granular materials; chemorheology and gelation; flow through porous media; melt fracture.