Provides the basic background needed by engineers to determine experimentally and interpret the rheological behavior of polymer melts--including not only traditional pure melts but also solutions and compounds containing anisotropic (fiber or disc) or colloidal particles--and apply it to analyze flow in processing operations. Experimental foundations of modern rheology and rheo-optics and the interpretation of experimental data are covered, which also develops the fundamentals of continuum mechanics and shows how it may be applied to devise methods for measurement of rheological properties, formulation of three-dimensional stress-deformation relationships, and analysis of flow in processing operations. Also discusses the structure of polymers and considers rheological behavior in terms of structure. Constitutive equations relating stress to deformation history in non-Newtonian fluids and their applications are discussed. Each chapter presents an overview of the subject matter and then develops the material in a pedagogical manner.
Principles of Continuum Mechanics.
Fabrication and Flow in Polymer Processing.
EXPERIMENTAL POLYMER RHEOLOGY.
Rheological Characterization of Polymer Fluids.
Experimental Observations of Rheological Behavior of PolymerSystems.
Rheo-Optics and Flow Birefringence.
RHEOLOGICAL MODELING OF FLOW BEHAVIOR.
Constitutive Equations for Non-Newtonian Fluids.
Applications to Polymer Processing.
Number Of Pages: 336
Published: 20th July 1990
Country of Publication: US
Dimensions (cm): 24.6 x 16.2
Weight (kg): 0.66
Edition Number: 1