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Author

Carreau, Pierre J., author.

Title Rheology of polymeric systems : principles and applications Pierre J. Carreau, Daniel C.R. De Kee, Raj P. Chhabra.

Publication Info.	Munich : Hanser Publishers, 2021.
	Š2021

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Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Edition	2nd edition.
Description	1 online resource (645 pages)
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Physical Medium	monochrome rdacc
	black and white
	illustration rdaill
Note	Description based upon print version of record.
Contents	Intro -- Preface -- Contents -- 1 Introduction -- 1.1 Definitions and Classification -- 1.1.1 Purely Viscous or Inelastic Material -- 1.1.2 Perfectly Elastic Material -- 1.1.3 Viscoelastic Material -- 1.2 Non-Newtonian Phenomena -- 1.2.1 The Weissenberg Effect -- 1.2.2 Entry Flow, Extrudate Swell, Melt Fracture, and Vibrating Jet -- 1.2.3 Recoil -- 1.2.4 Open Syphon -- 1.2.5 Antithixotropic Effect -- 1.2.6 Drag Reduction -- 1.2.7 Hole Pressure Error -- 1.2.8 Mixing -- 1.2.9 Bubbles, Spheres, and Coalescence -- 2 Material Functions and Generalized Newtonian Fluids -- 2.1 Material Functions
	2.1.1 Simple Shear Flow -- 2.1.2 Sinusoidal Shear Flow -- 2.1.3 Transient Shear Flows -- 2.1.4 Elongational Flow -- 2.2 Generalized Newtonian Models -- 2.2.1 Generalized Newtonian Fluid -- 2.2.2 The Power-Law Model -- 2.2.3 The Ellis Model (Bird, Armstrong, and Hassager, 1987) -- 2.2.4 The Carreau Model (1972) -- 2.2.5 The Cross-Williamson Model (1965) -- 2.2.6 The Four-Parameter Carreau Model (Carreau et al., 1979b) -- 2.2.7 The De Kee Model (1977) -- 2.2.8 The Carreau-Yasuda Model (Yasuda, 1979) -- 2.2.9 The Bingham Model (1922) -- 2.2.10 The Casson Model (1959)
	2.2.11 The Herschel-Bulkley Model (1926) -- 2.2.12 The De Kee-Turcotte Model (1980) -- 2.2.13 The Papanastasiou Model (1987) -- 2.2.14 The Zhu-Kim-De Kee Model (2005) -- 2.2.15 Viscosity Models for Complex Flow Situations. -- 2.3 Thixotropy, Rheopexy, and Hysteresis -- 2.4 Relations Between Material Functions -- 2.5 Temperature, Pressure, and Molecular Weight Effects -- 2.5.1 Effect of Temperature on Viscosity -- 2.5.2 Effect of Pressure on Viscosity -- 2.5.3 Effect of Molecular Weight on Viscosity -- 2.6 Problems -- 2.6.1 Viscosity Data of a PIB Solutiona
	2.6.2 Viscosity Data of a CMC Solutiona -- 2.6.3 The Ellis Modela -- 2.6.4 Viscosity Data for a PS Solutionb -- 2.6.5 Rheological Behavior of Drilling Mudsb -- 2.6.6 The Cross-Williamson Modelb -- 2.6.7 Viscosity-Molecular Weight Relationshipb -- 3 Rheometry -- 3.1 Capillary Rheometry -- 3.1.1 Rabinowitsch Analysis -- 3.1.2 End Effects or Bagley Correction -- 3.1.3 Mooney Correction -- 3.1.4 Intrinsic Viscosity Measurements -- 3.2 Coaxial-Cylinder Rheometers -- 3.2.1 Calculation of Viscosity -- 3.2.2 End-Effect Corrections -- 3.2.3 Normal Stress Determination -- 3.3 Cone-and-Plate Geometry
	3.3.1 Viscosity Determination -- 3.3.2 Normal Stress Determination -- 3.3.3 Inertial Effects -- 3.3.4 Criteria for Transient Experiments -- 3.4 Concentric-Disk Geometry -- 3.4.1 Viscosity Determination -- 3.4.2 Normal Stress Difference Determination -- 3.5 Yield Stress Measurements -- 3.5.1 Yield Stress Measurement Methods -- 3.6 Problems -- 3.6.1 Rabinowitsch-Type Analysisa -- 3.6.2 Rabinowitsch Analysis for a Yield Stress Fluidb -- 3.6.3 Viscosity of a High-Density Polyethylenea -- 3.6.4 Cone-and-Plate Flowb -- 3.6.5 Parallel-Plate Rheometerb -- 3.6.6 Falling-Cylinder Viscometerb -- 3.6.7 Weissenberg Effecta.
Bibliography	Includes bibliographical references (pages 579-598) and index.
Summary	"Rheology is applied extensively in polymer, chemical, food processing, and related industries. This book combines the basic concepts and applications by presenting a balanced overview of the principles. With simplified analysis of complex problems, the textbook format provides easy understanding for both students and practicing professionals. There is no competing book with such a wide scope, including unique topics such as non-Fickian diffusion, flows about particles, and liquid mixing. The second edition is abundantly updated throughout. Highlights include yield stress measurements, non-Fickian diffusion and rheology of polymer nanocomposites, new results based on CFD simulations, and much more"--Print version, page 4 of cover.
Subject	Polymers -- Rheology -- Textbooks.
	Polymers -- Rheology.
	Polymčres -- Rhéologie.
	Polymers -- Rheology
Genre/Form	Textbooks
	Textbooks.
Added Author	De Kee, D. (Daniel), author.
	Chhabra, R. P., author.
Other Editions:	Revision of: Carreau, Pierre J. Rheology of polymeric systems. Munich ; New York : Hanser Publishers ; Cincinnati : Hanser/Gardner Publications, Š1997 1569902186 (DLC) 96036329 (OCoLC)35305092
Other Form:	Print version: Carreau, Pierre J. Rheology of polymeric systems. 2nd edition. Munich : Hanser Publishers, [2021] 9781569907221 (OCoLC)1291124581
ISBN	9781569907238 (eBook)
	1569907234 (eBook)
	9781569907221 (print)
	1569907226 (print)
Standard No.	AU@ 000070172324
	AU@ 000070135379