Description |
1 online resource |
Series |
Cambridge series in chemical engineering |
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Cambridge series in chemical engineering.
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Contents |
Cover -- Half-title -- Series information -- Title page -- Copyright information -- Dedication -- Contents -- List of Contributors -- Preface -- General List of Symbols -- Useful Physical Constants and Values -- 1 Introduction to Colloidal Suspension Rheology -- 1.1 Structure of this Chapter and the Book -- 1.2 Introduction and Observations -- 1.3 Colloidal Hard Spheres -- 1.3.1 Characteristic Properties of Brownian Particles -- 1.3.2 Brownian Hard Sphere Phase Behavior and Diffusion -- 1.4 Brownian Hard Sphere Rheology -- 1.4.1 Behavior at Low Shear Rates and Linear Viscoelasticity |
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1.4.2 Nonlinear Shear Rheology -- 1.4.3 Extensional and Bulk Viscosities -- 1.4.4 Normal Stress Differences -- 1.4.5 Shear Thickening and the Shear Thickened State -- 1.5 Colloidal Interaction Potentials -- 1.6 Colloidal Phase Behavior beyond Brownian Hard Spheres -- 1.7 Thixotropy -- Appendix: Rheological Definitions -- Chapter Notation -- Greek Symbols -- Subscripts -- Superscripts -- References -- 2 Theory of Colloidal Suspension Structure, Dynamics, and Rheology -- 2.1 Introduction -- 2.2 Low Reynolds Number Hydrodynamics |
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2.2.1 Time and Length Scales, Creeping-Flow Equations, and Oseen Tensor -- 2.2.2 Hydrodynamic Interactions of Spheres in Shear Flow -- 2.3 Smoluchowski Equation for Particles in Shear Flow -- 2.4 Langevin Dynamics of Brownian Particles -- 2.4.1 Single Microsphere in Shear Flow -- 2.4.2 Many-Particles Langevin Equations for Shear Flow -- 2.5 Suspension Rheology -- 2.5.1 Effective Navier-Stokes Equation and Macroscopic Stress -- 2.5.2 Rheological Properties and Flow Microstructure -- 2.5.3 Linear Rheology and Equilibrium Green-Kubo Relation -- 2.5.4 Applications of the Green-Kubo Relation |
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2.5.5 Generalized Stokes-Einstein Relations -- 2.6 Mode Coupling Theory of Dense Suspension Flow -- 2.6.1 MCT Description of Linear Rheology -- 2.6.2 Linear Rheology at the Glass Transition -- 2.6.3 Integration through Transients Approach to Nonlinear Rheology -- 2.7 Summary and Outlook -- References -- 3 Methods of Colloidal Simulation -- 3.1 Introduction -- 3.2 Continuum Solvent Methods -- Unmeshed Solvent -- 3.2.1 Brownian or Langevin Dynamics -- 3.2.2 Stokesian Particle (SP) Methods -- Stokesian Dynamics (SD) -- Accelerated Stokesian Dynamics (ASD) -- Fast Lubrication Dynamics (FLD) |
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3.2.3 Boundary Element Analysis -- 3.3 Continuum Solvent Methods -- Meshed Solvent -- 3.3.1 Arbitrary Lagrangian-Eulerian Method (ALE) -- Force Coupling Method (FCM) -- Distributed Lagrange Multiplier/Fictitious Domain (DLM/FD) -- Immersed Boundary Method (IMB) -- Fluid Particle Dynamics (FPD) -- Smoothed Profile Method (SPM) -- 3.4 Particle Solvent Methods -- Unmeshed Solvent -- 3.4.1 Smoothed Particle Hydrodynamics (SPH) -- 3.4.2 Dissipative Particle Dynamics (DPD) -- 3.5 Particle Solvent Methods -- Meshed Solvent |
Summary |
"An essential text on practical application, theory, and simulation, written by an international coalition of experts in the field and edited by the authors of Colloidal Suspension Rheology. This up-to-date work builds upon the prior work as a valuable guide to formulation and processing, as well as fundamental rheology of colloidal suspensions. Thematically, theory and simulation are connected to industrial application by consideration of colloidal interactions, particle properties, and suspension microstructure. Important classes of model suspensions including gels, glasses, and soft particles are covered so as to develop a deeper understanding of industrial systems ranging from carbon black slurries, paints and coatings, asphalt, cement, and mine tailings, to natural suspensions such as biocolloids, protein solutions, and blood. Systematically presenting the established facts in this multidisciplinary field, this book is the perfect aid for academic researchers, graduate students, and industrial practitioners alike"-- Provided by publisher |
Bibliography |
Includes bibliographical references and index |
Notes |
Description based on online resource; title from digital title page (viewed on September 02, 2021) |
Subject |
Colloids -- Viscosity
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Colloids -- Transport properties
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Rheology.
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TECHNOLOGY & ENGINEERING / Chemical & Biochemical.
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Colloids
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Rheology
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Suspensions (Chemistry)
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Form |
Electronic book
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Author |
Wagner, Norman J., 1962- editor.
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Mewis, J., editor
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LC no. |
2021024770 |
ISBN |
1108503624 |
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9781108394826 |
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1108394825 |
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9781108503624 |
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