Non-Newtonian fluid mechanics /

This volume is for use in technical universities, and for practising engineers who are involved with flow problems of non-Newtonian fluids. The treatment of the subject is based throughout on continuum mechanics model concepts and methods. Because in Non-Newtonian fluids the material properties oper...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: B�ohme, G. (Gert), 1942-
Formato: Electrónico eBook
Idioma:Inglés
Alemán
Publicado: Amsterdam ; New York : New York, N.Y., U.S.A. : North-Holland ; Sole distributors for the U.S.A. and Canada, Elsevier Science Pub. Co., 1987.
Colección:North-Holland series in applied mathematics and mechanics ; v. 31.
Temas:
Non-Newtonian fluids.
Fluid mechanics.
Fluides non newtoniens.
M�ecanique des fluides.
Fluid mechanics
Non-Newtonian fluids
Nichtnewtonsche Fl�ussigkeit
Str�omungsmechanik
Fluides, M�ecanique des.
Non-Newtonian fluids > Mechanics
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Non-Newtonian Fluid Mechanics; Copyright Page; Preface; Table of Contents; List of the Most Important Symbols; Chapter 1. Principles of continuum mechanics; 1.1 Basic concepts; 1.2 Material derivative; 1.3 Deformation rates; 1.4 Rivlin-Ericksen tensors; 1.5 Strain tensor; 1.6 Kinematics of steady shear flows; 1.7 Continuity equation; 1.8 Stress and volume force; 1.9 Equations of motion; 1.10 Energy equation for fluid flow; Chapter 2. Material properties occurring in steady shear flows; 2.1 The flow function; 2.2 The normal stress functions
  • Chapter 3. Processes that are controlled by the flow function3.1 Rotational viscometer; 3.2 Pressure-drag flow in a straight channel; 3.3 Radial flow between two parallel planes; 3.4 Pipe flow; 3.5 Helical flow; Chapter4. Effect of normal stress differences; 4.1 Cone-and-plate flow; 4.2 Weissenberg effect; 4.3 Die-swell; 4.4 Axial shear flow; Chapter 5. Simple unsteady flows; 5.1 Linear viscoelasticity; 5.2 Non-linear effects in unsteady pipe flow; Chapte 6. Nearly viscometric flows; 6.1 Shear flows with a weak unsteady component; 6.2 Plane steady boundary layer flows
  • 6.3 Stability of plane shear flowsChapter 7. Extensional flows; 7.1 Theoretical principles; 7.2 Applications; Chaper 8. Special Theological laws; 8.1 Fluids without memory; 8.2 Integral model; 8.3 Differential models; 8.4 Approximation for slow and slowly varying processes; Chapter 9. Secondary flows; 9.1 General theory; 9 2 Rotational symmetric flows; 9.3 Plane flows; 9.4 Steady flow through cylindrical pipes; 9.5 Periodic pipe flow; Appendix: Set of formulas for special curvilinear coordinates; Acknowledgements; References; Index

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