Rheology : concepts, methods, and applications /

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Rheology: Concepts, Methods and Applications, Third Edition provides a thorough historical and theoretical grounding in the field, and introduces rheology as the method of solving many practical problems in materials science and engineering. The book is practical and relevant for industry, but is al...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Malkin, A. �I�A. (Aleksandr �I�Akovlevich) (Autor), Isayev, Avraam I., 1942- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Toronto : ChemTec Publishing, 2017.
Edición:3rd edition.
Temas:
Rheology > Textbooks.
SCIENCE > Mechanics > General.
SCIENCE > Mechanics > Solids.
Rheology
Electronic books.
Textbooks
Textbooks.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Rheology: Concepts, Methods, and Applications; Copyright Page; Table of Contents; Preface; Preface to the 2nd Edition; Preface to the 3rd Edition; Introduction. Rheology: Subject and Goals; LITERATURE; Chapter 1. Continuum Mechanics as a Foundation of Rheology; 1.1 STRESSES; 1.2 DEFORMATIONS; 1.3 KINEMATICS OF DEFORMATIONS; 1.4 HETEROGENEITY ON FLOW; 1.5 SUMMARY  CONTINUUM MECHANICS IN RHEOLOGY; REFERENCES; QUESTIONS FOR CHAPTER 1; Chapter 2. Viscoelasticity; 2.1 BASIC EXPERIMENTS; 2.2 RELAXATION AND CREEP  SPECTRAL REPRESENTATION. DYNAMIC FUNCTIONS; 2.3 MODEL INTERPRETATIONS.
  • 2.4 SUPERPOSITION  THE BOLTZMANN-VOLTERRA PRINCIPLE2.5 RELATIONSHIPS AMONG VISCOELASTIC FUNCTIONS; 2.6 VISCOELASTICITY AND MOLECULAR MODELS; 2.7 TIME-TEMPERATURE SUPERPOSITION. REDUCED ("MASTER") VISCOELASTIC CURVES; 2.8 NON-LINEAR EFFECTS IN VISCOELASTICITY; REFERENCES; QUESTIONS FOR CHAPTER 2; Chapter 3. Liquids; 3.1 NEWTONIAN AND NON-NEWTONIAN LIQUIDS. DEFINITIONS; 3.2 NON-NEWTONIAN SHEAR FLOW; 3.3 EQUATIONS FOR VISCOSITY AND FLOW CURVES; 3.4 ELASTICITY IN SHEAR FLOWS; 3.5 STRUCTURE REARRANGEMENTS INDUCED BY SHEAR FLOW; 3.6 LIMITS OF SHEAR FLOW  INSTABILITIES; 3.7 EXTENSIONAL FLOW.
  • 3.8 CONCLUSIONS  REAL LIQUID IS A COMPLEX LIQUIDREFERENCES; QUESTIONS FOR CHAPTER 3; Chapter 4. Solids; 4.1 INTRODUCTION AND DEFINITIONS; 4.2 LINEAR ELASTIC (HOOKEAN) MATERIALS; 4.3 LINEAR ANISOTROPIC SOLIDS; 4.4 LARGE DEFORMATIONS IN SOLIDS AND NON-LINEARITY; 4.5 LIMITS OF ELASTICITY; REFERENCES; QUESTIONS FOR CHAPTER 4; Chapter 5. Rheometry Experimental Methods; 5.1 INTRODUCTION  CLASSIFICATION OF EXPERIMENTAL METHODS; 5.2 CAPILLARY VISCOMETRY; 5.3 ROTATIONAL RHEOMETRY; 5.4 PLASTOMETERS; 5.5 METHOD OF FALLING SPHERE; 5.6 EXTENSION.
  • 5.7 MEASUREMENT OF VISCOELASTIC PROPERTIES BY DYNAMIC (OSCILLATION) METHODS5.8 PHYSICAL METHODS; REFERENCES; QUESTIONS FOR CHAPTER 5; Chapter 6. Applications of Rheology; 6.1 INTRODUCTION; 6.2 RHEOLOGICAL PROPERTIES OF REAL MATERIALS AND THEIR CHARACTERIZATION; 6.3 RHEOKINETICS (CHEMORHEOLOGY) AND RHEOKINETIC LIQUIDS; 6.4 SOLUTION OF DYNAMIC PROBLEMS; REFERENCES; QUESTIONS FOR CHAPTER 6; Notation; Solutions; Index.

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