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Rheology : theory and applications. Volume I / edited by Frederick R. Eirich.
- Format:
- Book
- Language:
- English
- Subjects (All):
- Rheology.
- Physical Description:
- 1 online resource (778 pages)
- Place of Publication:
- New York : Academic Press Inc., Publishers, 1956.
- Language Note:
- English
- Summary:
- Rheology V1
- Contents:
- Front Cover; Rheology: Theory and Applications; Copyright Page; Preface; Contributors to Volume I; Table of Contents; Chapter 1. Introduction; Chapter 2. Phenomenological Macrorheology; I. Introduction; II. Traction and Stress; III. Deformation; IV. The Classical Ideal Bodies; V. Second-Order Effects in Elasticity and Viscosity; VI. Complex Bodies; VII. Energy Considerations; VIII. Variability of Rheological Coefficients; IX. Volume Rheology; Nomenclature; Chapter 3. Finite Plastic Deformation; I. Introduction; II. Flow of Perfectly Plastic Solids; III. Flow of Work-Hardening Plastic Solids
- IV. Flow of Visco-Plastic Solids Nomenclature; Chapter 4. Stress-Strain Relations in the Plastic Range of Metals-Experiments and Basic Concepts; I. Introduction; II. Experiments on Yielding; III. The Yield Function as a Loading Function; IV. Significance of the Loading Function; V. Experimental Evidence Requiring a General Approach; VI. Fundamental Mechanical-Thermodynamic Consideration; VII. Some Basic Experiences; VIII. Remarks; Nomenclature; Chapter 5. Mechanical Properties and Imperfections in Crystals; I. Introduction; II. Imperfections in Crystals
- III. Effect of Imperfections on Mechanical Properties Nomenclature; Chapter 6. Dislocations in Crystal Lattices; I. General Considerations; II. Dislocations in Particular Lattices; III. Interactions between Dislocations; Nomenclature; Chapter 7. Mechanical Properties of Metals; I. Introduction; II. Nature of the Grain Boundary; III. Elastic Properties of Polycrystalline Materials; IV. Internal Friction; V. Plastic Properties of Metals; VI. Work-Hardening of Metals; General Bibliography; Nomenclature; Chapter 8. Some Rheological Properties Under High Pressure; I. Introduction
- II. Techniques and Basic Principles of Measurements III. Viscosity of Fluids; IV. Plasticity; Nomenclature; Chapter 9. Theories of Viscosity; I. Introduction; II. Molecular Theory of Liquids; III. The Rate of Process Theory of Flow; IV. Diffusion Methods; V. Comparison of the Formulas; VI. Effects of Molecular Structure; Nomenclature; Chapter 10. Large Elastic Deformations; I. Introduction; II. Kinematics of Finite Deformation; III. The Strain-Energy Function; IV. The Strain-Energy Function for Small but Finite Deformations; V. Fundamental Mechanical Considerations
- VI. The Solution of Problems Involving Large Elastic Deformations VII. The Superposition of Small Deformations of Large Deformations; VIII. The Solution of Problems in Second-Order Elasticity Theory; IX. Experimental Verification of the Theory; Nomenclature; Chapter 11. Dynamics of Viscoelastic Behavior; I. Introduction; II. Properties of Viscoelastic Materials; III. Properties of Viscoelastic Objects when the Distributed Inertia of the Medium is Neglected; IV. Vibrations and Waves in Viscoelastic Objects; V. The Kinetic Theory of Rubber Elasticity; Nomenclature; Chapter 12. Viscosity Relationships for Polymers in Bulk and in Concentrated Solution
- Notes:
- Description based upon print version of record.
- Includes bibliographical references and indexes.
- ISBN:
- 1-299-39870-7
- 0-323-14259-1
- OCLC:
- 841907422
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