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More copies of this ISBNOther titles in the Dover Books on Engineering series:
Elasticity: Tensor, Dyadic, and Engineering Approaches (Dover Books on Engineering)by Pei Chi Chou
Synopses & ReviewsSynopsis:Exceptionally clear text treats elasticity from engineering and mathematical viewpoints. Comprehensive coverage of stress, strain, equilibrium, compatibility, Hooke's law, plane problems, torsion, energy, stress functions, more. 114 illustrations. 1967 edition. Synopsis:Exceptionally clear text treats elasticity from both engineering and mathematical viewpoints. Stress, strain, torsion, energy, many other topics. Problems. Bibliography. 1967 edition.
Synopsis:Written for advanced undergraduates and beginning graduate students, this exceptionally clear text treats both the engineering and mathematical aspects of elasticity. It is especially useful because it offers the theory of linear elasticity from three standpoints: engineering, Cartesian tensor, and vectordyadic. In this way the student receives a more complete picture and a more thorough understanding of engineering elasticity. Prerequisites are a working knowledge of statics and strength of materials plus calculus and vector analysis. The first part of the book treats the theory of elasticity by the most elementary approach, emphasizing physical significance and using engineering notations. It gives engineering students a clear, basic understanding of linear elasticity. The latter part of the text, after Cartesian tensor and dyadic notations are introduced, gives a more general treatment of elasticity. Most of the equations of the earlier chapters are repeated in Cartesian tensor notation and again in vectordyadic notation. By having access to this threefold approach in one book, beginning students will benefit from crossreferencing, which makes the learning process easier. Another helpful feature of this text is the charts and tables showing the logical relationships among the equationsespecially useful in elasticity, where the mathematical chain from definition and concept to application is often long. Understanding of the theory is further reinforced by extensive problems at the end of of each chapter.
Synopsis:Exceptionally clear text treats elasticity from engineering and mathematical viewpoints. Comprehensive coverage of stress, strain, equilibrium, compatibility, Hooke's law, plane problems, torsion, energy, stress functions, more. 114 illustrations. 1967 edition. Table of ContentsPREFACE
INTRODUCTION 1 ANALYSIS OF STRESS 1.1 Introduction 1.2 "Body Forces, Surface Forces, and Stresses" 1.3 Uniform State of Stress (TwoDimensional) 1.4 Principal Stresses 1.5 Mohr's Circle of Stress 1.6 State of Stress at a Point 1.7 Differential Equations of Equilibrium 1.8 ThreeDimensional State of Stress at a Point 1.9 Summary Problems 2 STRAIN AND DISPLACEMENT 2.1 Introduction 2.2 StrainDisplacement Relations 2.3 Compatibility Equations 2.4 State of Strain at a Point 2.5 General Displacements 2.6 Principle of Superposition 2.7 Summary Problems 3 STRESS STRAIN RELATIONS 3.1 Introduction 3.2 Generalized Hooke's Law 3.3 Bulk Modulus of Elasticity 3.4 Summary Problems 4 FORMULATION OF PROBLEMS IN ELASTICITY 4.1 Introduction 4.2 Boundary Conditions 4.3 Governing Equations in Plane Strain Problems 4.4 Governing Equations in ThreeDimensional Problems 4.5 Principal of Superposition 4.6 Uniqueness of Elasticity Solutions 4.7 SaintVenant's Principle 4.8 Summary Problems 5 TWODIMENSIONAL PROBLEMS 5.1 Introduction 5.2 Plane Stress Problems 5.3 Approximate Character of Plane Stress Equations 5.4 Polar Coordinates in TwoDimensional Problems 5.5 Axisymmetric Plane Problems 5.6 The SemiInverse Method Problems 6 TORSION OF CYLINDRICAL BARS 6.1 General Solution of the Problem 6.2 Solutions Derived from Equations of Boundaries 6.3 Membrane (Soap Film) Analogy 6.4 Multiply Connected Cross Sections 6.5 Solution by Means of Separation of Variables Problems 7 ENERGY METHODS 7.1 Introduction 7.2 Strain Energy 7.3 Variable Stress Distribution and Body Forces 7.4 Principle of Virtual Work and the Theorem of Minimum Potential Energy 7.5 Illustrative Problems 7.6 RayleighRitz Method Problems 8 CARTESIAN TENSOR NOTATION 8.1 Introduction 8.2 Indicial Notation and Vector Transformations 8.3 HigherOrder Tensors 8.4 Gradient of a Vector 8.5 The Kronecker Delta 8.6 Tensor Contraction 8.7 The Alternating Tensor 8.8 The Theorem of Gauss Problems 9 THE STRESS TENSOR 9.1 State of Stress at a Point 9.2 Principal Axes of the Stress Tensor 9.3 Equations of Equilibrium 9.4 The Stress Ellipsoid 9.5 Body Moment and Couple Stress Problems 10 "STRAIN, DISPLACEMENT, AND THE GOVERNING EQUATIONS OF ELASTICITY" 10.1 Introduction 10.2 Displacement and Strain 10.3 Generalized Hooke's Law 10.4 Equations of Compatibility 10.5 Governing Equations in Terms of Displacement 10.6 Strain Energy 10.7 Governing Equations of Elasticity Problems 11 VECTOR AND DYADIC NOTATION IN ELASTICITY 11.1 Introduction 11.2 Review of Basic Notations and Relations in Vector Analysis 11.3 Dyadic Notation 11.4 Vector Representation of Stress on a Plane 11.5 Equations of Transformation of Stress 11.6 Equations of Equilibrium 11.7 Displacement and Strain 11.8 Generalized Hooke's Law and Navier's Equation 11.9 Equations of Compatibility 11.10 Strain Energy 11.12 Governing Equations of Elasticity Problems 12 ORTHOGONAL CURVILINEAR COORDINATES 12.1 Introduction 12.2 Scale Factors 12.3 Derivatives of the Unit Vectors 12.4 Vector Operators 12.5 Dyadic Notation and Dyadic Operators 12.6 Governing Equations of Elasticity in Dyadic Notation 12.7 Summary of Vector and Dyadic Operators in Cylindrical and Spherical Coordinates Problems 13 DISPLACEMENT FUNCTIONS AND STRESS FUNCTIONS 13.1 Introduction 13.2 Displacement Functions 13.3 The Galerkin Vector 13.4 The Solution of PapkovichNeuber 13.5 Stress Functions Problems References INDEX What Our Readers Are SayingBe the first to add a comment for a chance to win!Product Details
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