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Full Description
This book is derived from notes used in teaching a first-year graduate-level course in elasticity in the Department of Mechanical Engineering at the University of Pittsburgh. This is a modern treatment of the linearized theory of elasticity, which is presented as a specialization of the general theory of continuum mechanics. It includes a comprehensive introduction to tensor analysis, a rigorous development of the governing field equations with an emphasis on recognizing the assumptions and approximations in herent in the linearized theory, specification of boundary conditions, and a survey of solution methods for important classes of problems. Two- and three-dimensional problems, torsion of noncircular cylinders, variational methods, and complex variable methods are covered. This book is intended as the text for a first-year graduate course in me chanical or civil engineering. Sufficient depth is provided such that the text can be used without a prerequisite course in continuum mechanics, and the material is presented in such a way as to prepare students for subsequent courses in nonlinear elasticity, inelasticity, and fracture mechanics. Alter natively, for a course that is preceded by a course in continuum mechanics, there is enough additional content for a full semester of linearized elasticity.
Contents
Preface
List of Figures
List of Tables
1. Review of Mechanics of Materials
2. Mathematical Preliminaries
3. Kinematics
4. Forces and Stress
5. Constitutive Equations
6. Linearized Elasticity Problems
7. Two-Dimensional Problems
8. Torsion of Noncircular Cylinders
9. Three-Dimensional Problems
10. Variational Methods
11. Complex Variable Methods
Appendix: General Curvilinear Coordinates
References
Index
