Introduction to linear elasticity

This applications-oriented introduction fills an important gap in the field of solid mechanics. Offering a thorough grounding in the tensor-based theory of elasticity for courses in mechanical, civil, materials or aeronautical engineering, it allows students to apply the basic notions of mechanics to such important topics as stress analysis. Further, they will also acquire the necessary background for more advanced work in elasticity, plasticity, shell theory, composite materials and finite element mechanics. This second edition features new chapters on the bending of thin plates, time-dependent effects, and strength and failure criteria.

Preface.- Introduction and Mathematical Preliminaries.- Traction, Stress and Equilibrium.- Deformations.- Material Behavior.- Formulation, Uniqueness and Solution Strategies.- Extension, Bending and Torsion.- Two-Dimensional Elasticity.- Bending of Thin Plates.- Time-Dependent Effects.- Energy Principles.- Strength and Failure Criteria.- Something New.- Index.

This applications-oriented introduction to the theory of elasticity aims to fill a gap in the field of solid mechanics. The book is intended to provide a thorough grounding in the tensor-based theory of elasticity for students of mechanical, civil or aeronautical engineering. Students will not only be able to apply the basic notions of mechanics to such important topics as stress analysis, but they will also acquire the necessary background for more advanced work in elasticity, plasticity, shell theory, and finite element mechanics. This second edition has been thoroughly revised and brought up to date. New chapters discuss the bending of thin plates, time-dependent effects, and strength and failure criteria.

• Preface
• 1. Introduction and Mathematical Preliminaries
• 2. Traction, Stress and Equilibrium
• 3. Deformations
• 4. Material Behavior
• 5. Formulation, Uniqueness and Solution Strategies
• 6. Extension, Bending and Torsion
• 7. Two-Dimensional Elaticity
• 8. Bending of Thin Plates
• 9. Time-Dependent Effects
• 10. Energy Principles
• 11. Strength and Failure Criteria
• 12. Something New
• Index