Chapter l INTRODUCTION
1.1 BASIC CONCEPTS
1.2 COMPUTATIONAL DEVELOPMENTS
Chapter 2 STRESS ANALYSIS
2.1 INTERNAL AND EXTERNAL FORCES
2.4 STRESS EQUILIBRIUM EQUATIONS
2.5 ANALYSIS OF STRESSES ON A GENERAL PLANE
2.5.1 Direction Cosines
2.5.2 Co-ordinate Transformation
2.5.3 Stresses on Oblique Plane
2.5.4 Stresses Transformation
2.6 PRINCIPAL STRESSES
2.8 DEVIATCORIC STRESSES
2.9 THE MAXIMUM SHEAR STRESSES
2.10 0CTAHEDRAL STRESSES
2.12 STRESS BOUNDARY CONDITION
Chapter 3 STRAIN ANALYSIS
3.1 DESCRIPTIONS OF DEFORMATIONS
3.1.1 Lagrangian Description
3.2 DEFINITION OF STRAIN
3.2.1 Finite Strain
3.2.2 Small Deformation
3.4 STRAINS COMPATIBILITY EQUATIONS
3.5 STRAIN TRANSFORMATION
3.6 PRINCIPAL STRAINS AND STRAIN INVARIANTS
3.8 THE MAXIMUM SHEAR STRAIN
3.9 0CTAHEDRAL STRAINS
Chapter 4 STRESS-STRAIN RELATIONS
4.2 IDEALISED ONE DIMENSIONAL
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Chapter 5 BASIC EQUATIONS OF ELASTICITY
Chapter 6 APPLICATIONS TO SIMPLE PROBLEMS
Chapter 7 TWO DIMENSIONAL ELASTIC FINITE ELEMENT AND PROGRAMMING
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