Elastic Analysis of Soil-Foundation Interaction

PrefaceChapter 1. Introduction to Soil-Foundation Interaction Problems 1.1 Idealized Soil Behaviour 1.2 Foundation Behaviour 1.3 Interface Behaviour 1.4 Analytical Techniques 1.5 Scope of Soil-Foundation Interaction AnalysisChapter 2. Idealized Soil Response Models for the Analysis of Soil-Foundation Interaction 2.1 Elastic Models of Soil Behaviour 2.1.1 The Winkler Model 2.1.2 Elastic Continuum Models 2.1.3 Two-Parameter Elastic Models 2.2 Elastic-Plastic and Time Dependent Behaviour of Soil Masses 2.2.1 Elastic-Plastic Behaviour 2.2.2 Time Dependent BehaviourChapter 3. Plane-Strain Analysis of an Infinite Plate and an Infinitely Long Beam 3.1 Bernoulli-Euler Beam Theory and its Modifications 3.1.1 Effects of Shear Deformations 3.2 Plane-Strain Analysis of the Infinite Plate Problem 3.2.1 Infinite Beam Loaded by a Concentrated Force 3.2.2 Infinite Beam Loaded by a Concentrated Couple 3.3 Reissner's Method of Analysis of the Infinite Plate Problem 3.4 Three-Dimensional Effects in the Infinite Beam Problem 3.4.1 Infinite Beam of Finite Width Resting on a Winkler Medium 3.4.2 Infinite Beam of Finite Width Resting on a Two-Parameter Elastic Medium 3.4.3 Infinite Beam of Finite Width Resting on an Isotropic Elastic Half-Space 3.5 Some Numerical Results for the Infinite Beam ProblemChapter 4. The Analysis of Beams of Finite Length 4.1 Finite Beams on a Winkler Medium 4.1.1 The Method of Initial Parameters 4.1.2 The Method of Superposition 4.1.3 The Strain Energy Method 4.2 Finite Beams on a Two-Parameter Elastic Medium 4.2.1 The Method of Initial Parameters 4.2.2 The Method of Superposition 4.2.3 The Strain Energy Method 4.3 Finite Beams on an Elastic Solid Medium 4.3.1 The Power Series Methods of Borowicka and Gorbunov-Posadov 4.3.2 Zemochkin and Sinitsyn's Method 4.3.3 Ohde's Method 4.3.4 Rigid Strip Problem. Dual Integral Equation Formulation 4.4 Approximate Methods 4.4.1 Reissner's Method 4.4.2 Galin's Method 4.5 Some Numerical Results for the Finite Beam Problem 4.5.1 Finite Beam Resting on a Winkler Medium 4.5.2 Finite Beam on a Two-Parameter Elastic Medium 4.5.3 Finite Beam Resting on a Homogeneous Isotropic Elastic Continuum 4.6 Classification of Finite Beams in Relation to their Stiffness 4.6.1 Classification of Finite Beams Resting on a Winkler Medium in Relation to their Stiffness 4.6.2 Classification of Finite Beams Resting on a Two-Parameter Medium in Relation to their Stiffness 4.6.3 Classification of Finite Beams Resting on an Elastic Solid Medium in Relation to their StiffnessChapter 5. Axisymmetric Three-Dimensional Problem of an Infinite Plate 5.1 The Poisson-Kirchhoff Plate Theory 5.1.1 Boundary Conditions for Thin Elastic Plates 5.1.2 Bending of Circular Plates 5.1.3 Saint-Venant's Principle 5.2 Modifications of the Thin Plate Theory 5.2.1 Thick Plate Theories 5.2.2 Three-Dimensional Elastic Analysis of Plates 5.2.3 Thin Plates with Large Deflections and Membranes 5.3 Axisymmetric Three-Dimensional Problem of the Infinite Plate 5.3.1 Generalized Analysis of the Infinite Plate Problem 5.3.2 Holps Method of Analysis of the Infinite Plate Problem 5.3.3 Application of Integral Transform Techniques for the Solution of the Infinite Plate Problem 5.4 Some Salient Results for the Infinite Plate Problem 5.4.1 Infinite Plate Resting on a Winkler Medium 5.4.2 Infinite Plate Resting on a Two-Parameter Elastic Medium 5.4.3 Infinite Plate Resting on an Isotropic Elastic Solid MediumChapter 6. Analysis of Finite Plates 6.