Shallow Foundations

Introduction
Shallow Foundations-General
Types of Failure in Soil at Ultimate Load
Settlement at Ultimate Load
Ultimate and Allowable Bearing Capacities
Ultimate Bearing Capacity Theories-Centric Vertical Loading
Introduction
Terzaghi's Bearing Capacity Theory
Terzaghi's Bearing Capacity Theory for Local Shear Failure
Meyerhof's Bearing Capacity Theory
General Discussion on the Relationships of Bearing Capacity Factors
Other Bearing Capacity Theories
Scale Effects on Bearing Capacity
Effect of Water Table
General Bearing Capacity Equation
Effect of Soil Compressibility
Bearing Capacity of Foundations on Anisotropic Soil
Allowable Bearing Capacity with Respect to Failure
Interference of Continuous Foundations in Granular Soil
Ultimate Bearing Capacity Under Inclined and Eccentric Loads
Introduction
Foundations Subjected to Inclined Load
Meyerhof's Theory (Continuous Foundation)
General Bearing Capacity Equation
Other Results for foundations with Centric Inclined Load
Continuous Foundation with Eccentric Load
Ultimate Load on Rectangular Foundations
Special Cases of Shallow Foundations
Introduction
Foundation Supported by a Soil with a Rigid Rough Base at a Limited Depth
Foundation on Layered Saturated Anisotropic Clay (f = 0)
Foundation on Layered c-f Soil-Stronger Soil Underlain by Weaker Soil
Foundation on Layered c-f Soil-Weaker Soil Underlain by Stronger Soil
Continuous Foundation on Weak Clay with a Granular Trench
Shallow Foundations Above a Void
Foundations on a Slope
Foundations on Top of a Slope
Settlement and Allowable Bearing Capacity
Introduction
Stress Increase in Soil Due to Applies Load
Elastic Settlement
Flexible and Rigid Foundations
Settlement Under a Circular Area
Settlement Under a Rectangular Area
Effect of a Rigid Base at a Limited Depth
Effect of Depth of Embedment
Elastic Parameters
Settlement of Foundations on Saturated Clay
Settlement of Foundations on Sand
Field Plate Load Tests
Consolidation Settlement
General Principles of Consolidation Settlement
Relationships for Primary Consolidation Settlement Calculation
Three-Dimensional Effect on Primary Consolidation Settlement
Secondary Consolidation Settlement
Differential Settlement
General Concepts of Differential Settlement
Limiting Values of Differential Settlement Parameters
Dynamic Bearing Capacity and Settlement
Introduction
Effect of Load Velocity on Ultimate Bearing Capacity
Ultimate Bearing Capacity Under Earthquake Loading
Settlement of Foundations on Granular Soil due to Earthquake Loading
Foundation Settlement Due to Cyclic Loading-Granular Soil
Foundation Settlement Due to Cyclic Loading in Saturated Clay
Settlement Due to Transient Load on Foundation
Shallow Foundations on Reinforced Soil
Introduction
Foundations on Metallic Strip- Reinforced Granular Soil
Failure Mode
Force in Reinforcement Ties
Factor of Safety Against Tie Breaking and Tie Pullout
Design Procedure for a Continuos Foundation
Foundations on Geotextile-Reinforced Soil
Laboratory Model Test Results
Comment on Geotextile Reinforcement
Foundations on Geogrid-Reinforced Soil
General Parameters
Relationships for Critical Nondimensional Parameters for Foundation on Geogrid-Reinforced Sand
Relationship Between BCRu and BCRs in Sand
Critical Nondimensional Parameters for Foundations on Geogrid-Reinforced Clay (f = 0 condition)
Bearing Capacity Theory
Settlement of foundations of Geogrid-Reinforced Soil Due to Cyclic Loading
Settlement Due to Impact Loading
Uplift Capacity of Shallow Foundations
Introduction
Foundations in Sand
Balla's Theory
Theory of Meyerhof and Adams
Theory of Vesic
Saeedy's Theory
Discussion of Various Theories
Effect of Backfill on Uplift Capacity
Foundations in Saturated Clay (f = o condition:)
Ultimate UpliftCapacity-General
Vesic's Theory
Meyerhof's Theory
Modifications to Meyerhof's Theory
Factor of Safety
Appendix: Conversion Factors
Index