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Full Description
Advanced Foundation Engineering introduces an excellent source of information on the fundamental concepts, advanced principles and application of foundation analysis and design for civil engineering audience. The comprehensive review of all the theories required for practice of foundation engineering has been presented in this book. The book includes topics like Soil Exploration, Shallow Foundation, Design and Analysis of Mat foundation, Earth Pressure, Sheet Pile Wall, Braced Cuts, Drilled Piers and Caissons, Pile Foundation, Machine Foundations, Geotextiles Reinforced Earth and Ground Anchors. The case studies have been included with chapters for better understanding of topics.Key Features:* Provides full coverage of theories of foundation engineering along with theoretical and practical oriented approach of design* Design aspects which covers some ground improvement methodologies like Geocell foundation etc. has also been presented* Individual chapters on advanced wave-interaction consideration for foundations of offshore structures, structural design of foundation, foundation on problematic soil, earthquake effect on foundation system and ground improvement techniques* Case studies, practical examples including design and analysis of MAT foundation using latest design software* Practical and theoretical approach of foundation design with examples using latest software
Contents
IntroductionFoundation Engineering: Importance and DevelopmentsFoundation ClassificationsFoundation: General Requirements1.4 The ContentGeotechnical Properties of SoilIntroductionSoil Mass as a Three-Phase and Two-Phase SystemBasic Terminology and Interrelationships Index Properties of SoilConsolidation and SettlementShear StrengthStress distribution in SoilsStress pathsSoil ExplorationIntroductionPlanning Soil ExplorationBoring of HolesSampling of SoilsStandard Penetration Test (SPT)Cone Penetration TestCorrelation between SPT and CPTVane Shear TestPressuremeter TestDilatometerGeophysical ExplorationGeotechnical ReportShallow FoundationsIntroductionUltimate Bearing Capacity of Axially Loaded Continuous FootingBearing capacity of footings on Layered SoilsEccentric and Inclined loadingBearing Capacity of Footings on SlopesFoundation SettlementDesign of Axially Loaded Shallow Foundations on SandTypes of Bearing Capacity FailureCombined Footing and RaftIntroductionMat Foundations Design of Footings Floating Foundation Approximate Design of Raft Foundations Design and Analysis of Mat FoundationsIntroductionSettlement of Mat FoundationsBearing Capacity Of Mat FoundationsTypes Of Mat FoundationsStructural Design Of Mat Foundations FEM Analysis Of Mat FoundationsDetermination Of Modulus Of Subgrade ReactionEvaluation of Influence Area for Different Type of Elements and Assignment of Modulus of Subgrade Reaction in SAFELimitations Of SafeCase study 2 : Transcona grain elevatorConclusions7. Earth Pressure 7.1 Introduction7.2 Design of Retaining Walls7.3 Coulomb's Wedge Theory7.4 Graphical Method for Active Earth Pressure of Cohesionless Soil by Rebhann7.5 Culmann's Graphical Method for Active Earth Pressure of Cohesionless Soil 7.6 Design of Gravity Retaining Wall8. Sheet Pile Wall8.1 Introduction8.2 Cantilever Sheet Pile Wall8.3 Anchored Bulkhead8.4 Lateral Earth Pressures on Braced Sheeting9. Braced Cuts9.1 General Considerations: Introduction9.2 Design of Bracing System9.3 Design of Components of Bracing System10.Pile Foundation10.1 Pile Foundation10.2 Classification of Piles10.3 Load Carrying Capacity of Piles10.4 Negative Skin Friction10.5 Under-Reamed Piles10.6 Group Action of Piles10.7 Eccentric and inclined loads on pile groups10.8 Laterally Loaded piles10.9 Piles on a Rocky Bed11. Drilled Piers and Caissons11.1 Introduction11.2 Classification of Drilled Piers11.3 Merits and Demerits of Drilled Pier Foundations11.4 Design of Drilled Piers11.5 Load Transfer Mechanism11.6 Vertical Bearing Capacity of Drilled Piers11.7 Effective Length of Drilled Piers (O'Neill and Reese, 1999; Drilled Shafts: Construction Procedures and Design Methods; Report No. FHWA-IF-99-025, Federal Highway Administration Office of Infrastructure/Office of Bridge Technology, HIBT, Washington DC)11.8 Calculation of Base Resistance 11.9 Calculation of Skin Friction Resistance 11.10 Calculation of Settlement11.11 Lateral Bearing Capacity of Drilled Piers11.12 Types of Caissons11.13 Different shapes of well11.14 Analysis of Well Foundation 12. Machine Foundations12.1 Introduction12.2 Classification of Machine Foundations12.3 Basic Definitions12.4 Simple Harmonic Motion12.5 Fundamentals of Vibration12.6 Vibration Modes12.7 Free Vibrations12.8 Forced vibrations12.9 Vibration Analysis of Machine Foundations13. Geotextiles, Reinforced Earth and Ground Anchors13.1 Introduction13.2 Types of Geosynthetics13.3 General Considerations for Reinforced Earth Retaining Walls13.4 Design with Geogrid layers13.5 External Stability13.6 Reinforced soil beds13.7 Design of geocell foundations14. Foundation on Problematic Soil14.1 Introduction14.2 Types of problematic soil 14.3 Sanitary Landfill 14.4 Foundation on void15. GROUND IMPROVEMENT TECHNIQUES15.1 Introduction15.2 Desirable and Undesirable properties of Soil15.3 Principles of Ground Improvement15.4 Techniques of ground improvement for cohesive soil and cohesion less soil15.5 Structures constructed using ground improvement techniques
