A Short Course in Soil-Structure Engineering of Deep Foundations, Excavations and Tunnels

Title: A Short Course in Soil-Structure Engineering of Deep Foundations, Excavations and Tunnels
Author: B. Menzies, C.W.W. Ng HKUST, N. Simons
ISBN: 0727732633 / 9780727732637
Format: Hard Cover
Pages: 416
Publisher: Thomas Telford
Year: 2004
Availability: Out of Stock

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The fourth in the highly respected Short Course Series, A Short Course in Soil-structure Engineering of Deep Foundations, Excavations and Tunnels, focuses on the three major geotechnical challenges of static soil-structure interaction problems. Deep foundations – piles, barrettes, Multi-propped deep excavations and Bored and open face tunnels beneath cities.

This book gives both students and practising civil engineers an authoritative review of the state-of-the-art of designing deep foundations, excavations and tunnels. in addition, the case studies and numerical modelling presented will give valuable insights into the challenges of soil-structure engineering.

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Part 1 : Deep Foundations – Piles, Barrettes
Chapter 1 :
Uses and Types of Piles and Pile Groups
Chapter 2 : Vertical Pile Load Transfer Mechanism
Chapter 3 : Failure Load on Piles : Definitions, Interpretation and Criteria
Chapter 4 : Establishment of New Failure Load Criterion For Large-Diameter Bored Piles and Barrettes
Chapter 5 : Analysis, Design and Parameters
Chapter 6 : Dynamic Formulae
Chapter 7 : Design of Rock-Socketed Piles
Chapter 8 : Case Studies : Rock-Socket Piles
Chapter 9 : Pile Instrumentation : A Case Study of A Well-Instrumented Barrette in Kowloon Bay, Hong Kong
Chapter 10 : Case Studies : 15 Full-Scale Loading Tests on Barrettes in Hong Kong
Chapter 11 : Case Studies : Bored Piles in Weathered Materials Hong Kong
Chapter 12 : Settlement Analysis of Piles and Pile Group

Part 2 : Multi-Propped Deep Excavations
Chapter 13 :
Stress Paths in Relation to A Deep Excavation
Chapter 14 : Plastic Geo-Structural Analysis
Chapter 15 : Preliminary Design For Deep Excavations (Short Course Notes)
Chapter 16 : Instrumentation : A Case Study of A Multi-Propped Excavation at Lion Yard, Cambridge
Chapter 17 : Lateral Pressure of Wet Concrete in Diaphragm Walls
Chapter 18 : Stress Transfer and Deformation Mechanisms Around Diaphragm Walls
Chapter 19 : Effects of Modelling Soil Non-Linearity and Wall Installation on Back-Analysis of Deep Excavations in Stiff Clay
Chapter 20 : Comparison of Wall-Installation-Modelled (WIM) and Wished-In-Place (WIP) Analyses With Mohr Coulomb Model
Chapter 21 : Prediction of Ground Movements Due to Diaphragm Wall Installation
Chapter 22 : The Prediction and Control of Displacements Around Deep Excavations in Completely Decomposed Granite

Part 3 : Bored and Open Face Tunnelling Below Cities
Chapter 23 :
Unsupported Tunnels : Theoretical Assessment of The Collapse of Soil Arches
Chapter 24 : Modern Tunnel Construction Techniques
Chapter 25 : Principal Design and Construction Requirements
Chapter 26 : Case Study : The Heathrow Express Trial Tunnel
Chapter 27 : Finite Element Modelling of Multi-Tunnel Interactions and Tunnelling Effects on Adjacent Piles
Chapter 28 : Effect of Ground Movements on Buildings
Chapter 29 : Case Study : Effect of The Jubilee Line Extension on The Big Ben Clock Tower
Chapter 30 : Summary