Pile Foundations are an essential basis for many structures. It is vital that they be designed with the utmost reliability, because the cost of failure is potentially huge. Covering a whole range of design issues relating to pile design, this book presents economical and efficient design solutions and demonstrates them using real world examples. Coverage includes nonlinear response of single piles to vertical or torsional loading and to cyclic lateral loading, as well as prediction of nonlinear response of lateral pile groups, vertically loaded pile groups and the design of slope stabilising piles. Most solutions are provided as closed-form expressions.
Theory and Practice of Pile Foundations is:
- illustrated with case studies
- accompanied by practical applications in Excel and MathCad
- the first book to incorporate nonlinear interaction into pile design.
A valuable resource for students of geotechnical engineering taking courses in foundations and a vital tool for engineers designing pile foundations.
Table of Contents
Introduction. Mechanism and Model for Pile-Soil Interaction. Vertically Loaded Single Piles. Time-Dependent Response of Vertically Loaded Single Piles. Design of Rock-socketed (Nonlinear) Piles. Laterally Loaded Elastic Piles. Laterally Loaded Rigid Piles/Piers. Laterally Loaded Free-head Piles. Settlement of Vertically Loaded Pile Groups. Laterally Loaded Pile Groups. Passive Piles. Field and Laboratory Monitoring.
Wei Dong Guo is Senior Lecturer in the School of Engineering, Griffith University, Queensland, Australia