Finite Element Analysis in Geotechnical Engineering : Theory and Application (2 Vol. Set)

Title: Finite Element Analysis in Geotechnical Engineering : Theory and Application (2 Vol. Set)
Author: David M Potts, Lidija Zdravkovic
ISBN: 0727728121 / 9780727728128
Format: Hard Cover
Pages: 500
Publisher: Thomas Telford
Year: 2001
Availability: Out of Stock

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This comprehensive new two-volume work provides the reader with a detailed insight into the use of the finite element method in geotechnical engineering. As specialist knowledge required to perform geotechnical finite element analysis is not normally part of a single engineering degree course, this lucid work will prove invaluable. It brings together essential information presented in a manner understandable to most engineers.

Volume 1 presents the theory, assumptions and approximations involved in finite element analysis while Volume 2 concentrates on its practical applications to real geotechnical problems. The theory explored in the first volume is referred to in the case studies of the second volume to provide a holistic impression of finite element analysis as it is applied in geotechncial engineering. Using practical examples, the second volume illustrates the restrictions, pitfalls, advantages and disadvantages of numerical analysis. The authors examine popular constitutive models, numerical techniques and case studies.

Together, both volumes aim to provide the reader with sufficient knowledge to judge the credibility of the numerical results that the reader may obtain, or review, in the future. Finite element analysis in geotechnical engineering: theory and application will be essential reading for practising geotechnical and structural engineers and researchers, particularly users of commercial finite element software, both in industry and in academia. Students performing project work at undergraduate and postgraduate level will also find this book invaluable.

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Finite Element Analysis in Geotechnical Engineering, Volume 1 : Theory

Chapter 1 :
Geotechnical Analysis
Chapter 2 : Finite Element Theory for Linear Materials
Chapter 3 : Geotechnical Considerations
Chapter 4 : Real Soil Behaviour
Chapter 5 : Elastic Constitutive Models
Chapter 6 : Elasto-Plastic Behaviour
Chapter 7 : Simple Elasto-Plastic Constitutive Models
Chapter 8 : Advanced Constitutive Models
Chapter 9 : Finite Element Theory for Non-Linear Materials
Chapter 10 : Seepage and Consolidation
Chapter 11 : 3D Finite Element Analysis
Chapter 12 : Fourier Series Aided Finite Element Method (FSAFEM)

References

Finite Element Analysis in Geotechnical Engineering, Volume 2 : Application

Chapter 14 :
Obtaining Geotechnical Parameters
Chapter 15 : Tunnels
Chapter 16 : Earth Retaining Structures
Chapter 17 : Cut Slopes
Chapter 18 : Embankments
Chapter 19 : Shallow Foundations
Chapter 20 : Deep Foundations
Chapter 21 : Benchmarking
Chapter 22 : Restrictions and Pitfalls

References