Analytic methods in geomechanics

Title:

Personal Author:

Chau, Kam-tim.

Publication Information:

Boca Raton, FL : Taylor & Francis, 2012.

Physical Description:

xx, 437 p. : ill. ; 24 cm.

ISBN:

9781466555853

Abstract:

"Bringing together a range of areas including tensor analysis, elasticity, plasticity, fracture mechanics and viscoelasticity, among others, this book is an indispensible guide to the fundamentals of geomechanics. It provides explanations of each subject area, using a step-by-step process with numerous worked examples. The more advanced material, such as 2-D elasticity and application of J-integral to model slipping slopes then supplies a gateway into understanding the latest research results and applying them to practical problems. The book is suitable for undergraduate and graduate students as well as professionals and researchers"-- Provided by publisher.

Subject Term:

Soil mechanics.

Rock mechanics.

SCIENCE / Earth Sciences / General

TECHNOLOGY & ENGINEERING / Civil / General

On Order

Summary

A multidisciplinary field, encompassing both geophysics and civil engineering, geomechanics deals with the deformation and failure process in geomaterials such as soil and rock. Although powerful numerical tools have been developed, analytical solutions still play an important role in solving practical problems in this area. Analytic Methods in Geomechanics provides a much-needed text on mathematical theory in geomechanics, beneficial for readers of varied backgrounds entering this field.

Written for scientists and engineers who have had some exposure to engineering mathematics and strength of materials, the text covers major topics in tensor analysis, 2-D elasticity, and 3-D elasticity, plasticity, fracture mechanics, and viscoelasticity. It also discusses the use of displacement functions in poroelasticity, the basics of wave propagations, and dynamics that are relevant to the modeling of geomaterials. The book presents both the fundamentals and more advanced content for understanding the latest research results and applying them to practical problems in geomechanics.

The author gives concise explanations of each subject area, using a step-by-step process with many worked examples. He strikes a balance between breadth of material and depth of details, and includes recommended reading in each chapter for readers who would like additional technical information. This text is suitable for students at both undergraduate and graduate levels, as well as for professionals and researchers.

Author Notes

Professor K.T. Chau, Ph.D., is the chair professor of geotechnical engineering in the Department of Civil and Environmental Engineering at the Hong Kong Polytechnic University. He obtained his Ph.D. in theoretical and applied mechanics from Northwestern University in Chicago and an executive certificate from the Graduate School of Business of Stanford University. Dr. Chau is a fellow of the Hong Kong Institution of Engineers (HKIE), the chairman of the Elasticity Committee (2009-2012) of the Engineering Mechanics Institute (EMI) of ASCE, and chairman of the TC103 of the ISSMGE. His research interests have included geomechanics and geohazards, including bifurcation and stability theories in geomaterials, rock mechanics, fracture and damage mechanics in brittle rocks3-D elasticity, earthquake engineering and mechanics, landslides and debris flows, tsunami and storm surges, and rockfalls and dynamic impacts, seismic pounding, vulnerability of tall buildings with transfer systems, and shaking table tests. He is the author of more than 100 journal papers and 200 conference publications.