Fundamentals of Plasticity in Geomechanics

Title: Fundamentals of Plasticity in Geomechanics
Author: S. Pietruszczak
ISBN: 0367577143 / 9780367577148
Format: Soft Cover
Pages: 206
Publisher: CRC Press
Year: 2020
Availability: 2 to 3 weeks

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The book presents a concise, yet reasonably comprehensive, overview of fundamental notions of plasticity in relation to geomechanics. The primary objective of this work is to provide the reader with a general background in soil/rock plasticity and, as such, should be perceived as an introduction to the broad area of inelastic response of geomaterials.

The book is divided into eight chapters. Chapters 1 & 2 start with an outline of the basic concepts and fundamental postulates, followed by a review of the elastic-perfectly plastic formulations in geomechanics. The isotropic strain-hardening framework and isotropic-kinematic hardening rules, thelatter formulated within the context of bounding surface plasticity, are discussed in Chapters 3 & 4. Chapter 5 outlines the basic techniques for numerical integration, whereas Chapter 6 gives an overview of procedures for limit analysis that include applications of lower and upper bound theorems. Both these chapters are introductory in nature and are intended to provide a basic background in the respective areas. Chapter 7 deals with description of inherent anisotropy in geomaterials. Finally, Chapter 8 provides an overview of the experimental response of geomaterials.

The text is intended primarily for Ph.D./M.Sc. students as well as researchers working in the areas of
soil/rock mechanics. It may also be of interest to practicing engineers familiar with established notions of
contemporary continuum mechanics.

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Preface

Chapter 1 : Basic Concepts of The Theory of Plasticity
Chapter 2 : Elastic-Perfectly Plastic Formulations in Geomechanics
Chapter 3 : Isotropic Strain-Hardening Formulations
Chapter 4 : Combined Isotropic-Kinematic Hardening Rules
Chapter 5 : Numerical Integration of Constitutive Relations
Chapter 6 : Introduction to Limit Analysis
Chapter 7 : Description of Inherent Anisotropy in Geomaterials
Chapter 8 : Experimental Trends in The Mechanical Behaviour of Soils and Rocks

Bibliography
Appendix : Suggested Exercises