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Now in its eighth edition, this bestselling text continues to blend clarity of explanation with depth of coverage to present students with the fundamental principles of soil mechanics. From the foundations of the subject through to its application in practice, Craig‘s Soil Mechanics provides an indispensable companion to undergraduate courses and b
This seventh edition of Soil Mechanics, widely praised for its clarity, depth of explanation and extensive coverage, presents the fundamental principles of soil mechanics and illustrates how they are applied in practical situations. Worked examples throughout the book reinforce the explanations and a range of problems for the reader to solve provide further learning opportunities.
This book contains technical papers, presented in a discussion session at the XI International Conference on Soil Mechanics and Foundation Engineering held in San Francisco in 1985, on the role of centrifuge in geotechnical testing, with descriptions of test facilities.
Now in its eighth edition, this bestselling text continues to blend clarity of explanation with depth of coverage to present students with the fundamental principles of soil mechanics. From the foundations of the subject through to its application in practice, Craig’s Soil Mechanics provides an indispensable companion to undergraduate courses and beyond. New to this edition: Rewritten throughout in line with Eurocode 7, with reference to other international standards Restructured into two major sections dealing with the basic concepts and theories in soil mechanics and the application of these concepts within geotechnical engineering design New topics include limit analysis techniques, in-situ testing, and foundation systems Additional material on seepage, soil stiffness, the critical state concept, and foundation design Enhanced pedagogy including a comprehensive glossary, learning outcomes, summaries, and visual examples of real-life engineering equipment Also new to this edition is an extensive companion website comprising innovative spreadsheet tools for tackling complex problems, digital datasets to accompany worked examples and problems, a password-protected solutions manual for lecturers covering the end-of-chapter problems, weblinks, extended case studies, and more.
This book is a short yet rigorous course on a new paradigm in soil mechanics, one that holds that soil deformation occurs as a simple friction-based Poisson process in which soil particles move to their final position at random shear strains. It originates from work by Casagrande’s soil mechanics group at Harvard University that found that an aggregate of soil particles when sheared reaches a "steady-state" condition, a finding in line with the thermodynamics of dissipative systems. The book unpacks this new paradigm as it applies to soils. The theory explains fundamental, ubiquitous soil behaviors and relationships used in soils engineering daily thousands of times across the world, but whose material bases so far have been unknown. These include for example, why for one-dimensional consolidation, the e-log σ line is linear, and why Cα/Cc is a constant for a given soil. The subtext of the book is that with this paradigm, the scientific method of trying to falsify hypotheses fully drives advances in the field, i.e., that soil mechanics now strictly qualifies as a science that, in turn, informs geotechnical engineering. The audience for the book is senior undergraduates, graduate students, academics, and researchers as well as industry professionals, particularly geotechnical engineers. It will also be useful to structural engineers, highway engineers, military engineers, persons in the construction industry, as well as planetary scientists. Because its fundamental findings hold for any mass of particles like soils, the theory applies not just to soils, but also to powders, grains etc. so long as these are under pseudo-static (no inertial effects) conditions.
Discover the principles that support the practice! With its simplicity in presentation, this text makes the difficult concepts of soil mechanics and foundations much easier to understand. The author explains basic concepts and fundamental principles in the context of basic mechanics, physics, and mathematics. From Practical Situations and Essential Points to Practical Examples, this text is packed with helpful hints and examples that make the material crystal clear.
Michael R Lindeburg PE’s FE Civil Practice offers comprehensive practice for the NCEES FE Civil exam. This book is part of an integrated review program designed to help you pass the FE exam the first time. This book features over 460 three-minute, multiple-choice, exam-like practice problems to illustrate the type of problems you will encounter during the exam. It also features clear, complete, and easy-to-follow solutions to deepen your understanding of all knowledge areas covered on the exam. Additionally, there are step-by-step calculations using equations and nomenclature from the NCEES FE Reference Handbook to familiarize you with the only reference you will have on exam day. For best results, purchase this book along with the FE Civil Review. Civil Engineering Topics Covered Mathematics Probability and Statistics Fluid Mechanics Hydraulics and Hydrologic Systems Environmental Engineering Geotechnical Engineering Statics Dynamics Mechanics of Materials Materials Structural Design Transportation and Surveying Construction Computational Tools Engineering Economics Ethics and Professional Practice Key Features: Over 460 three-minute, multiple-choice, exam-like practice problems. Clear, complete, and easy-to-follow solutions. Step-by-step calculations using equations and nomenclature from the NCEES FE Reference Handbook. Binding: Paperback About the Publisher: PPI, A Kaplan Company has been trusted by engineering exam candidates since 1975.
This core undergraduate textbook for civil engineers is the first to cover the fundamental changes in the ethos of geotechnical design advocated in the now published Eurocode 7. This code will be fully adopted across Europe by 2010 and its implementation will mean a radical shift to limit state design. Ian Smith makes understanding this new approach to geotechnical design less daunting to the student with clear explanatory text, detailed illustrations and several worked examples, covering a range of topics including slope stability, retaining walls and shallow and deep foundations. Downloadable spreadsheets help to illustrate how the new Eurocode is applied and the book’s website also gives the worked solutions to self-test questions at the end of each chapter. Now in its 8th edition, this well-established textbook has been updated and re-designed with improved page layout and illustrations making it the essential user-friendly introduction to soil mechanics and geotechnical design to Eurocode 7. To see the author's webpage go to: http://sbe.napier.ac.uk/esm/
The second edition of this well established book has been comprehensively updated in line with recent developments. After presenting the fundamentals of stress and strain, and their graphical representation, the book includes chapters on failure states in soils and rocks, observed and elastic paths, and the use of discontinuities. New sections include shear bands and small strain behaviour, as well as the use of elastic shear modular stress calculations and discontinuities in plasticity calculations. Expanded coverage is also given to dilitancy of soils and roughness of rock joints.