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Product details

Disturbed Soil Properties and Geotechnical Design, Second Edition

Andrew Schofield and Stuart Haigh

Price: £ 75.00

ISBN: 9780727761552
Format: Hardbound
Publish Date: 22/11/2017
Publisher: ICE Publishing
Page Size: 234x156m
Number of Pages: 208

Disturbed Soil Properties and Geotechnical Design, Second Edition


Read ICE President Professor Lord Robert Mair's foreword to the second edition of Disturbed Soil Properties


Disturbed Soil Properties and Geotechnical Design, Second edition describes the developments leading to the Original Cam Clay model, focusing on fundamentals of the shearing of soil. The first edition explained and illustrated fallacies in past work of engineering geologists, and laid groundwork for the understanding that should form the basis of modern geotechnical design.

With the changing environment, and the increasing size of construction projects, engineers now need a better understanding of ground behaviour to prevent future catastrophes such as the 1976 Teton Dam failure shown on the cover. The further additions in this book will help geotechnical engineers acquire this knowledge.

Disturbed Soil Properties and Geotechnical Design, Second edition:

• provides an outline of the energy-based Cam-clay approach that can predict geotechnical deformations

• illustrates further fallacies in commonly used c-φ Coulomb soil mechanics

• describes the use of centrifuge modelling in geotechnical design, based on examples from the last four decades

Once armed with the simple concepts of wet/weepy and dry/thirsty sides of the critical state line, readers will better understand if soil will tend to contract or dilate in drained shearing, and if pore pressures caused by undrained shearing will be positive or negative

Full of technical and personal insights, this is a rewarding book that forces the rethinking of modern geotechnical engineering. Much like the first edition, this book remains an invitation for the unconverted to re-examine the basic understanding of soil behaviour, and for the converted to ensure that the teaching, vocabulary and nomenclature used in describing strength models for soil, accurately reflect the underlying concepts.


1. Slip plane properties
• Maps of soil behaviour
• Masonry in Coulomb's Essay
• Marshal Vauban's fortress wall
• Soul properties in Coulomb’s Essay
• Coulomb’s law

2. Interlocking, critical states (CS) and liquefaction
• An interlocking soil strength component
• Frictional dissipation of energy and the CS
• Reynolds’ dilatancy and Hazen’s liquefied soil
• Hazen’s liquefaction and Casagrande
• Herrick’s liquefaction
• Failure at low effective stress

3. Soil classification and strength
• Casagrande’s soil classification and soil plasticity
• Hvorslev’s clay strength data and the CS line of clay
• CS interpretation of Hvorslev’s shear box data

4. Limitation stress states and CS
• Strain circle, soil stiffness and strength
• Rankine’s soil mechanics
• Skempton’s parameters A and B, and CS values of c and ∅

5. Plasticity and original Cam Clay (OCC)
• Baker’s plastic design of steel frame structures
• The associated flow rule and Drucker’s stability criterion
• Thurairajah’s power dissipation function
• The OCC yield locus
• Test data, model modification and OCC teaching
• Laboratory testing and geotechnical design

6. Geotechnical plastic design
• The place of plastic analysis in design
• Lessons from the geotechnical centrifuge
• Herrick’s liquefaction in models
• Geotechnical centrifuge developments
• Conclusions

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