The 9th edition maintains the content on all soil mechanics subject areas - groundwater flow, soil physical properties, stresses, shear strength, consolidation and settlement, slope stability, retaining walls, shallow and deep foundations, highways, site investigation - but has been expanded to include a detailed explanation of how to use Eurocode 7 for geotechnical design. The key change in this new edition is the expansion of the content covering Geotechnical Design to Eurocode 7. Redundant material relating to the now defunct British Standards - no longer referred to in degree teaching - has been removed. Building on the success of the earlier editions, this 9th edition of Smith's Elements of Soil Mechanics brings additional material on geotechnical design to Eurocode 7 in an understandable format. Many worked examples are included to illustrate the processes for performing design to this European standard. Significant updates throughout the book have been made to reflect other developments in procedures and practices in the construction and site investigation industries. More worked examples and many new figures have been provided throughout. The illustrations have been improved and the new design and layout of the pages give a lift. * unique content to illustrate the use of Eurocode 7 with essential guidance on how to use the now fully published code * clear content and well-organised structure * takes complicated theories and processes and presents them in easy-to-understand formats * book's website offers examples and downloads to further understanding of the use of Eurocode 7 href="http://www.wiley.com/go/smith/soil">www.wiley.com/go/smith/soil



Autorentext

Ian Smith had several years' practical experience of site investigation and geotechnical consultancy before becoming a lecturer in Geotechnical Engineering at Edinburgh Napier University. He is now Head of the School of Engineering and the Built Environment. Widely recognised as an authority on the use of Eurocode 7, he has delivered keynote presentations and CPD courses on geotechnical design to Eurocode 7 in several countries throughout the world.



Klappentext

The 9th edition maintains the content on all soil mechanics subject areas - groundwater flow, soil physical properties, stresses, shear strength, consolidation and settlement, slope stability, retaining walls, shallow and deep foundations, highways, site investigation - but has been expanded to include a detailed explanation of how to use Eurocode 7 for geotechnical design.

The key change in this new edition is the expansion of the content covering Geotechnical Design to Eurocode 7. Redundant material relating to the now defunct British Standards - no longer referred to in degree teaching - has been removed.

Building on the success of the earlier editions, this 9th edition of Smith's Elements of Soil Mechanics brings additional material on geotechnical design to Eurocode 7 in an understandable format. Many worked examples are included to illustrate the processes for performing design to this European standard.

Significant updates throughout the book have been made to reflect other developments in procedures and practices in the construction and site investigation industries. More worked examples and many new figures have been provided throughout. The illustrations have been improved and the new design and layout of the pages give a lift.

  • unique content to illustrate the use of Eurocode 7 with essential guidance on how to use the now fully published code
  • clear content and well-organised structure
  • takes complicated theories and processes and presents them in easy-to-understand formats
  • book's website offers examples and downloads to further understanding of the use of Eurocode 7 www.wiley.com/go/smith/soil


Inhalt

About the Author ix

Preface x

Notation Index xi

About the Companion Website xvi

1 Classification and Physical Properties of Soils 1

1.1 Agricultural and engineering soil 1

1.2 Engineering definitions 2

1.3 Clay soils 4

1.4 Field identification of soils 5

1.5 Laboratory classification of soils 6

1.6 Activity of a clay 14

1.7 Soil classification and description 14

1.8 Soil properties 21

Exercises 30

2 Permeability and Flow of Water in Soils 33

2.1 Subsurface water 33

2.2 Flow of water through soils 35

2.3 Darcy's law of saturated flow 36

2.4 Coefficient of permeability, k 36

2.5 Determination of permeability in the laboratory 36

2.6 Determination of permeability in the field 40

2.7 Approximation of coefficient of permeability 42

2.8 General differential equation of flow 42

2.9 Potential and stream functions 44

2.10 Flow nets 45

2.11 Critical flow conditions 49

2.12 Design of soil filters 51

2.13 Capillarity and unsaturated soils 54

2.14 Earth dams 59

2.15 Seepage through non-uniform soil deposits 62

Exercises 71

3 Total and Effective Stress 74

3.1 State of stress in a soil mass 74

3.2 Total stress 75

3.3 Pore pressure 76

3.4 Effective stress 77

3.5 Stresses induced by applied loads 80

Exercises 89

4 Shear Strength of Soils 91

4.1 Friction 91

4.2 Complex stress 91

4.3 The Mohr circle diagram 92

4.4 Cohesion 96

4.5 Coulomb's law of soil shear strength 96

4.6 Modified Coulomb's law 98

4.7 The Mohr-Coulomb yield theory 98

4.8 Determination of the shear strength parameters 99

4.9 Determination of the shear strength parameters from triaxial testing 106

4.10 The pore pressure coefficients A and B 112

4.11 The triaxial extension test 118

4.12 Behaviour of soils under shear 119

4.13 Operative strengths of soils 122

4.14 The critical state 124

4.15 Sensitivity of clays 129

4.16 Residual strength of soil 130

Exercises 133

5 Eurocode 7 136

5.1 Introduction to the Structural Eurocodes 136

5.2 Introduction to Eurocode 7 138

5.3 Using Eurocode 7: basis of geotechnical design 139

5.4 Geotechnical design by calculation 139

5.5 Ultimate limit states 145

5.6 The EQU limit state 147

5.7 The GEO limit state and design approaches 150

5.8 Serviceability limit states 155

5.9 Geotechnical design report 155

6 Site Investigation 156

6.1 EN 1997-2:2007 - Ground investigation and testing 156

6.2 Planning of ground investigations 157

6.3 Site exploration methods 160

6.4 Soil and rock sampling 164

6.5 Groundwater measurements 170

6.6 Field tests in soil and rock 172

6.7 Geotechnical reports 179

7 Lateral Earth Pressure 183

7.1 Earth pressure at rest 183

7.2 Active and passive earth pressure 183

7.3 Rankine's theory: granular soils, active earth pressure 185

7.4 Rankine's theory: granular soils, passive earth pressure 190

7.5 Rankine's theory: cohesive soils 191

7.6 Coulomb's wedge theory: active earth pressure 195

7.7 Coulomb's wedge theory: passive earth pressure 202

7.8 Surcharges 205

7.9 Choice of method for determination of active pressure 210

7.10 Backfill material 210

7.11 Influence of wall yield on design 215

7.12 Design parameters for different soil types 216

Exercises 219

8 Retaining Structures 221

8.1 Main types of retaining structures 221

8.2 Gravity walls 221

8.3 Embedded walls 224

8.4 Failure modes of retaining st…

Titel
Smith's Elements of Soil Mechanics
EAN
9781118848845
Format
E-Book (epub)
Hersteller
Digitaler Kopierschutz
Adobe-DRM
Dateigrösse
22.88 MB
Anzahl Seiten
488