The modelling tools for soils and rocks require more and more specific parameters not always available from the standard or usual survey campaigns, this generally for reasons of delay or costs. The use of correlations to solve the gap between available parameters and the required ones is a common practice. Many of them exist but are spread throughout numerous papers or books. The aim of this formulary is to provide a large synthesis of the existing correlations accumulated by the authors during more than 40 years academic and consulting careers.
Autorentext
Jean-Claude Verbrugge, Université libre de Bruxelles and University of Liège, Belgium.
Christian Schroeder, Université libre de Bruxelles and University of Liège, Belgium.
Inhalt
Acknowledgements xi
Preface xiii
Chapter 1. Physical Parameters 1
1.1. Unit weights and volumes 1
1.2. Soil behavior type index and soil classification index 3
1.3. Consistency or Atterberg limits 3
1.4. Consistency and liquidity indices 4
1.5. Rigidity index 5
1.6. Relative density of sands 5
1.7. Wave velocity 7
1.8. Cation exchange capacity 8
Chapter 2. Identification of Soil Types 11
2.1. From identification tests 11
2.2. From cone soil index IC 12
2.3. From CPT 12
2.4. From PMT 15
2.5. From SPT 17
2.6. From DMT 18
Chapter 3. Hydraulic Parameters 21
3.1. Hydraulic conductivity 21
3.2. Water storage capacity 23
3.2.1. For a free water table 23
3.2.2. For a confined aquifer 24
Chapter 4. Strength Parameters of Saturated and Dry Soils 25
4.1. Undrained shear strength and cohesion 25
4.1.1. From identification tests 25
4.1.2. From laboratory tests 26
4.1.3. From CPT 27
4.1.4. From PMT 28
4.1.5. From SPT 29
4.1.6. From SCPT 29
4.1.7. From DMT 30
4.1.8. From VST 30
4.1.9. Overconsolidated soils 31
4.1.10. Miscellaneous: peats and remolded soils 32
4.2. Effective cohesion 33
4.3. Internal friction angle 33
4.3.1. From identification tests 33
4.3.2. From CPT and CPTu 35
4.3.3. From SCPT 36
4.3.4. From PMT 36
4.3.5. From SPT 37
4.3.6. From DMT 38
4.3.7. Peak, critical state and residual friction angles 39
4.3.8. Influence of intermediate stress 40
4.4. The angle of dilatancy 41
4.5. Sensitivity 42
Chapter 5. Soil Deformations 43
5.1. Compression and swelling 43
5.1.1. Compression index 43
5.1.2. Constants of compressibility 47
5.1.3. Swelling index 48
5.2. Soil moduli 48
5.2.1. From CPT 49
5.2.2. From DMT 51
5.2.3. From SPT 52
5.2.4. From CBR 53
5.2.5. Influence of loading rate 54
5.3. Small strain modulus 54
5.4. Poisson's ratio 58
5.5. Modulus of subgrade reaction 59
5.6. Resilient modulus 60
5.7. Collapse and expansion 60
Chapter 6. Soil State Parameters 63
6.1. Preconsolidation pressure 63
6.2. Overconsolidation ratio 66
Chapter 7. Consolidation 69
7.1. Primary consolidation coefficient 69
7.2. Secondary consolidation coefficient 70
7.3. Consolidation of peats 71
7.4. Degree of consolidation 72
Chapter 8. Coefficient of Earth Pressure at Rest 73
Chapter 9. Soil Compaction Tests 77
9.1. Proctor tests 77
9.1.1. Standard Proctor test 77
9.1.2. Modified Proctor test 78
9.2. CBR 79
Chapter 10. Unsaturated Soils 81
10.1. Suction 81
10.2. Bishop's coefficient 83
10.3. Quasi-saturated domain 84
10.4. tress dependency of suction 84
10.5. Drying path of quasi-saturated soils 85
10.6. Capillary or apparent cohesion 86
10.7. Estimation of porosity and degree of saturation from compression wave velocity 87
Chapter 11. Cross Relations between In Situ Test Parameters 89
11.1. CPT 89
11.1.1. Correction factors and correlations between different CPT tests or parameters 89
11.1.2. CPT and DPT 91
11.1.3. CPT and PMT 92
11.1.4. CPT and DMT 93
11.1.5. CPT and SPT 94
11.2. MT 97
11.2.1. MT and DPT 97
11....