Hydro-Mechanical Properties of an Unsaturated Frictional Material

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248 BIBLIOGRAPHY Davis, J. L. & Annan, A. P. (2002), Ground penetrating radar to measure soil water content, in J. H. Dane & G. C. Topp, eds, ‘Methods of Soil Analysis. Part 4: Physical Methods’, SSSA Book Series No. 5, Soil Science Society of America, Madison, WI, pp. 446–463. Davis, J. L. & Chudobiak, W. J. (1975), ‘In situ meter for mesuring relative permittivity of soils’, Geological Survey of Canada Paper 75-1A, 75–79. Dean, T. J., Bell, J. P. & Bary, A. J. B. (1987), ‘Soil moisture measurement by an improved capacitance technique. Part 1. Sensor design and performance’, Journal of Hydrology 93, 67– 78. Delage, P. (2002), Experimental unsaturated soil mechanics, in J. F. T. Jucá, T. M. P. de Campos & F. A. M. Marinho, eds, ‘3rd International Conferencre on Unsaturated Soils’, Balkema, Recife, Brazil. Desrues, J., Chambon, R., Mokni, M. & Mazerolle, F. (1996), ‘Void ratio evaluation inside shear bands in triaxial sand specimens studued by computer tomography’, Géotechnique 46(3), 529–546. Desrues, J. & Viggiani, G. (2004), ‘Strain localization in sand: an overview of the experimental results obtained in grenoble using stereophotogrammetry’, International Journal for Numerical and Analytical Methods in Geomechanics 28(4), 279–321. Dewitz, K.-D. (1996), ‘Baustoffanalyse mittels computer-tomografie’, Bautenschutz und Bau- sanierung 7, 26–29. Donald, I. B. (1956), Shear strength measurements in unsaturated non-cohesive soils with negative pore pressures, in ‘Proc. 2nd Australia-New Zealand Conf. Soil Mech. Found. Eng.’, Christchurch, New Zealand, pp. 200–205. Duliu, O. G. (1999), ‘Computer axial tomography in geosciences: An overview’, Earth-Science Reviews 48(4), 265–281. Durner, W. (1991), ‘Vorhersage der hydraulischen Leitfähigkeit strukturierter Böden’, Bayreuther Bodenkundliche Berichte 20 pp. 1–180. Durner, W., Schultze, B. & Zurmühl, T. (1999), State-of-the-art in inverse modeling of in- flow/outflow experiments, in M. T. van Genuchten, F. J. Leij & L. Wu, eds, ‘Proc. Int. Workshop on Characterization and Measurement of the Hydraulic Properties of Unsatu- rated Porous Media’, University of California, Riverside, CA., pp. 661–681. Eching, S. O. & Hopmans, J. W. (1993), ‘Optimization of hydraulic functions from transient outflow and soil water pressure data’, Soil Science Society of America Journal 57, 1167– 1175.
BIBLIOGRAPHY 249 Eching, S. O., Hopmans, J. W. & Wendroth, O. (1994), ‘Unsaturated hydraulic conductivity from transient multistep and soil water pressure data’, Soil Science Society of America Journal 58, 687–695. Edlefsen, N. E. & Anderson, A. B. C. (1943), ‘Thermodynamics of soil moisture’, Hilgardia 15, 31–298. Elrick, D., Reynolds, W., Baumgartner, N., Tan, A. & Bradshaw, K. (1987), In situ measurements of hydraulic properties of soils using guelph permeameter and guelph infiltrometer, in ‘Proceedings, 3rd International Workshop on Land Drainage’, Dept. of Agric. Eng., Ohio State Univ., Columbus, OH. Enderby, J. A. (1955), ‘The domain model of hysteresis: 1 independent domains’, Transaction of Faraday Society 51, 835–848. Escario, V. & Juca, J. (1989), Strength and deformation of partly saturated soils, in ‘12th International Conference on Soil Mechancis and Foundation Engineering’, Rio de Janeiro, Vol.3, pp. 43–46. Escario, V. & Saez, J. (1973), Measurement of the properties of swelling and collapsing soils under controlled suction, in ‘3rd International Conference on Expansive Soils’, Haifa, pp. 195–200. Everett, D. H. (1955), ‘A general approach to hysteresis: 4. An alternative formulation of the domain model’, Transaction of Faraday Society 51, 1551–1557. Everett, D. H. (1967), ‘Adsorption hysteresis’, The Solid Gas Interface 2, 1055–1113. Everett, D. H. & Smith, F. W. (1954), ‘A general approach to hysteresis: 2. Development of the domain theory’, Transaction of Faraday Society 50, 187–197. Everett, D. H. & Whitton, W. I. (1952), ‘A general approach to hysteresis: 1’, Transaction of Faraday Society 48, 749–752. Farrell, D. A. & Larson, W. E. (1972), ‘Modeling the pore structure of porous media’, Water Resources Research 8(3), 699–706. Fawcett, R. G. & Collis-George, N. (1967), ‘A filter-paper method for determining the moisture characteristics of soil’, Australian Journal of Experimental Agriculture and Animal Husbandry 7, 162–167. Feng, M. & Fredlund, D. G. (1999), Hysteresis influence associated with thermal conductivity sensor measurements, in ‘Theory to the Practice of Unsaturated Soil Mechanics in Associ- ation with the 52nd Canadian Geotechnical Conference and the Unsaturated Soil Group’, Regina, Sask., pp. 14:2:14–14:2:20.
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Hydro-Mechanical Properties of Part
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Acknowledgement The present dissert
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3.2 Steps of Model Building . . . .
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11 Summary and Outlook 205 11.1 Gen
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2.16 Influence of Brooks and Corey
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6.2 Experimental results of soil-wa
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7.17 Unsaturated hydraulic conducti
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B.6 Experimental results and best f
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8.3 Constitutive parameters for the
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E ref ur Oedometer reference stiffn
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ρ Density (g/cm 3 ) ρd ρs Dry de
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2 CHAPTER 1. INTRODUCTION Figure 1.
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4 CHAPTER 1. INTRODUCTION - Model b
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6 CHAPTER 1. INTRODUCTION
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8 CHAPTER 2. STATE OF THE ART condu
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10 CHAPTER 2. STATE OF THE ART soil
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12 CHAPTER 2. STATE OF THE ART the
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14 CHAPTER 2. STATE OF THE ART Figu
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16 CHAPTER 2. STATE OF THE ART - Su
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18 CHAPTER 2. STATE OF THE ART - Re
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20 CHAPTER 2. STATE OF THE ART Volu
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22 CHAPTER 2. STATE OF THE ART Drai
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24 CHAPTER 2. STATE OF THE ART wher
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26 CHAPTER 2. STATE OF THE ART drai
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28 CHAPTER 2. STATE OF THE ART Tabl
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30 CHAPTER 2. STATE OF THE ART Tabl
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32 CHAPTER 2. STATE OF THE ART by W
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34 CHAPTER 2. STATE OF THE ART proc
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36 CHAPTER 2. STATE OF THE ART - Im
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38 CHAPTER 2. STATE OF THE ART auth
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40 CHAPTER 2. STATE OF THE ART 2.5.
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46 CHAPTER 2. STATE OF THE ART fitt
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48 CHAPTER 2. STATE OF THE ART Satu
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50 CHAPTER 2. STATE OF THE ART when
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52 CHAPTER 2. STATE OF THE ART Degr
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54 CHAPTER 2. STATE OF THE ART 1. T
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56 CHAPTER 2. STATE OF THE ART 0.2
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58 CHAPTER 2. STATE OF THE ART meth
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60 CHAPTER 2. STATE OF THE ART When
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62 CHAPTER 2. STATE OF THE ART Vert
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64 CHAPTER 2. STATE OF THE ART a) S
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66 CHAPTER 2. STATE OF THE ART - Ja
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68 CHAPTER 2. STATE OF THE ART
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70 CHAPTER 3. INTRODUCTION TO PROCE
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76 CHAPTER 4. EXPERIMENTAL SETUPS s
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78 CHAPTER 4. EXPERIMENTAL SETUPS 1
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80 CHAPTER 4. EXPERIMENTAL SETUPS D
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82 CHAPTER 4. EXPERIMENTAL SETUPS d
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84 CHAPTER 4. EXPERIMENTAL SETUPS b
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86 CHAPTER 4. EXPERIMENTAL SETUPS t
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90 CHAPTER 4. EXPERIMENTAL SETUPS D
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94 CHAPTER 4. EXPERIMENTAL SETUPS T
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96 CHAPTER 5. MATERIAL USED AND EXP
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98 CHAPTER 5. MATERIAL USED AND EXP
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100 CHAPTER 5. MATERIAL USED AND EX
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116 CHAPTER 6. EXPERIMENTAL RESULTS
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136 CHAPTER 7. ANALYSIS AND INTERPR
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138 Observed values (-) Observed va
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164 Stiffness modulus (kPa) Stiffne
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172CHAPTER 8. NEW SWCC MODEL FOR SA
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186 CHAPTER 9. NUMERICAL SIMULATION
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CHAPTER 10. BEARING CAPACITY OF A S
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Page 240 and 241: 214 APPENDIX A. DETAILS ZOU’S MOD
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Page 256 and 257: 230 APPENDIX C. COLLAPSE POTENTIAL
Page 258 and 259: 232 Vertical strain (-) Vertical st
Page 260 and 261: 234 APPENDIX E. NEW SWCC MODEL - DE
Page 266 and 267: 240 40 50 30 APPENDIX E. NEW SWCC M
Page 268 and 269: 242 Observed Values Number of obser
Page 270 and 271: 244 BIBLIOGRAPHY Aubertin, M., Mbon
Page 272 and 273: 246 BIBLIOGRAPHY Campbell, J. D. (1
Page 276 and 277: 250 BIBLIOGRAPHY Ferré, P. A. & To
Page 278 and 279: 252 BIBLIOGRAPHY Grozic, J. L. H.,
Page 280 and 281: 254 BIBLIOGRAPHY Janbu, N. (1969),
Page 282 and 283: 256 BIBLIOGRAPHY Lawton, E. C., Fra
Page 284 and 285: 258 BIBLIOGRAPHY Mualem, Y. (1977),
Page 286 and 287: 260 BIBLIOGRAPHY Phene, C. J., Hoff
Page 288 and 289: 262 BIBLIOGRAPHY Rojas, J. C., Sali
Page 290 and 291: 264 BIBLIOGRAPHY Stoimenova, E., Da
Page 292 and 293: 266 BIBLIOGRAPHY Vanapalli, S. K. &
Page 294 and 295: 268 BIBLIOGRAPHY Unsaturated Geotec
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Page 298: Herausgeber: Th. Triantafyllidis 32
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Hydro-Mechanical Properties of an Unsaturated Frictional Material

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