an engineering geological characterisation of tropical clays - GBV

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186 Red soils; plasticity index/ linear shrinkage 23 22 n = 8 Plasticity index PI (%) 21 20 19 18 17 PI = 1,90LS PI = 1,77LS PI = 1,83LS Rd1+Rd2 Rd1 Rd2 Linear (Rd1+Rd2) Linear (Rd1) Linear (Rd2) 16 15 9,8 10 10,2 10,4 10,6 10,8 11 11,2 Linear shrinkage LS (%) Figure 10.3. Correlation between laboratory measured values of plasticity index and linear shrinkage of red soils. A correlation of laboratory measured plasticity indices (PImeas.) with plasticity indices derived by calculation (PIBS &PILS) using the British Standard relationship as well as the new relationship in Equation (10.11) developed in this study for the red soils, is presented diagrammatically in Fig.( 10.4). Once again, laboratory measured plasticity indices would be slightly underestimated when derived from the British Standard relationship, i.e. PImeas. = 0,86PIBS. (10.12) On the other hand, the newly developed relationship (PI = 1,83LS) would perfectly reproduce and/ or better estimate actual measured plasticity indices, with the measured and calculated values being related in the form of PImeas. = 1,00PILS (10.13)
187 Red clays; measured/ calculated plasticity index 23 22 n = 8 Measured plasticitx index (%) 21 20 19 18 17 16 PImeas. = 1,00PILS PImeas. = 0,86PIBS PI(BS) vs PI meas. PI (LS) vs PI meas. 15 15 17 19 21 23 25 Calculated plasticity index (%) Figure 10.4. A correlation of calculated and laboratory measured plasticity indices of red soils. 10.2 Liquid limit and plasticity index The plasticity index of black clays and red soils involved in this study could be estimated by calculation from laboratory determined results of liquid limit using the British Standard relationship PI =0,73(LL-20) (10.14) through which they are very strongly interrelated, i.e.R = 1 (Fig. 10.5). A correlation of laboratory determined values of plasticity index and liquid limit have also given rise to a new and strong (R = 0,96) relationship, i.e. PI = 0,79(LL-25) (10.15) Diagram: plasticity index/ liquid limit Plasticity index PI (%) 60 50 40 30 20 10 0 n = 90 PIBS = 0,73(LL - 20) R 2 = 1 PI = 0,79(LL - 25) R 2 = 0,92 40 60 80 100 Liquid limit LL (%) PI British Std Black+red soils Fig. 10.5. Correlation: laboratory measured values of plasticity index and liquid limit of black clays and red soils.
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AN ENGINEERING GEOLOGICAL CHARACTER
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i Contents Page Acknowledgements Su
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iii Chapter 8. Distribution of inde
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v 7.29 - 7.33 Correlation between s
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vii 136 139 7.13 Compressibility cl
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ix Acknowledgements I would like to
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1 Chapter 1 Introduction 1.1 Scope
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Figure1.1 Map of Nairobi region sho
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5 Plates 1.2 (a) & (b) Strong shrin
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7 Available literature in the form
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9 slopes. The northern boundary bet
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11 1.6 Climate The Nairobi area and
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13 marked daily range of relative h
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15 Chapter 2 Previous works 2.1 Sum
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17 Table 2.1 Stratigraphic correlat
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19 Chapter 3 Geology 3.1 Introducti
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21 metamorphic minerals sillimanite
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25 and prismatic apatite occur as a
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27 Table 3.2 Chemical analyses of s
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29 caused by partial segregation of
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32 could otherwise lead to erroneou
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34 The red soils in this study occu
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36 17 16 15 14 13 12 11 10 9 8 7 6
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38 4.4 Vane test 4.4.1 Introduction
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40 Table 4.1 Classification of soft
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42 The variation of vane shear stre
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44 And thirdly, the field vane appa
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46 horizon, most probably a result
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49 The red friable clays on the who
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51 Results of chemical analyses of
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53 Results of previous soil classif
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55 neighbouring metamorphic areas a
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57 Table 5.10. Profile description
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59 The presence of BaO in the red a
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61 resulted most probably from supp
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63 800 Impulse 700 600 500 SC 17 -5
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65 sericite and chlorite (see next
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67 Q: Quartz (1%) H: Haematite K: K
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69 Plate 6.3. K-feldspar phenocryst
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71 The trachytes generally show a r
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73 Plate 6.16. Organic matter (rema
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75 Plate 6.24. Solution pores/ cavi
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77 Plate 6.29. Iron concretion with
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79 The CS-225 is a micro-processor
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81 The red soils generally exhibit
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83 Chapter 7 Laboratory soils index
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85 According to Johnson and Degraff
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87 Table 7.2. Results of index test
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89 Plate 7.2a. Apparatus for liquid
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91 Activity chart Plasticity index
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93 Table 7.3 (continued). Atterberg
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95 where 7.1.4.4 Results V = volume
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97 A standard classification of soi
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99 Table 7.6. Viscosity and density
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101 Table 7.7, continued. Results o
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103
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105 Plate 7.7a. Shear testing showi
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107 Shear stress / Displacement Cur
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109 Table 7.10. Distribution and/ o
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111 illustrated in Figures 7.6, 7.7
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113 Black clays Cohesion c´ (kN/m
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115 7.4 Oedometer consolidation tes
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117 The compound coefficient, K/ρw
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119 Primary consolidation is a time
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121 where w (%) = moisture content
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123 Relationships between values of
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125 Plate 7.8. Oedometer consolidat
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127 Cumulative log-time/settlement
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129 Ranges of values of coefficient
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131 is most probably due to the ten
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133 The results of correlation show
Page 147 and 148: 135 by differences in lithology, mi
Page 149 and 150: 137 Black clays and red soils Swell
Page 151 and 152: 139 Testing procedure involved cutt
Page 153 and 154: 141 Black clays Swelling pressure S
Page 155 and 156: 143 Black clays: P (kPa) vs S (%) P
Page 157 and 158: 145 The same relationship is repres
Page 159 and 160: 147 Alternatively, percentage swell
Page 161 and 162: 149 Combined sample results: S % vs
Page 163 and 164: 151 Black clays: Greek method P% =
Page 165 and 166: 153 partly produced by effects of w
Page 167 and 168: 155 Chapter 8 Distribution of index
Page 169 and 170: 157 the study area, respectively. R
Page 171 and 172: 159 Liquid limit variation; 0,50m a
Page 173 and 174: 161 Liquid limit (LL) variation (>
Page 175 and 176: 163 (8.6). The few isolated patches
Page 177 and 178: 165 Similarly, soil thicknesses of
Page 179 and 180: 167 Free swell variation; 0,50m dep
Page 181 and 182: 169 fraction at the two depth inter
Page 183 and 184: 171 Variation of fines (%), < 0,50m
Page 185 and 186: 173 %coarse % coarse fraction varia
Page 187 and 188: 175 1°19´S 22 Shear angle variati
Page 189 and 190: 177 9.2 Grain size distribution The
Page 191 and 192: 179 rapid dissipation of pore water
Page 193 and 194: Chapter 10 181 Correlation of index
Page 195 and 196: 183 Black clays; plasticity index/
Page 197: 185 On the other hand, laboratory m
Page 201 and 202: 189 These two relationships could b
Page 203 and 204: 191 Diagram: PImeasured/ PIcalculat
Page 205 and 206: 193 Table 10.5, continued. Calculat
Page 207 and 208: 195 Table 10.6. Calculated and labo
Page 209 and 210: 197 The swelling capability in term
Page 211 and 212: 199 Free swell/ clay fraction Free
Page 213 and 214: 201 There has also been a decrease
Page 215 and 216: 203 PI = 1,88*LS A comparison of pl
Page 217 and 218: 205 cc = 0,0099(122-LL) for black c
Page 219 and 220: 207 Chapter 12 Recommendations Anal
Page 221 and 222: 209 cc = 0,0099(122-LL) for black c
Page 223 and 224: 211 References Abebe, S. T., 2002.
Page 225 and 226: 213 Galster, R.W., 1977. A system o
Page 227 and 228: 215 Mitchell, J.K., 1993. Fundament
Page 229 and 230: 217 ------,1964. Long term stabilit
Page 231 and 232: Appendix A: Oedometer consolidation
Page 233 and 234: Table A7. Consolidation parameters
Page 235 and 236: Results of swelling tests on black
Page 237 and 238: Appendix D Distribution/ variation
Page 239 and 240: 4000 3000 2000 Distance (m) 1000 We
Page 241 and 242: 4000 3000 2000 1000 Distance (m) We
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4000 3000 2000 Distance (m) 1000 We
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4000 3000 2000 Distance (m) 1000 We
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4000 3000 2000 Distance (m) 1000 We
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4000 3000 2000 Distance (m) 1000 We
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4000 3000 2000 Distance (m) 1000 We
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Appendix E Geotechnical soil map of
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