The figure below shows a 24 m thick layer of normally consolidated clay (ϒt = 18.6 kN/m3) that is one-dimensionally loaded by Δσv = 100 kPa. The clay layer is below a 4 m thick layer of granular fill (ϒt = 19.6 kN/m3), and a dense, compacted glacial till underlies the clay. The water table is located at the top of the clay layer. A 1-D consolidation test is performed on a 2.50 cm thick, doubly drained specimen from the middle of the clay layer. When the stress conditions from the field (including Δσv = 100 kPa) are applied to this specimen, it takes 6 min for 90% average consolidation to occur. a. From the lab test data, determine cv for the soil. b. Compute the pore pressure at depth 22 m before and immediately after the 100 kPa stress is applied. c. At depth 22 m, compute the pore pressure 8.5 years after the 100 kPa is applied.

The figure below shows a 24 m thick layer of normally consolidated clay (ϒt = 18.6 kN/m3) that is one-dimensionally loaded by Δσv = 100 kPa. The clay layer is below a 4 m thick layer of granular fill (ϒt = 19.6 kN/m3), and a dense, compacted glacial till underlies the clay. The water table is located at the top of the clay layer. A 1-D consolidation test is performed on a 2.50 cm thick, doubly drained specimen from the middle of the clay layer. When the stress conditions from the field (including Δσv = 100 kPa) are applied to this specimen, it takes 6 min for 90% average consolidation to occur. a. From the lab test data, determine cv for the soil. b. Compute the pore pressure at depth 22 m before and immediately after the 100 kPa stress is applied. c. At depth 22 m, compute the pore pressure 8.5 years after the 100 kPa is applied.

Principles of Foundation Engineering (MindTap Course List)

8th Edition

ISBN:9781305081550

Author:Braja M. Das

Publisher:Braja M. Das

Chapter16: Soil Improvement And Ground Modification

Section: Chapter Questions

Problem 16.12P

See similar textbooks

Similar questions

Q-9: How many days would be required by a clay stratum 5 m thick, draining at both ends with coefficien of consolidation = 50 x 104 cm²/sec to attain 50% of its ultimate settlement? (Given : T50 = 0.197).
Problem 2: The above borrow pit soil has a natural bulk unit weight of 17.5 kN/m² and water content of 8.5%. An embankment is to be constructed using this soil and the specification require the fill to be compacted to 96% of the above proctor compaction. Determine the cost for 50,000 m³ of the embankment considering the following: a) The distance between the borrow pit and the embankment is 55 km b) The cost of transporting 1 m³ of the borrow pit soil to the site is 16 OMR/km. c) The cost of compaction is 8 OMR/m³.
Lacey's scour depth for a stream carrying a discharge of 3 cumecs metre width and having a silt factor of 1.2 is m. S A 26.40 B 2.64 d C 0.264 D 12.64 K
f Example Arectangular Sedimentation bank with an area a 200m² treats treats a flow of 16.000 m³/day. The water entering the tank Contains a substantial number of clay agglomerates with specific gravity of 1.2 and a diameter of 0.07 mm. what percentage of these Particals will be removed in the sedimentation tank ? and P= loookg/m M = 1·002 × 10³ kg/m.s 19 3
Elev. 38 m Reservoir Elev. 30 m (Not to scale) FIGURE P2.8 Levee Sand seam 200 m Ditch Elev. 28 m
Calculate the value of actual seepage velocity at point C if the length of flow path at C is 2 m and void ratio of soil is 0.6. Take permeability constant equal to 0.005 cm/min. 5.00 m Sheet piling 9.00 m 1-00m 12.00 m G00m
ONLY B PART NEEDED. For Horton Equation, k=0.4 and surface accumulation (S) will be assumed to be zero.
A settlement analysis carried out for a proposed structure indicates that 9cm of settlement will occur in 5 years and the final settlement will be 45 cm based on doubled drainage condition. A detailed site investigation indicates that only single drainage exists. Estimate the settlement at the end of 5 years for the changed condition. Use T, = (1/4)U². V
SITUATION 3 For constructing an embankment, the soil is transported from a borrow pit area using a truck which can carry seven cubic meters of soil at a time. Property Borrow Area Truck Compacted Field Bulk Density (g/cc) 1.652 1.145 1.815 Water Content (8) 8.12 6.03 14.11 Determine the quantity of soil to be excavated from the borrow pit, in ft³ for a compacted earth fill of 120 m³. 8. 9. Compute for the number of truck loads of soil required to obtain 102 m3 of compacted fill.
A concrete dam retains water to a height of 9 m. It has rows of sheet piling at both heeland toe which extend half way down to an impervious stratum. From a flow net sketchedon a transformed section, it is found that there are four flow channels and sixteen headdrops. The average horizontal and vertical permeabilities of the soil are 6 × 10^–3 mm/sand 2 × 10^–3 mm/s, respectively. What is the seepage in cubic meter per day, if the lengthof the dam is 150 meters?
An earth dam is built on an impervious foundation with a horizontal filter at the base near the toe. The permeability of the soil in the horizontal and vertical directions are 3.2 x 10^-2 and 1.5 x 10^-2 mm/sec respectively. The full reservoir level is 30 m above the filter. A flow net constructed for the transformed section of the dam, consist of 5 flow channels and 13 potential drops. Estimate the seepage loss in m^3/s/m. a.3.692 x 10^-4 b.1.731 x 10^-4 c.2.527 x 10^-4 d.5.456 x 10^-4
Q2/ For proposed Earth Dam fill, the soil will be compact to (95%) of standard proctor dry density. The test of borrow area indicate that (ydmax. = 18 kN/m²) at optimum moisture content (11%). The soil of borrow area at natural condition has (e = 0.65) and (Gs 2.68). Determine the minimum volume ofborrow required to make (600,000 m³ ) of acceptable compacted fill. %3| %3D