Foundation engineers are often challenged by the existence of soft compress- ible soils at the construction site. Figure shows a soil profile with a silty sand (y = 17 kN/m³; Ysat = 19.2 kN/m³) underlain by high plasticity clay (Ysal = 18.8 kN/m³) and a peat layer (Ysat = 15 kN/m³), followed by dense sand. To expedite consolidation and minimize future settlement, an additional 1.75-m thick fill material, compacted to a unit weight of 20.1 kN/m³, will be placed on top of the silty sand layer. The plan area of the fill is 8 m x 8 m. The fill load will be left in place for 18 months, after which construction will begin with the fill becoming part of the permanent foundation. Undisturbed samples col- lected from the clay and organic layers had the following properties: Layer's Clay Peat Ce 0.31 7.2 Ca 0.048 0.273 a. Estimate the total consolidation settlement under the action of the fill load. Consider both the clay and peat layers to be normally consolidated. b. Estimate the time for 99% primary consolidation in each layer. Are the layers singly or doubly drained? Explain. T 1.5 m. Silty sand 4 1.5 m. C. Estimate the secondary compression in each layer up to end of 18 months. d. What will be the total settlement after 18 months? e. What is the remaining excess pore water pressure at point A two months after the application of the fill load? 4 m Clay c, (cm²/sec) 0.006 0.029 1.8 m Peat- ↓ Co 1.08 6.4 Fill load (kN/m²) Dense sand 3.2 m ↓↓↓ A Piezometer GWT

Structural Analysis
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Chapter2: Loads On Structures
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Foundation engineers are often challenged by the existence of soft compress-
ible soils at the construction site. Figure shows a soil profile with a silty
=
sand (y = 17 kN/m³; Ysat = 19.2 kN/m³) underlain by high plasticity clay
(Ysat 18.8 kN/m³) and a peat layer (Ysat = 15 kN/m³), followed by dense sand.
To expedite consolidation and minimize future settlement, an additional 1.75-m
thick fill material, compacted to a unit weight of 20.1 kN/m³, will be placed on
top of the silty sand layer. The plan area of the fill is 8 m x 8 m. The fill load
will be left in place for 18 months, after which construction will begin with the
fill becoming part of the permanent foundation. Undisturbed samples col-
lected from the clay and organic layers had the following properties:
Layer
Clay
Peat
Ce
0.31
7.2
Ca
0.048
0.273
a. Estimate the total consolidation settlement under the action of the fill
load. Consider both the clay and peat layers to be normally consolidated.
b. Estimate the time for 99% primary consolidation in each layer. Are the
layers singly or doubly drained? Explain.
T
1.5 m. Silty sand
1.5 m.
C. Estimate the secondary compression in each layer up to end of 18 months.
d. What will be the total settlement after 18 months?
e. What is the remaining excess pore water pressure at point A two months
after the application of the fill load?
4 m Clay
c, (cm²/sec)
0.006
0.029
1.8 m Peat-
↓
Co
1.08
6.4
Fill load (kN/m²)
Dense sand
3.2 m
↓ ↓ ↓
A Piezometer
GWT
Transcribed Image Text:Foundation engineers are often challenged by the existence of soft compress- ible soils at the construction site. Figure shows a soil profile with a silty = sand (y = 17 kN/m³; Ysat = 19.2 kN/m³) underlain by high plasticity clay (Ysat 18.8 kN/m³) and a peat layer (Ysat = 15 kN/m³), followed by dense sand. To expedite consolidation and minimize future settlement, an additional 1.75-m thick fill material, compacted to a unit weight of 20.1 kN/m³, will be placed on top of the silty sand layer. The plan area of the fill is 8 m x 8 m. The fill load will be left in place for 18 months, after which construction will begin with the fill becoming part of the permanent foundation. Undisturbed samples col- lected from the clay and organic layers had the following properties: Layer Clay Peat Ce 0.31 7.2 Ca 0.048 0.273 a. Estimate the total consolidation settlement under the action of the fill load. Consider both the clay and peat layers to be normally consolidated. b. Estimate the time for 99% primary consolidation in each layer. Are the layers singly or doubly drained? Explain. T 1.5 m. Silty sand 1.5 m. C. Estimate the secondary compression in each layer up to end of 18 months. d. What will be the total settlement after 18 months? e. What is the remaining excess pore water pressure at point A two months after the application of the fill load? 4 m Clay c, (cm²/sec) 0.006 0.029 1.8 m Peat- ↓ Co 1.08 6.4 Fill load (kN/m²) Dense sand 3.2 m ↓ ↓ ↓ A Piezometer GWT
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