Fundamentals of Geotechnical Engineering (MindTap Course List)
5th Edition
ISBN: 9781305635180
Author: Braja M. Das, Nagaratnam Sivakugan
Publisher: Cengage Learning
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Question
Chapter 5, Problem 5.1P
(a)
To determine
Whether the statement, “In the same soil, the optimum water content would be greater for standard proctor compaction test than for modified proctor compaction test”, is true or false.
(a)
Expert Solution
Answer to Problem 5.1P
The given statement is true.
Explanation of Solution
Sketch the compaction curve for standard proctor test and modified proctor test as shown in Figure 1.
Refer to Figure 1:
- The optimum moisture content of the standard proctor test is higher than the modified proctor test. The weight of the hammer used in the modified proctor compaction test is higher compared to that which is used in the standard proctor compaction test.
- Thus, the level of compaction achieved with the modified proctor compaction test is greater when compared to that of the standard compact test.
- Greater level of compaction is obtained with the use of hammer with higher weight.
Hence, the given statement is true.
(b)
To determine
Whether the statement, “Relative compaction cannot exceed 100%”, is true or false.
(b)
Expert Solution
Answer to Problem 5.1P
The given statement is false.
Explanation of Solution
- The relative compaction is the function of maximum dry unit weight
- The expression of relative compaction (R.C) is given below:
- The dry unit weight in the field might be more than the dry unit weight obtained in the lab, depending upon the soil type and moisture content.
- Therefore, the relative compaction can exceed 100%.
Hence, the given statement is false.
(c)
To determine
Whether the statement, “Sheepsfoot rollers are very effective for compacting clays”, is true or false.
(c)
Expert Solution
Answer to Problem 5.1P
The given statement is true.
Explanation of Solution
- Different types of rollers that are used for compaction are smooth-wheeled rollers, pneumatic rubber–tired rollers, sheepsfoot rollers, vibratory rollers, and impact rollers.
- In sheepsfoot rollers, the pads or foots penetrate through the top layer of the soil and actually compact the soil starting from the bottom to the top and also aerate the soil.
- Therefore, the sheepsfoot rollers are most effective for compacting the clayey soil.
Hence, the given statement is true.
(d)
To determine
Whether the statement, “Strength of compacted clay is higher when compacted dry of optimum than wet of optimum”, is true or false.
(d)
Expert Solution
Answer to Problem 5.1P
The given statement is true.
Explanation of Solution
- The strength of compacted clay increases with a decrease in the moisture content.
- The compacted clay has more shear strength when the clay is compacted with the moisture content to the drier side of optimum value.
Hence, the given statement is true
(e)
To determine
Whether the statement, “hydraulic conductivity of compacted clay is higher when compacted dry of optimum than wet of optimum”, is true or false.
(e)
Expert Solution
Answer to Problem 5.1P
The given statement is true.
Explanation of Solution
- Hydraulic conductivity is the rate of flow of water through the porous medium measured with respect to time.
- Clay has more void spaces when it is compacted with the moisture content to the drier side of optimum value. Therefore, the compacted clay will have higher conductivity when it is compacted to the drier side of optimum than the wetter side of optimum.
Hence, the given statement is true.
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Students have asked these similar questions
6. The maximum dry unit weight determined in the laboratory for a quart sand is 102 lb/ft3. In the field, the relative compaction is 90%. Specific Gravity of Sand is 2.70.
Determine the void ratio at the maximum dry unit weight condition.
Determine the void ratio of the sand in the field condition.
Determine the hydraulic conductivity of the sand in the field condition if the hydraulic conductivity of the sand at the maximum dry unit weight condition is 0.30 cm/sec. Using Kozeny-Carman equation.
Results of a standard proctor ompaction test on a silty sand are shown.
PLEASE COMPLETE SOLUTION.
1) Find the maximum dry unit weight and optimum moisture content.
2) What is the moist unit weight at optimum moisture content?
3) What is the degree of saturation at optimum moisture content? Given: ?? = 2.69
4) If the required field dry unit weight is 18.5 ??/?3, what is the relative compaction?
5) What should be the range of compaction moisture contents in the field to achieve the above relative compaction?
6) If the minimum and maximum void ratios are 0.31 and 0.82, respectively, what is the relative density of compaction in the field?
A certain saturated sand (S = 100%) has a moisture content of 27.9% and a specific gravity of solids of 2.61. It also has a maximum index void ratio of 0.90 and a minimum index void ratio of
0.33. Compute its relative density and classify its consistency. (Table on the right)
Solution:
Given the values of mmoisture content, specific gravity and degree of saturation, the void ratio can be estiamted as: e =
Thus the relative density is found to be Dr
=
• According to the table, the soil is classified as
%;
soil.
TABLE 3.3 CONSISTENCY OF COARSE-GRAINED
SOILS AT VARIOUS RELATIVE DENSITIES (data
from Lambe and Whitman, 1969)
Relative Density, D,(%)
0-15
15-35
35-65
65-85
85-100
Classification
Very loose
Loose
Medium denseª
Dense
Very dense
"Lambe and Whitman used the term "medium," but "medium dense" is
better because "medium" usually refers to the particle size distribution.
Chapter 5 Solutions
Fundamentals of Geotechnical Engineering (MindTap Course List)
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