ce240 lectw032soilclassification
TRANSCRIPT
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CE 240Soil Mechanics & Foundations
Lecture 3.2
Engineering Classification of Soil(AASHTO and USCS)
(Das, Ch. 4)
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Outline of this Lecture
1.Particle distribution and Atterberg Limits2.Soil classification systems based on
particle distribution and Atterberg Limits3.American Association of State Highway and
Transportation Officials System (AASHTO)4.The Unified Soil Classification System
(USCS)
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ObjectiveClassifying soils into groups with similar behavior, in terms of simple indices, can provide geotechnical engineers a general guidance about engineering properties of the soils through the accumulated experience.
Simple indices
GSD, LL, PI
Classification system
(Language)
Estimate engineering properties
Achieve engineering
purposesUse the
accumulated experience
Communicate between
engineers
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Classification Systems
• Two commonly used systems for soil engineers based on particle distribution and Atterberg limits:
• American Association of State Highway and Transportation Officials (AASHTO) System (for state/county highway dept.)
• Unified Soil Classification System (USCS) (preferred by geotechnical engineers).
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Soil particles
The description of the grain size distribution of soil particles according to their texture (particle size, shape, and gradation).
Major textural classes include, very roughly:gravel (>2 mm);sand (0.1 – 2 mm);silt (0.01 – 0.1 mm);clay (< 0.01 mm).
Furthermore, gravel and sand can be roughly classified as coarse textured soils, wile silt and clay can be classified as fine textures soils.
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Grain Size Distribution Curves
GRAVEL SAND FINES
Cob
bles
or B
ould
ers
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Atterberg limits Atterberg limits are the limits of water content used to define soil behavior. The consistency of soils according to Atterberg limits gives the following diagram.
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American Association of State Highway and Transportation Officials system (AASHTO)
Origin of AASHTO: (For road construction)
This system was originally developed by Hogentogler and Terzaghi in 1929 as the Public Roads Classification System. Afterwards, there are several revisions. The present AASHTO (1978) system is primarily based on the version in 1945. (Holtz and Kovacs, 1981)
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Definition of Grain Size
No specific grain size-use Atterberg limits
Boulders Silt-ClayGravel Sand
Coarse Fine
No.4
4.75 mm
No.200
0.075 mm
75 mm
No.40
0.425 mm
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Classification
Das, Table 4.1, 2006(Proceeding from left to right against the columns)
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Classification (Cont.)
Note: The first group from the left to fit the test data is the correct AASHTO classification. Das, Table 4.1, 2006
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Group Index GI
[ ]200
200
( 35) 0.2 0.005( 40)0.01( 15)( 10) (4.1)
GI F LLF PI
= − + −
+ − −
The first term is determined by the LL
The second term is determined by the PI
For Group A-2-6 and A-2-7
2000.01( 15)( 10) (4.2)GI F PI= − − use the second term only
F200: percentage passing through the No.200 sieve
In general, the rating for a pavement subgrade is inversely proportional to the group index, GI.
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Some Explanations of Group Index GI
1, if Eq. 4.1 gives a negative value then GI=0;
2, round up the value calculated by Eq. 4.1 to an integer;
3, there is no upper limit for GI;
4, the GIs for soil groups A-1-a, A-1-b, A-2-4, A-2-5, and A-3 are always zero (0).
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(LL)
(PI)
Das, Figure 4.1
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General Guidance– 8 major groups: A1~ A7 (with several subgroups) and
organic soils A8– The required tests are sieve analysis and Atterberg
limits.– The group index, an empirical formula, is used to
further evaluate soils within a group (subgroups).
– The original purpose of this classification system is used for road construction (subgrade rating).
A4 ~ A7A1 ~ A3
Granular Materials
≤ 35% pass No. 200 sieveSilt-clay Materials
≥ 36% pass No. 200 sieve
Using LL and PI separates siltymaterials from clayey materials
Using LL and PI separates siltymaterials from clayey materials (only for A2 group)
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Example 4.1, Soil B[ ]
3347.33)10PI)(15F(01.0
)40LL(005.02.0)35F(GI
200
200
≅=−−+
−+−=
Round off A-7-5(33)
Passing No.200 86%LL=70, PI=32LL-30=40 > PI=32
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This is the example of Das, Example 4.1 for the AASHTO system classification
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USCS Classification System
• Originally developed for the United States Army Corps of Engineers (USACE)
• The method is standardized in ASTM D 2487 as “Unified Soil Classification System (USCS)”
• USCS is the most common soil classification system among geotechnical engineers
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Unified Soil Classification System (USCS)
Origin of USCS:
This system was first developed by Professor A. Casagrande (1948) for the purpose of airfield construction during World War II. Afterwards, it was modified by Professor Casagrande, the U.S. Bureau of Reclamation, and the U.S. Army Corps of Engineers to enable the system to be applicable to dams, foundations, and other construction.Four major divisions:(1) Coarse-grained(2) Fine-grained(3) Organic soils(4) Peat
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Definition of Grain Size
No specific grain size-use Atterberg limits
Silt and
Clay
Gravel SandCobblesBoulders
Coarse Fine Coarse Medium Fine
75 mm No.4
4.75 mm
No.200
0.075 mm
300 mm
No.10
2.0 mm
19 mm No.40
0.425 mm
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(Das, Table 4.2)
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The Symbols• Soil symbols:• G: Gravel• S: Sand• M: Silt• C: Clay• O: Organic• Pt: Peat
• Liquid limit symbols:
• H: High LL (LL>50)• L: Low LL (LL<50)• Gradation symbols:• W: Well-graded• P: Poorly-graded
)sandsfor(6Cand3C1
)gravelsfor(4Cand3C1
soilgradedWell
uc
uc
≥<<
≥<<−Example: SW, Well-graded sand
SC, Clayey sand
SM, Silty sand,
MH, Elastic silt
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USCS System (cont.)
• A typical USCS classification would be:
SM Silty sand with gravel
Group Symbol
Group Name
-
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Classification of Soils• From sieve analysis and the grain-size
distribution curve determine the percent passing as the following:– > 3 inch – Cobble or Boulders– 3 inch - # 4 (76.2 – 4.75 mm) : Gravel– # 4 - # 200 (4.75 - 0.075 mm) : Sand– < # 200: Fines
• First, Find % passing # 200• If 5% or more of the soil passes the # 200
sieve, then conduct Atterberg Limits (LL & PL)
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Classification of Soils• If the soil is fine-grained (≥ 50% passes
#200) follow the guidelines for fine-grained soils
• If the soil is coarse-grained (<50% passes #200) follow the guidelines for coarse-grained soils– Find % Gravel & Sand– Calculate Cu & Cc– Calculate LL, PL and PI
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General Guidance
Coarse-grained soils:
Gravel Sand
Fine-grained soils:
Silt ClayNO.200
0.075 mm
•Grain size distribution
•Cu
•Cc
•PL, LL
•Plasticity chart
50 %
NO. 44.75 mm
Required tests: Sieve analysis
Atterberg limit
LL>50 LL <50
50%
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Coarse-grained Soils
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Fine-grained Soils
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Example – Soil A
Soil A: D60 = 4.2 mm , D30 = 0.6 mm, D10 = 0.09 mmCu = 46.67Cc = 0.95
Gravel98-62 = 36%
Sand62-8 = 54%
Fines = 8%
gravel sand fines
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Example – Soil A (Cont.)Grave = 36%Sand = 54%Fines = 8%Cu = 46.7Cc = 0.95
LL = 42PL = 31PI = 42-31 = 11
GO TO Plasticity Chart
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Example – Soil A (Cont.)
• Soil A is then classified as SP-SM – Poorly-grades sand with silt and gravel
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Example – Soil A (Cont.)
LL = 42PL = 31PI = 42-31 = 11
ML
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The Plasticity Chart
(Holtz and Kovacs, 1981)
LL
PI
HL• The A-line generally separates the more claylike materials from silty materials, and the organics from the inorganics.
• The U-line indicates the upper bound for general soils.
Note: If the measured limits of soils are on the left of U-line, they should be rechecked.
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Procedures for Classification
(Santamarina et al., 2001)
Coarse-grained material
Grain size distribution
Fine-grained material
LL, PI
Highly
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Example
Passing No.200 sieve 30 %
Passing No.4 sieve 70 %
LL= 33
PI= 12PI= 0.73(LL-20), A-line
PI=0.73(33-20)=9.49
SC (≥15% gravel)
Clayey sand with gravel
(Santamarina et al., 2001)
Passing No.200 sieve 30 %Passing No.4 sieve 70 %
LL= 33
PI= 12
Highly
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Organic SoilsHighly organic soils- Peat (Group symbol PT)
− A sample composed primarily of vegetable tissue in various stages of decomposition and has a fibrous to amorphous texture, a dark-brown to black color, and an organic odor should be designated as a highly organic soil and shall be classified as peat, PT.
Organic clay or silt( group symbol OL or OH):− “The soil’s liquid limit (LL) after oven drying is less than
75 % of its liquid limit before oven drying.” If the above statement is true, then the first symbol is O.
− The second symbol is obtained by locating the values of PI and LL (not oven dried) in the plasticity chart.
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This is the Figure 4.7 of Das’ textbook, the scanning electron micrographs (SEM) for 4 peat samples.
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Borderline Cases (Dual Symbols)For the following three conditions, a dual symbol should be used.–Coarse-grained soils with 5% - 12% fines.−About 7 % fines can change the hydraulic
conductivity of the coarse-grained media by orders of magnitude.
−The first symbol indicates whether the coarse fraction is well or poorly graded. The second symbol describe the contained fines. For example: SP-SM, poorly graded sand with silt.
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Borderline Cases (Dual Symbols, cont.)
–Fine-grained soils with limits within the shaded zone. (PI between 4 and 7 and LL between about 12 and 25).−It is hard to distinguish between the silty and more
claylike materials.−CL-ML: Silty clay, SC-SM: Silty, clayed sand.
–Soil contain similar fines and coarse-grained fractions.− possible dual symbols GM-ML
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Borderline Cases (Summary)
(Holtz and Kovacs, 1981)
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Reading Assignment:
Das, Ch. 4
Homework:
Problem 4.3