Presented By Khalil Hanifa, E.I. Values of... · LTRC Design Values of Resilient Modulus for...
Transcript of Presented By Khalil Hanifa, E.I. Values of... · LTRC Design Values of Resilient Modulus for...
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LTRC
Design Values of Resilient Modulus for Stabilized and Non-Stabilized Base
Presented By Khalil Hanifa, E.I. Geotechnical Research Engineer
10-3GT
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Overview
o Background o Implementation Statement o Objective o Scope o Methodology o Discussion of Results (Preliminary) o Conclusions/Recommendations (Preliminary) o Key Questions from the PRC o Updated Testing Scope o Questions and Comments
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Background
Co-PI’s: Gavin Gautreau, P.E. Sr. Geotechnical Research Engineer
Murad Abu-Farsakh, Ph.D., P.E. Associate Professor-Research, GERL Manager
Manager: Zhongjie “Doc” Zhang, Ph.D., P.E.
Pavement & Geotechnical Administrator
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Implementation Statement
• This research is expected to establish resilient modulus design values for stabilized and non-stabilized base course materials which can be used as Level 2 input in AASHTOWare® Pavement ME Design™ (formally DARWin-ME)
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Objective
To determine resilient modulus design values for typical base course materials, as allowed by LADOTD specifications.
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Scope
Three stabilized soil types (classified as A-2-4, A-4, and A-6, according to the AASHTO soil classification) were evaluated as bound base materials. Three aggregates types (Mexican Limestone and Recycled PCC (crushed)) were evaluated as unbound base materials.
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A laboratory testing program consisting of physical properties tests, tube suction tests, and repeated loading triaxial (RLT) resilient modulus tests were performed on the bound and unbound base materials.
Methodology
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Physical properties tests were performed in accordance with LADOTD standard testing procedures to provide characterization and classification information for the tested base materials.
Methodology
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Methodology
Test LADOTD Testing Procedure
Atterberg Limits TR 428-67
Sieve/Hydrometer Analysis TR 407-99
Sieve Analysis (Aggregates) TR 113-11
Moisture-Density Relationship
(Standard Proctor)
TR 418-98 Method B (Soils)
Moisture-Density Relationship
(Modified Proctor)
TR-418-98 Method G
(Aggregates)
Classification of Soils TR 423-99
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• Cement Content for Stabilized Base Materials LADOTD often utilizes a cement stabilized base course
design in accordance with standard testing procedure TR 432-02.
Methodology
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• Tube Suction Tests The tube suction test is a procedure to approximate free
moisture content in soils through capillary action by measuring its dielectric constant. The measured dielectric constant of a given soil specimen gives an indication of it’s moisture susceptibility.
Methodology
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• Tube Suction Test Procedure
Methodology
Samples Ready for
Tube Suction Test
Capacitance Probe Taking Readings
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• Repeated Load Triaxial (RLT) Resilient Modulus Tests
Resilient modulus test were performed in accordance with AASHTO procedure T 307-99 standard method.
Methodology
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• Repeated Load Triaxial (RLT) Resilient Modulus Tests (Sample Preparation)—Stabilized Base Materials
Methodology
Hammer and
Mold
Sample
Compaction
Compacted
Sample
Sample Being
Tested
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• Repeated Load Triaxial (RLT) Resilient Modulus Tests (Sample Preparation)—Unbound Base Materials
Methodology
Vibratory
Compactor and
Mold
Sample
Compaction
Compacted
Sample
Sample Being
Tested
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Methodology
Material % Cement (By
Weight) Target
7-day
curing
28-day
curing
A-2-4 % to achieve
300 psi
+2% 3 samples 3 samples
Opt. 3 samples 3 samples
-2% 3 samples 3 samples
A-4 % to achieve
300 psi
+2% 3 samples 3 samples
Opt. 3 samples 3 samples
-2% 3 samples 3 samples
A-6 % to achieve
300 psi
+2% 3 samples 3 samples
Opt. 3 samples 3 samples
-2% 3 samples 3 samples
Mexican
Limestone N/A
+2% 3 samples
Opt. 3 samples
-2% 3 samples
Recycled PCC
(Crushed) N/A
+2% 3 samples
Opt. 3 samples
-2% 3 samples
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• Resilient Modulus Testing Sequences
Methodology
Sequence
Number Confining
Pressure (psi) Max. Axial
Stress (psi) Cyclic Stress
(psi) Constant
Stress (psi) No. of Load
Applications
(Conditioning) 15 15 13.5 1.5 1000
1 3 3 2.7 0.3 100
2 3 6 5.4 0.6 100
3 3 9 8.1 0.9 100
4 5 5 4.5 0.5 100
5 5 10 9.0 1.0 100
6 5 15 13.5 1.5 100
7 10 10 9.0 1.0 100
8 10 20 18.0 2.0 100
9 10 30 27.0 3.0 100
10 15 10 9.0 1.0 100
11 15 15 13.5 1.5 100
12 15 30 27.0 3.0 100
13 20 15 13.5 1.5 100
14 20 20 18.0 2.0 100
15 20 40 36.0 4.0 100
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• Review of Resilient Modulus Models
Methodology
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• Regression Analysis Statistical analysis was conducted using SAS Institute Inc.
software to evaluate the resilient modulus data and establish k1, k2, and k3 values for each model being evaluated.
Methodology
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• Physical Properties of Materials Tested
Discussion of Results
Material LL (%) PL (%) PI (%) γdmax
(pcf)
ωopt
(%)
A-2-4 20 12 8 123.0* 10.4*
A-4 23 14 9 121.2* 11.3*
A-6 32 20 12 107.2* 15.9*
Mexican
Limestone N/A N/A N/A 125.1** 10.1**
Recycled PCC
(Crushed) N/A N/A N/A 118.6** 12.0**
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• Physical Properties of Materials Tested
Discussion of Results
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• Physical Properties of Materials Tested
Discussion of Results
Standard Proctor Compaction
Curves for Raw Soils
Modified Proctor Compaction
Curves for Aggregates
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• Cement Content for Stabilized Base Materials
Discussion of Results
Standard Proctor Compaction
Curves for Cement Stabilized
Soils
7-day Cement Curves for
Cement Stabilized Materials
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• Tube Suction Test Results
Discussion of Results
A-2-4
A-4 A-6 Mexican Limestone
Recycled PCC (Crushed)
0
2
4
6
8
10
12
Max
imu
m D
V V
alu
e
Marginal
Good
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• Resilient Modulus Tests
Discussion of Results
Material % Cement (By
Weight) Target
Moisture
Content (%) 7-day curing 28-day curing
A-2-4 4
+2% 12.4 3 samples 3 samples
Opt. 10.4 3 samples 3 samples
-2% 8.4 3 samples 3 samples
A-4 4
+2% 13.3 3 samples 3 samples
Opt. 11.3 3 samples 3 samples
-2% 9.3 3 samples 3 samples
A-6 6
+2% 17.9 3 samples 3 samples
Opt. 15.9 3 samples 3 samples
-2% 13.9 3 samples 3 samples
Mexican
Limestone N/A
+2% 12.1 3 samples
Opt. 10.1 3 samples
-2% 8.1 3 samples
Recycled PCC
(Crushed) N/A
+2% 14.0 3 samples
Opt. 12.0 3 samples
-2% 10.0 3 samples
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• Resilient Modulus Tests Results
• Regression Analysis Results
Discussion of Results
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Resilient Modulus Test Results
1 2 3
AVG STD CV (%)
2.8 30.1 32.4 28.7 30.4 1.87 6.15
5.8 33.4 34.1 30.3 32.6 2.02 6.20
8.3 38.4 36.1 42.0 38.8 2.97 7.66
4.6 62.4 64.7 52.3 59.8 6.60 11.03
9.2 62.9 68.2 55.0 62.0 6.64 10.71
13.8 69.5 70.1 60.1 66.6 5.61 8.43
σd (psi)σ3 (psi)
Sample Number
Mr (ksi)
A-2-4 (Opt.) 7-day Curing
3
5
1 2 3
AVG STD CV (%)
2.8 70.6 79.4 68.1 72.7 5.94 8.16
5.8 67.5 78.6 65.2 70.4 7.17 10.17
8.3 62.5 72.5 63.4 66.1 5.53 8.36
4.6 118.9 119.0 115.1 117.7 2.22 1.89
9.2 105.6 114.0 107.6 109.1 4.39 4.02
13.8 93.3 110.9 102.8 102.3 8.81 8.61
A-2-4 (Opt.) 28-day Curing
Sample Number
σ3 (psi) σd (psi)
5
Mr (ksi)
3
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Resilient Modulus Test Results
1 2 3
AVG STD CV (%)
2.8 32.9 32.5 26.3 30.6 3.70 12.11
5.8 30.0 29.2 26.1 28.4 2.06 7.24
8.3 28.7 28.0 25.4 27.4 1.74 6.35
4.6 64.2 56.5 53.4 58.0 5.56 9.58
9.2 61.1 57.4 56.1 58.2 2.59 4.46
13.8 60.2 61.5 62.4 61.4 1.11 1.80
3
5
A-2-4 (-2%) 7-day Curing
Sample Number
σ3 (psi) σd (psi)Mr (ksi)
1 2 3
AVG STD CV (%)
2.8 65.3 69.0 63.1 65.8 2.98 4.53
5.8 60.2 62.8 58.2 60.4 2.31 3.82
8.3 57.9 53.4 56.1 55.8 2.26 4.06
4.6 142.3 130.2 116.3 129.6 13.01 10.04
9.2 129.4 120.9 113.3 121.2 8.05 6.65
13.8 121.5 118.0 111.1 116.9 5.29 4.53
5
Sample Number
σ3 (psi) σd (psi)Mr (ksi)
3
A-2-4 (-2%) 28-day Curing
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Resilient Modulus Test Results
1 2 3
AVG STD CV (%)
2.8 25.8 21.0 20.6 22.5 2.89 12.88
5.8 28.2 29.3 26.2 27.9 1.57 5.63
8.3 31.0 38.4 32.0 33.8 4.01 11.88
4.6 51.7 65.5 38.4 51.9 13.55 26.13
9.2 43.6 62.6 44.9 50.4 10.61 21.07
13.8 50.1 61.8 52.0 54.6 6.28 11.49
3
5
A-2-4 (+2%) 7-day Curing
Sample Number
σ3 (psi) σd (psi)Mr (ksi)
1 2 3
AVG STD CV (%)
2.8 52.4 51.9 50.1 51.5 1.21 2.35
5.8 50.8 47.4 45.1 47.8 2.87 6.00
8.3 47.5 46.9 44.3 46.2 1.70 3.68
4.6 98.8 96.7 86.2 93.9 6.75 7.19
9.2 98.5 92.3 80.9 90.6 8.93 9.86
13.8 94.0 89.0 77.0 86.7 8.74 10.08
5
Sample Number
σ3 (psi) σd (psi)Mr (ksi)
3
A-2-4 (+2%) 28-day Curing
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Regression Analysis Results
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• Resilient modulus is not a constant value but varies with stress conditions
• For stabilized materials at 7-day curing, moisture content has an impact on resilient modulus
• For stabilized materials, increasing the curing period from 7-day to 28-day caused a significant increase in resilient modulus. Also the impact of moisture content on resilient modulus is not as critical at 28-day curing as compared to 7-day curing
• For aggregate materials, moisture content has an impact on resilient modulus
Conclusions
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• The three models evaluated to establish materials coefficients all performed well in predicting resilient modulus
• The data developed from all three models can be utilized to generate Level 2 inputs for base course resilient modulus in AASHTOWare® Pavement ME Design™
Conclusions
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Recommendations
• The following initiatives are recommended in order to facilitate the implementation of this study
1. Make Model 1 (NCHRP Model), Model 2 (UKTC Model), and Model 3 (Uzan Model) for estimating the resilient modulus of bound and unbound base materials readily available for use by the design personnel of LADOTD
2. Implement the results of this study into the current design procedure
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Key Questions from the PRC
1. Resilient Modulus Values Appear To Be Low
Based on Literature Review, Resilient Modulus Values Appear To Be Too Low
2. Is There A Relationship Between Unconfined Compressive Strength and Modulus?
As Strength Increases Modulus Generally Increases
3. Are There Models That Correlate Unconfined Compressive Strength to Modulus?
Yes and the Models That Relate to the Testing Scope of 10-3GT Will Be Investigated
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Questions/Comments from PRC
4. Is There A Minimum Percentage of Cement Required In The Field?
Yes, 6% (By Volume) Due to Variation in Spread Rate and to Assure Uniform Mixing
5. k1, k2, and k3 Parameters Can Not Be Used in Pavement ME Design™
These Models Can Not Be Used For Chemically Stabilized Materials in Pavement ME Design™
6. Recommend A Range of Typical Design Values of Resilient Modulus for Each Tested Material
A Range of Typical Values Will Be Provided
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Key Questions from the PRC
7. Cement Treated Base (150 psi) and BCS Materials Were Not Included In This Study
These Materials and Other Materials Recommended by
the PRC Will Be Included in the Updated Testing Scope
8. What base courses are typically constructed for Louisiana roadways?
Discussed in the Summary of the Survey Provided to the District Lab Engineers (Upcoming Slides)
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Review of District Lab Survey
• 4 Districts Replied, 5 Districts Did Not Reply
Response No Response
District 02 (New Orleans) District 04 (Bossier City/Shreveport)
District 03 (Lafayette) District 05 (Monroe)
District 61 (Baton Rouge) District 07 (Lake Charles)
District 62 (Hammond) District 08 (Alexandria)
District 58 (Chase)
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Review of District Lab Survey
1. Base Courses Constructed in Districts a. 302: Cement Stabilized Base Course (300 psi) b. 303: In-Place Cement Stabilized Base Course (300 psi) c. 308: In-Place Cement Treated Base Course (150 psi) d. Other: Stone, RPCC, BCS and Asphalt Base Course 2. Is There a Minimum Percentage of Cement Required in
the Field? 6% (By Volume) Due To: a. Variation in Spread Rate b. To Assure Uniform Mixing
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Review of District Lab Survey
3. How Much Does Variation in Moisture Content (the ±2% of Optimum Range Allowed During Construction) Affect Strength in the Field?
a. The Lab Engineers informed me that they have no way of knowing this
b. I suggested that we investigate it since it is related to the scope of project 10-3GT
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1. Existing Materials
• Note: A-2-4, A-4 and A-6 will be treated with
6%, 6% and 8% cement (by weight) respectively, an
Increase of 2% from previous testing
Updated Testing Scope
Material
Unconfined Compressive Strength Tests
Resilient Modulus Tests
+2% Opt. -2% +2% Opt. -2%
A-2-4 3 samples 3 samples 3 samples 3 samples 3 samples 3 samples
A-4 3 samples 3 samples 3 samples 3 samples 3 samples 3 samples
A-6 3 samples 3 samples 3 samples 3 samples 3 samples 3 samples
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2. New Materials
a. Cement Stabilized Base Course (300 psi design strength)
b. In-Place (Recycled) Cement Stabilized Base Course (300 psi design strength)
c. In-Place (Recycled) Cement Treated Base Course (150 psi design strength)
d. Recycled Soil Cement (300 psi design strength)
e. Composite Base Course (4” Stone/8” Soil Cement)
• Testing Scope: 1. Gradation/Hydrometer Analysis
2. Atterberg Limits
3. Moisture-Density Relationship
4. Unconfined Compressive Strength Tests (7-day)
5. Resilient Modulus Tests (7-day and 28-day)
Testing Plan
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3. In-House Literature Review
a. Kentucky Limestone
b. Mexican Limestone
c. BCS d. Asphalt Base Course
An in-house literature review will be conducted on these materials to gather information as it relates to the testing scope of 10-3GT
Testing Plan
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Questions?