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Aggregate Proportioning and Gradation for Slip Formed Pavements
Daniel Cook, Nick Seader, Ashkan Ghaeezadeh, Bruce Russell
Tyler Ley, P.E., Ph.D.
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Acknowledgements
• Oklahoma Department of Transportation (ODOT)
• Oklahoma Transportation Center• CP Tech Center• FHWA hfl• Trinity Construction• Dolese Bros Company• Martin‐Marietta• Arkhola Sand and Gravel• Lafarge
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Acknowledgements
• Kenny Seward• Matt Romero• Peter Taylor• Maria Masten• Todd Hansen• Gary Fick
• Jim Shilstone• Dick Gaynor
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Outline
• Introduction of OG concrete• The Box Test• The TARANTULA curve!
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What is OG concrete all about?
• The goal of OG concrete is to increase the volume of aggregate and decrease the volume of paste
• paste = binder + water • The paste is the most costly, least sustainable concrete ingredient and has the biggest impact on the durability
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Why would you do this???
Reduce costImprove strengthImprove durabilityImprove sustainability
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What part of a paver is the most critical for concrete consolidation?
Slip Formed Paver
Strike offAuger Vibrator Tamper Profile Pan
Side Form
Paving Direction
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• We want a test that is simple and can examine:– Response to vibration – Filling ability of the grout (avoid internal voids)
– Ability of the slip formed concrete to hold a sharp edge (cohesiveness)
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Box Test
• Add 9.5” of unconsolidated concrete to the box
• A 1” diameter stinger vibrator is inserted into the center of the box over a three count and then removed over a three count
• The edges of the box are then removed and inspected for honey combing or edge slumping
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Box Test Ranking Scale
4 3
Over 50% overall surface voids. 30‐50% overall surface voids.
2 1
10‐30% overall surface voids. Less than 10% overall surface voids.
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Edge Slumping
Bottom Edge Slumping Top Edge Slumping
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Edge SlumpNo Edge Slump
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Mix Concrete
Conduct: Slump and Box Test
Did it Pass the Box Test?
Add WR and Remix
Conduct: Slump and Box Test
Yes
No
Put Material Tested Back into Mixer.
Testing Complete
Evaluating Mixtures with the Box Test
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Box Test
• Low amounts of water reducer is good• High amounts are bad
This technique lets us establish limits!
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Validation
• Single Operator +/‐ 1.5 oz/cwt• Multi Operator is +/‐ 2.5 oz/cwt• Same box test performance was found if the WR was added up front or if added in small dosages
• If the sample did not pass the box test within one hour it was discarded
• The box test has compared well with field paving mixes
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Summary of the Box Test
• The box test evaluates the response of a concrete mixture to vibration and the ability to hold an edge.
• We did this because no other test exists that can tell us this information.
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How do you find your gradation?
• Shilstone• 8‐18 curves• Power 45
Which one is right?What do these tools tell you?Is one better than the other?
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Use of the Box Test to Evaluate Shilstone
• .45 w/cm• 5 Sacks total cementitious• 20% fly ash • A single sand source• 3 crushed limestones
– Limestone A– Limestone B– Limestone C
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22
27
32
37
42
47
304050607080
Workability Factor (%
)
Coarseness Factor (%)
Left
Middle
Bottom
60/40 blend by volume
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Limestone A & Sand A
0%
5%
10%
15%
20%
25%
30%
35%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Middle of Shilstone
Bottom of Shilstone
60%CA, 40%FA
Left of Shilstone
Min Boundary
Max Boundary
Sieve No.
WR dosage
17.1
12.7
8.3 oz/cwt
16.1
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0%
5%
10%
15%
20%
25%
30%
35%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Middle of Shilstone
Bottom of Shilstone
60%CA, 40%FA
Left of Shilstone
Min Boundary
Max Boundary
Sieve No.
Limestone B & Sand A
15
14.2
13.4
13
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0%
5%
10%
15%
20%
25%
30%
35%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Middle of Shilstone
Bottom of Shilstone
Left of Shilstone
Min Boundary
Max Boundary
Sieve No.
Limestone C & Sand A
0.86
0
0
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20
24
28
32
36
40
44
48
30405060708090100
Workability Factor (%
)
Coarseness Factor (%)
Limestone A
Limestone B
Limestone C
I
II
IV
V
III
00.7
0
15.08.3
16.114.2
14.412.7
17.1
13.0
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Using the Shilstone Chart alone to proportion your aggregates does not influence performance with these materials.
The 8‐18 chart seems to provide better guidance.
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Does Distribution Really Matter?
0
8.3
0%
5%
10%
15%
20%
25%
30%
35%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Limestone C‐Middle of Shilstone
Limestone A‐ Middle of Shilstone
Min Boundary
Max Boundary
Sieve No.
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We sieved Limestone A to have the exact same gradation as
Limestone B.
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Yes, Distribution Matters!
0
0
0%
5%
10%
15%
20%
25%
30%
35%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Limestone C
Limestone A
Min Boundary
Max Boundary
Sieve No.
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By changing the distribution of aggregates, it changes the workability of the mixture.
However the Shilstone method did not accurately predict this (at least for these aggregate
combinations).
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Use of the Box Test to Evaluate Gradations
• .45 w/cm• 20% fly ash • Three sand sources • Used 5 coarse aggregates
– Three limestones– Two river gravels
• All mixtures are 4.5 sack (423 lbs/cy)
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0%
5%
10%
15%
20%
25%
30%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Min Boundary Max Boundary CF=70,WF=30 CF=75,WF=30 CF=65,WF=30
CF=60,WF=30 CF=55,WF=30 CF=80,WF=30 CF=50, WF=30 CF=45, WF=30
Sieve No.
Proportioning of Coarse to Intermediate
13.3
12.7
6.34.3
3.92.9
11.9
6.0
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0%
5%
10%
15%
20%
25%
30%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Min Boundary Max Boundary CF=70,WF=30 CF=75,WF=30 CF=65,WF=30
CF=60,WF=30 CF=55,WF=30 CF=80,WF=30 CF=50, WF=30 CF=45, WF=30
Sieve No.
Proportioning of Coarse to Intermediate
13.3
12.7
6.34.3
3.92.9
11.9
6.0
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Impacts of a Single Valley
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
Sieve No.
4.3
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Impacts of a Single Valley
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
No 3/8 Valley
Sieve No.
2.44.3
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Impacts of a Single Valley
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
No 3/8"
No 3/8 Valley
Sieve No.
2.44.3
3.4
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0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
Sieve No.
4.3
Impacts of a Double Valley
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0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
Low amounts of 3/8 &.5"
Sieve No.
4.4 4.3
Impacts of a Double Valley
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0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
Low amounts of 3/8 &.5"
Double Valley
Sieve No.
4.4 4.39.0
Impacts of a Double Valley
![Page 48: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/48.jpg)
Real Life Gradation Curve
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1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
Sieve No.
4.3
![Page 49: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/49.jpg)
Theoretical Bell Shape Curve
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d
Min Boundary
Max Boundary
CF=65,WF=30
Bell Shape Curve
Sieve No.
4.35.5
![Page 50: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/50.jpg)
Proportioning of Sand
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1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Min Boundary Max Boundary CF=70,WF=30 CF=70,WF=25
CF=70,WF=40 CF=70,WF=35 CF=70,WF=45
Sieve No.
40.4
11.6
6.0
9.9
19.1
![Page 51: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/51.jpg)
Proportioning of Sand
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% Retaine
d
Min Boundary Max Boundary CF=70,WF=30 CF=70,WF=25
CF=70,WF=40 CF=70,WF=35 CF=70,WF=45
Sieve No.
40.4
11.6
6.0
9.9
19.1
![Page 52: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/52.jpg)
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30%
35%
1.5"1"3/4"1/2"3/8"#4#8#16#30#50#100#200
% Retaine
d
Sieve No.
Fine Sand
Coarse Aggregate
Coarse Sand
Fine Aggregate
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WARNING!!!• We are about to sieve sand into CRAZY gradations and evaluate the subsequent performance
• We are not suggesting that you sieve your sand!
• We did this to better understand the critical characteristics of fine aggregate
![Page 54: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/54.jpg)
Investigation of Coarse Sand
• We are going to remove all of the coarse sand from a mixture and then start to slowly add material on the #4, #8, #16, and #30 to see how the performance changes
• ACI 302.1R‐04 – recommends the sum of #8 and #16 sieve sizes should not be below 13% to help with edge slumping
![Page 55: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/55.jpg)
0%
5%
10%
15%
20%
25%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Sieve No.
+20
+20
+20
+20
![Page 56: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/56.jpg)
Images of the mixtures
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Edge slumping
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Impacts of #8
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d
Sieve No.
+20
5.1
+20
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Impacts of #16
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d
Sieve No.
7.9
7.9
+20
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What is happening?
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Investigation of Coarse Sand
• The #8 & #16 seems to cling to the coarse aggregate
• These smaller particles help provide more cohesion and internal structure to the mixture
• This is important for edge slumping and response to vibration
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Investigation of Coarse Sand
• Can you have too much #8 and #16?
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0%
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10%
15%
20%
25%
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% Retaine
d
Sieve No.
4.35.5*
16%
Mixture had problems with finishing
![Page 65: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/65.jpg)
0%
5%
10%
15%
20%
25%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Sieve No.
2.6*4.3
12%
![Page 66: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/66.jpg)
![Page 67: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/67.jpg)
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![Page 69: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/69.jpg)
Summary of Coarse Sand
• The #8, #16, and #30 contributes to the edge slumping and response to vibration of the mixture
• A minimum of 15% cumulative retained on the #8‐#30 sieve sizes is suggested
• The #8 and #16 should be limited to 12% to minimize finishing issues.
![Page 70: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/70.jpg)
0%
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20%
25%
30%
35%
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% Retaine
d
Sieve No.
Fine Sand
Coarse Aggregate
Coarse Sand
Fine Aggregate
![Page 71: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/71.jpg)
Investigation of Fine Sand
• The gradation and volume of aggregates were held constant for sizes greater than #16
• The volume of fine sand (#30 to #200) was held constant
• The distribution was allowed to change
![Page 72: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/72.jpg)
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10%
15%
20%
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30%
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% Retaine
d
Sieve No.
2.63
5.24.3
![Page 73: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/73.jpg)
0%
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10%
15%
20%
25%
30%
35%
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% Retaine
d
Sieve No.
20.4
1.7*
20%4.3
5.2
![Page 74: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/74.jpg)
Summary
• Fine sand gradation can vary largely without impacting the workability.
• Mixtures with around 20% retained on the #30 sieve size can cause finishing issues.
![Page 75: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/75.jpg)
Investigation of Fine Sand
• We are going to hold the gradation of #16 through 1” constant and allow the fine sand (#30 to #200) to vary
![Page 76: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/76.jpg)
0%
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% Retaine
d
Sieve No.
Using 20% #30 & 80% #50
13.9
13.1
3.6
2.1
5.4
![Page 77: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/77.jpg)
0%
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15%
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30%
35%
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% Retaine
d
Sieve No.
20%
Using 80% #30 & 20% #50
19.6
9.2
4.9*
8.5*
![Page 78: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/78.jpg)
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Sieve No.
30%
Using Only #50
2.0
22.316.5
5.1
15.6
![Page 79: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/79.jpg)
0%
5%
10%
15%
20%
25%
30%
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% Retaine
d
Sieve No.
Using 65% #50 & 35% #100
5.1
14.12.0
1.111.2
![Page 80: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/80.jpg)
0
2
4
6
8
10
12
14
16
18
20
17 22 27 32 37
WR (oz/cw
t)
Volume of Fine Sand (#30‐200)
80/20/0/0
20/80/0/0
37/42/17/4
0/65/35/0
34%24%
![Page 81: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/81.jpg)
Validation with other Aggregates
• Same mixture design as previous• Vary the sand to coarse and intermediate
• Used 3 different quarries–Limestone C–Limestone A–River Gravel A
• Used River Sand A & B
![Page 82: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/82.jpg)
0
5
10
15
20
25
30
20 25 30 35 40
WR
(oz/
cwt)
Total Volume of Fine Sand (#30-200)
Crushed Limestone A & River Sand ARiver Gravel A & River Sand ACrushed Limestone B & River Sand ACrushed Limestone A & River Sand B
24% 34%
![Page 83: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/83.jpg)
Summary
• The distribution of fine sand can vary largely without effecting the workability.
• An aggregate volume between 24% to 34% is recommended for #30 ‐ #200.
• This range was similar for multiple gradations and aggregate sources
• More than 20% retained on the #30 sieve size created finishing issues.
![Page 84: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/84.jpg)
A New Specification for Oklahoma
• We investigated:– 5 different coarse aggregates thoroughly– Spot checks on 13 different aggregates– 3 different sands– Over 300 different concrete mixtures
• You put your mixture design in a spreadsheet and it will evaluate if you are within the specification
![Page 85: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/85.jpg)
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Sieve No.
Excessive amount creates
workability issues.
Creates surface finishabilityproblems normally
associated with manufactured
sands.
Excessive amount that decreases workability and promotes segregation and edge slumping.
Not in Scope of work
20%
12%
20%
24‐34% of fine sand (#30‐200)
10%
16%
4%4%
The TARANTULA curve!!!!
Greater than 15% on the sum of #8, #16, and #30
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ASTM D 4791 – ½” 2:1 scale
15.33 15.33
20.67
37.33
12.67
18.00
21.33
14.67
9.33
14.67 14.00
44.67
42.00
0
10
20
30
40
50
60
Per
cent
Fre
quen
cy
Sawyer
Cooperton
Coleman
Cleburne
Pryon
Okay
Lamar
Drum Wright
Davis
R.Spur
N.Troy
NewHartshorneOldHartshorne
River Gravel
![Page 87: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/87.jpg)
Application
• Five different concrete producers have tried this system and all seen improvements in their concrete
• 10 lane miles of CRCP for the FHWA hflproject have been placed with this system in Texas with 447 lbs of cementitious/CY.
• The contractor saw a 10% cost savings with a 25% reduction in the carbon footprint!!!!
![Page 88: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/88.jpg)
0
5
10
15
20
25
30
#200 #100 #50 #30 #16 #8 #4 3/8" 1/2" 3/4" 1" 1.5"
Percen
t Retaine
d (%
)
Sieve Number
Minnesota1996-1998
Data from Maria Masten
![Page 89: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/89.jpg)
0
5
10
15
20
25
30
#200 #100 #50 #30 #16 #8 #4 3/8" 1/2" 3/4" 1" 1.5"
Percen
t Retaine
d (%
)
Sieve Number
Minnesota2009 87% of mixtures met the sand criteria
Data from Maria Masten
![Page 90: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/90.jpg)
Data from Maria Masten
Minnesota201098% of mixtures met the sand criteria
![Page 91: Aggregate Proportioning and Gradation for Slip Formed ......2018/08/11 · Aggregate Proportioning and Gradation for Slip Formed Pavements Daniel Cook, Nick Seader, Ashkan Ghaeezadeh,](https://reader031.vdocument.in/reader031/viewer/2022013100/6112b01d5d7f6b4d167c87f6/html5/thumbnails/91.jpg)
Data from Todd Hansen
Iowa 100% of mixtures met the sand criteria
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Field Concrete
• The contractors are producing mixtures in the field in Minnesota and Iowa that fit within the Tarantula and having good success with them
• They are doing this with trial and error and no knowledge of the Tarantula Curve
• The Tarantula Curve appears to be a good place to start with your mixtures
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What about strength?
All mixtures had 4.5 sacks of total cementitious with 20% fly ash
7 Day Strength 28 Day Strength
Source Min-Max (psi)Average
(psi) Min-Max
(psi) Average
(psi) Limestone A 4000-6320 5180 5330-8890 6940 Limestone B 4990-5270 5130 6220-7940 7450 River Rock 3990-4850 4440 5760-7050 6410
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Summary
• The Box Test proved to be a useful test method to evaluate mixtures for concrete pavements
• This test has allowed us great insight into coarse and fine aggregate proportioning
• The Tarantula curve and fine aggregate limits have been used to successfully produce field concrete mixtures
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Summary
• Optimized graded concrete mixtures produced in Minnesota and Iowa show good agreement with the specified limits
• It was used in Texas with great contractor savings
• Rough estimates show that this could save Oklahoma over $4 million/year and enough electricity to power 400 homes per year while also producing pavements with improved durability and sustainability
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www.optimizedgraded.com
www.tylerley.com
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Questions???
May the Force be with you!!!!
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Durability
• The mixtures showed satisfactory freeze thaw and shrinkage durability
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0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Sieve No.
Excessive amount creates
workability issues. Creates surface
finishabilityproblems normally
associated with manufactured
sands.
Excessive amount that decreases workability and promotes segregation and edge slumping.
Not in Scope of work
20%
12%
20%
27%
24‐34% of fine sand (#30‐200)
10%
16%
22%
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Gap Graded vs Combined Graded
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
Sieve No.
4.3
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Gap Graded vs Combined Graded
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
3/8 & #4 switched
Sieve No.
04.3
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Gap Graded vs Combined Graded
0%
5%
10%
15%
20%
25%
30%
1.510.750.50.375#4#8#16#30#50#100#200
% Retaine
d
Min Boundary
Max Boundary
CF=65,WF=30
3/8 & #4 switched
85,30
Sieve No.
04.3
The mixture was segregated and started edge slumping. After adding 43 oz/cwt, the mixture still failed.
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A New Specification for Oklahoma
• Within spec – 470 lbs of cementitiousw/20% fly ash replacement max w/cm = 0.45
• Out of spec ‐ 564 lbs of cementitiousw/20% fly ash replacement max w/cm = 0.45