Chemical Treatment of Subgrades · 2019. 12. 13. · • We base performance on 3 criteria: 1....
Transcript of Chemical Treatment of Subgrades · 2019. 12. 13. · • We base performance on 3 criteria: 1....
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Chemical Treatment of Subgrades
For Constructability and PerformanceNeil Ryan
Mt. Carmel Stabilization Group, Inc.
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What Took so Long???
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What are We Talking About Here Today…
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Chemical Stabilization is Not New
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The Stabilization Family
Chemical Stabilization
Soil Drying
Soil Modification
Soil Stabilization
Full Depth Reclamation
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Presentation Outline
• Soils and Subgrade Basics Overview• What makes soil “good”? What makes “poor soil”?• What Impact does that have on your project?• What options do you have?
• How Stabilization Chemicals work with soils• Drying, Modification and Stabilization• Different Chemicals based on various factors
• Designing with Soil Stabilization (Planning Ahead)• The Construction Process for Chemical Stabilization
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Goals Today
• Understand how different soils behave.• Know options for dealing with poor subgrade soils.• Understand the different chemicals used to treat subgrade soils.• To be confident in evaluating your subgrade pre-construction and
during construction.• To be educated enough to speak intelligently about chemical
stabilization of soils.
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Soils Basics
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Soils 101
• Every soil has a classification, proctor and Atterberg limits.• Proctor is moisture and density information for compaction purposes.• Atterberg Limits
• Liquid Limit• Plastic Limit• Plasticity Index
• PI tells us a lot when it comes to stabilization and chemical selection.
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Soils Classification
Peat
, muck,
and
oth
er
hig
hly
org
anic
soils
AASHTOGroupClassification
SoilType
UnifiedGroup Symbol
RecommendedAdditives
GW GP GM GC SW SP SM SC ML CL OL MH CH OH PT
A-1-a A-1-a A-1-b A-1-b A-1-bA-1-b
orA-3
A-2-4or
A-2-5
A-2-6or
A-2-7A-4 A-6 A-4 A-5 A-7-6 A-7-5 A-8
Lime Kiln Dust
Poorly
grad
ed
grav
els
and
grav
el s
and
mix
ture
s, li
ttle
or
no f
ines
Portland Cement
Well
grad
ed
grav
els
and
grav
el s
and
mix
ture
s, li
ttle
or
no f
ines
Silt
y gr
avels
, gra
vel-
sand-
silt m
ixtu
res
Cla
yey
grav
els
, gra
vel-
sand-
clay
mix
ture
s
Well-
grad
ed
sands
and
grav
elly
san
ds, l
ittle o
r no f
ines
Poorly
grad
ed
sands
and
grav
elly
san
ds,
little o
r no f
ines
Silt
y sa
nds
, san
d-si
lt m
ixtu
res
Cla
yey,
san
ds, s
and-
cla
y m
ixtu
res
Inorg
anic
silt
s, v
ery
fin
e s
ands
, rock
flour, s
ilty
or
cla
yey
fine s
ands
Inorg
anic
cla
ys o
f lo
w t
o m
edi
um
pl
asticity,
gra
velly
cla
ys, s
andy
cla
ys,
silty
cla
ys, l
ean
cla
ys
Org
anic
silt
s an
d org
anic
silt
y cla
ys o
f lo
w p
last
icity
Inorg
anic
silt
s, m
icac
eous
or
diat
om
aceous
fine s
ands
or
silts,
ela
stic
si
lts
Inorg
anic
cla
ys o
f hig
h p
last
icity,
fat
cla
ys
Org
anic
cla
ys o
f m
edi
um
to h
igh p
last
icity
Quicklime
GRAVEL SANDY SILTY CLAY
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92949698
100102104106108
10 15 20 25 30OMC = 17%
Max
Dry
Den
sity
(PC
F)
The Proctor Curve
1. Typical specification is 95% maximum density.
2. If moisture is too high density is impossible to achieve.
3. High moisture = poor compaction.
4. Undercutting or Stabilization is common solution.
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Atterberg Limits• Liquid Limit – Moisture content at which the soil
behaves like a liquid.• Plastic Limit – Moisture Content at which the soil
exhibits plastic behavior.• Plasticity Index is: LL – PL = PI
Sand Silt Clay
0-5 Low – Medium 5-20 High 20-50+
Basic PI Chart
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PI and Clay Content is Critical
• Clay is primarily Silica and Alumina, sand and silt have little or none of either.
• This makes the soil clay content and the PI absolutely critical to understand what chemical will, or will not work for stabilization applications.
• My first questions are always 1) What are you trying to do? 2) soil type, 3) moisture and 4) schedule.
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Subgrade Basics
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The Role of The Subgrade
• The subgrade is anything underneath the pavement or foundation and base.
• Typically built up with on site excavated soils for elevation.
SURFACE
SubgradeCBR, Mr
Base or Sub-Base
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The Role of The Subgrade
• The subgrade layer is vital to constructability and performance of pavement or foundation.
• Subgrade soil conditions are a major problem in construction.
SURFACE
SubgradeCBR, Mr
Base or Sub-Base
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Subgrade Problems
1) Soil Stabilization is primarily a subgrade treatment application.
2) Subgrade Problems are the #1 cause of major change orders in earthwork construction.
3) This leads to unanticipated (unbudgeted) cost and significant changes in the scope of work and SCHEDULE.
4) Surface performance, durability and quality are greatly influenced by subgrade conditions.
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Stability vs. Soil Type & Moisture
• All soils are different but have 1 thing in common:• Higher Moisture Content = Reduced Stiffness.
• Some are more stable than others near OMC, i.e. sands, clays.• Others are unstable even at or near OMC, i.e. silts, silty clays.• If constructed conventionally, subgrade soils follow seasonal cycles for
moisture and thus stiffness, strength varies with the season.
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Most Common Subgrade Treatment Types
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Common Subgrade Recommendations
• “In areas of the proposed field, the existing soil is high in moisture and subsequently weak. Those soils should be undercut to a depth of 3’-4’ and replaced with granular fill.”
• “The subgrade should be proof rolled prior to placing base course. All weak areas should be marked and undercut to a depth of 3’ and replaced with granular fill.”
• Reminder: 1,000 CY of excavation = 100 truck loads of export and 100 truck loads of import. Total of 200 loads for 1,000 CY.
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Stabilization vs. Undercut $
• Lime, Cement, Other chemicals can be used based on soil type and condition.
• Early strength gives stability needed quickly.
• Provides uniform load distribution for base, pavement.
• Fraction of the time and cost of undercutting.
Undercut ChemicalModification
Cut Fabric Stone Backfill 12" Chemical Modification
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Soil Stabilization at a Glance• SS is essentially chemically
engineering existing poor soil into a high performance material.
• We treat the unsuitable soils in place.
• We use the appropriate chemical for the soil types…
• At the appropriate application rate…• Mix thoroughly to a depth up to
16”…• Then compact, shape and seal.
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Materials and Applications
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Materials and Construction Procedures
• In soil stabilization applications, the largest contributing factors to performance and success are:
1. Materials Used (chemicals)2. Construction Procedures3. Equipment4. Contractor Experience
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Stabilization Chemicals
• There are many different chemicals used to accomplish drying, modification and stabilization.
• With few exceptions, materials can be divided into 2 categories:
• Lime based products• Quicklime• Lime Kiln Dust
• Portland Cement and Cement Blends
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Material Performance• We base performance on 3 criteria:
1. Drying – Moisture Reduction2. Modification – The ability of the chemical to react with the soils
to create a solid working platform quickly. Modification is soil and condition dependent.
3. Stabilization – Long term strength gains that gives a pavement subgrade higher design strength and service life durability.
• Most common chemicals are Quicklime, Portland Cement and Lime Kiln Dust (LKD). Fly Ash in some markets.
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Lime Products Superior Drying
• Lime based products are by far and away the most effective in soil drying applications.
• This is because of their tremendous thirst for moisture and because of available lime (available CaO).
• A lot of chemicals look similar chemically but available CaO is the major difference.
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Chemistry is The Key to Performance
Property Typical Value
CaO 50 – 65%
Available CaO 35-45%
SiO2 5 – 8%
Al2O3 3 – 8%
Gradation 75% < 200 Mesh
Property Typical Value
CaO 90% - 95%
Available CaO 85% - 90%
Gradation ¼” x 0
Quicklime
Property Typical Value
CaO 60% - 67%
SiO2 19% - 23%
Al2O3 2% - 6%
Gradation 85% < 325 Mesh
Portland Cement
Lime Kiln Dust
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Why are Lime Products so Effective in Drying?
Lime + Water Hydrated Lime
CaO + MgO + H2O Ca(OH)2 + Mg(OH)2
• Lime Products absorb 30-40% of their weight in water during hydration.
• That hydration lets off heat, driving off additional moisture through increased evaporation.
• The key to the reaction is the “Available CaO”.
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Soil Drying - Construction• Used primarily for treating fill soils.
• Typically a spread & mix operation only and we add just enough lime to dry the soil to facilitate grading operations.
• No strength or stability requirement for treated soil, only treating for moisture reduction.
• Widely used on mass grading projects, building pads, etc.
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Drying Project Example
• Bexley, OH Running Track• Subgrade had passed proof roll
and then had multiple heavy rains prior to surface.
• Surface would not dry.• 5% LKD applied to 12” depth to
dry the subgrade so surface could be applied.
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Performance - Soil Modification• Soil Modification encompasses a number of benefits
including:• Moisture reduction (drying)• Plasticity reduction• OMC Increase• Reduction or elimination of swell potential• Improved stability• Solid working platform
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Chemical Modification• Chemical Modification is the most common stabilization
application and is the most widely used.
• Chemical Modification is the immediate results that you see in the field during and after our operation.
• Typically use more lime for Modification than drying and the end product is a physically modified soil and stable subgrade that is weather resistant.
• Cement is commonly used for modification in sandy or very silty soils.
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Lime Modification Lime Reacts Chemically with Clayto Alter Molecular Interactions
Untreated clays have amolecular structure similar to
some polymers, and give plastic properties. The structure can
trap water between it’s molecular layers, causing volume and
density changes.
In treated clays Calcium and Magnesium atoms (from Lime) have replaced Sodium and Hydrogen atoms producing a soil with very friable characteristics
Clay Particle Water Layer
Flocculation/Agglomeration
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Soil Before And After Treatment
PI of 38PI of 9
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92949698
100102104106108
10 15 20 25 30
No LKD3% LKD
OMC = 17%
Dry
Den
sity
(PC
F)
Lime Changes Proctor Through Modification
OMC = 21%
Compaction should target the modified OMC moistureand density, not the OMC/density of the untreated material
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Effective Change in Moisture Content
Current Moisture Content 27%
Optimum Moisture Content 17%
Tolerance OMC + 3%
Targeted Moisture Content 17% - 20%
In – Situ Soil Conditions
Current Moisture Content 24%
Optimum Moisture Content 21%
Tolerance = OMC + 3% OMC + 3%
Targeted Moisture Content 21% - 24%
3% LKD Addition
• Adding 3% LKD gives you the net drying effect of 7% in the field:
• Decrease moisture content by 3%
• Increase OMC by 4%
• This effect is unique to lime products.
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Modification Includes Strength/ Stability
• Strength increase resulting from moisture reduction and textural change in the soil in the first 4-48 hours is modification.
• Cement is used for modification in sandy or very silty soils.
• This strength is adequate to provide stability, pass proof roll, create working platform, etc.
• Not true stabilization.
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Cement Modification – Project Example
• MLS Practice Facility Milford, OH• Soft, pumping silty clays.• High in Moisture.• Schedule was in jeopardy
• Chose stabilization in lieu of undercutting.
• 5% Cement, 12” Treatment Depth.
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Stabilization is All About Chemistry
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Soil Stabilization: Taking Full Advantage of a Construction Practice
1) Designing High Quality Subgrade:• Improves stability during construction and long term
pavement performance.1) Stabilized layer is taken into account structurally for
savings.1)Increased CBR, Mr or;2)Stabilized layer is used as a structural layer of pavement.
0.11 – 0.25/in.2) Very significant cost savings and the most effective
use of our services.
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Definition: Pozzolanic Reaction• Pozzolan – A siliceous or aluminous material that
when combined with calcium hydroxide forms cementious compounds.
• Silica & Alumina are primary elements in clay soil and small amounts in LKD.
• Calcium Hydroxide is “hydrated lime” (CaOH2).
• The Pozzolanic Reaction is the fundamental reaction that takes place for lime stabilization.
• Portland Cement is purely self cementing, doesn’t react with soil.
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Soil Stabilization Pozzolanic Reactions Using Lime
Products
On-going reaction with CaOH2 and available
silica and alumina in the soil forms complex
cementitious materials (the POZZOLANIC effect)
Pozzolanic Reaction
Calcium Hydroxide from lime
Clay Particle
Hydrated LimeHydrated Lime
Hydrated Lime
Hydrated Lime
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The Importance of pH in Stabilization
• The high pH keeps alumina and silica soluble for the reaction to continue over time.
• INDOT results from soil 5-9 years since treatment.
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Sand/Silt Particle
Portland Cement Stabilization• Cement hydration process is
very complex but it’s effect on soil is simple.
• Cement coats and bonds soil particles together like glue.
• Coarser soil = less surface area = more effective.
• Most effective in granular soils.
Sand/Silt Particle
Cement Coating
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Stabilization With LKD• Lime Kiln Dust is a by-product of lime production and is
essentially a “hybrid” material.
• Available Lime makes it effective in high PI soils and combination of CaO, Silica and Alumina make it self-cementing for low PI soils.
Property Typical Value in LKD
CaO 50 – 65%
Available CaO (available lime) 35-45%
SiO2 5 – 8%
Al2O3 3 – 8%
S < 1%
Passing #200 Sieve 75 – 90%
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Typical Application Rates
Drying Modification Stabilization
PortlandCement ---- 4-6% 5-10%
Quicklime 2-4% 4-5% 4-6%
Lime Kiln Dust 3-5% 4-6% 5-8%
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Common Stabilization Strength Gains
0
50
100
150
200
250
300
350
400U
ncon
fined
Com
pres
sive
Str
engt
h (P
SI)
Curing Time
Portland Cement
Lime Kiln Dust
Quicklime
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Soils Classification
Peat
, muck,
and
oth
er
hig
hly
org
anic
soils
AASHTOGroupClassification
SoilType
UnifiedGroup Symbol
RecommendedAdditives
GW GP GM GC SW SP SM SC ML CL OL MH CH OH PT
A-1-a A-1-a A-1-b A-1-b A-1-bA-1-b
orA-3
A-2-4or
A-2-5
A-2-6or
A-2-7A-4 A-6 A-4 A-5 A-7-6 A-7-5 A-8
Lime Kiln Dust
Poorly
grad
ed
grav
els
and
grav
el s
and
mix
ture
s, li
ttle
or
no f
ines
Portland Cement
Well
grad
ed
grav
els
and
grav
el s
and
mix
ture
s, li
ttle
or
no f
ines
Silt
y gr
avels
, gra
vel-
sand-
silt m
ixtu
res
Cla
yey
grav
els
, gra
vel-
sand-
clay
mix
ture
s
Well-
grad
ed
sands
and
grav
elly
san
ds, l
ittle o
r no f
ines
Poorly
grad
ed
sands
and
grav
elly
san
ds,
little o
r no f
ines
Silt
y sa
nds
, san
d-si
lt m
ixtu
res
Cla
yey,
san
ds, s
and-
cla
y m
ixtu
res
Inorg
anic
silt
s, v
ery
fin
e s
ands
, rock
flour, s
ilty
or
cla
yey
fine s
ands
Inorg
anic
cla
ys o
f lo
w t
o m
edi
um
pl
asticity,
gra
velly
cla
ys, s
andy
cla
ys,
silty
cla
ys, l
ean
cla
ys
Org
anic
silt
s an
d org
anic
silt
y cla
ys o
f lo
w p
last
icity
Inorg
anic
silt
s, m
icac
eous
or
diat
om
aceous
fine s
ands
or
silts,
ela
stic
si
lts
Inorg
anic
cla
ys o
f hig
h p
last
icity,
fat
cla
ys
Org
anic
cla
ys o
f m
edi
um
to h
igh p
last
icity
Quicklime
GRAVEL SANDY SILTY CLAY
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Designing with Modification & Stabilization
• Depth – 8”, 12”, 14”, 16”• For stability – Deeper is better.• Modification of Fat Clays – 12” minimum.• For stabilization – depends on soil conditions and project situation.• Most projects perform 12-16” in construction.• Old vs. New
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Overview of The Construction Process for Soil Stabilization
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Stabilization Construction Procedures Have Improved Dramatically1) We know more today than we ever have about various chemicals,
application rates, various soil mineralogy reactivity, mixing, hydration, time to compaction, etc.
2) What this means is that done right, by qualified contractor with proper equipment, soil stabilization is a controlled process with high quality, predictable results.
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We Live in The Worst Conditions
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This is Not Soil Stabilization…
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Material is delivered by Pneumatic Tanker and
transferred into Spreaders
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Spreading – Quality Control• Application rate (lbs/
sy) is controlled by vein feeder.
• Vein feeder controls are in the operator’s cab.
• Application rate is within 1-2 lbs/sy.
• I.e. – 4%= 40 lbs/sy
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Water Addition
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Slurry Applications
Slakers Used to Make Slurry on Site or Off Site
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Self Powered Rotary Mixers – Key to Quality in Stabilization
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Mixing Chambers
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Shaping and Compaction
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Steel Wheel Roller
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Finished Product
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Curing
• In modification and stabilization applications, we recommend 3-5 day minimum curing for the layer to gain strength enough to hold up to construction traffic.
• There are many different factors that serve to reduce and extend this recommendation.
• You should always plan on a minimum of 3 days before any heavy loads.
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Chemical Stabilization In Summary
• 3 Applications Within The Stabilization Family:• Drying• Modification• Stabilization
• All applications are significant cost savings, schedule savings, conserve materials and reduce truck traffic vs. their alternative.
• Many chemicals available to solve a variety of soils and conditions.• Our industry strongly encourages planning for stabilization in design.