a targeted approach to high-volume fly ash concrete...
TRANSCRIPT
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A Targeted Approach to High-Volume Fly Ash Concrete Pavement (Phase I)
Kickoff webinar
Xianming Shi, Ph.D., P.E.
Sen Du
Lab for Advanced & Sustainable Cementitious Materials (ASCM)
Washington State University
August 19, 2016
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Background
Fly ash, as a main by-product of coal-fired power plant, is one of the most used supplementary cementitious materials (SCMs) in concrete.
The application of increased proportion of fly ash in concrete makes it a more sustainable material.
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Background
Research is much needed to greatly advance our understanding in the use of nanotechnology for high-volume fly ash concrete (HVFAC), especially when such concrete is intended for pavement applications.
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Nano-modification
(1) Serve as nano-sized fillers
(2) Serve as “nucleus” to guide the formation and growth of cement
hydration products + develop refined microstructure
– Activate hydration to enhance early-age strength
– Nano-SiO2: react with Portlandite to form C-S-H
(3) Improve shape stability
• 1st International Conference in North America on Nanotechnology in Cement and Concrete,
2010, Irvine, CA
• Han, B., et al. Journal of Materials Engineering and Performance, 2013, 22, 184
Pekmeczi et al. 2007 ACIMJ 104(3)
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Nano-modification
(4) Endow new functionality
(5) Promote the growth of high-density C-S-H
Pekmeczi et al. 2007 ACIMJ 104(3)
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Project Scope
Objective – To develop a viable nanotechnology approach to treat coal fly ashes based on their as-received characteristics before their use in sustainable concrete pavement.
The use of nanotechnology to address weak interfaces (e.g., interfacial transition zone) in such sustainable concrete is a highly innovative approach.
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• Mortar design
• Experiment method
• Experiment results
Compressive strength
Water sorptivity
Gas permeability
Progress to date
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Fly ash replacement: 60%
Water-binder ratio: 0.3
Fine aggregate-binder ratio: 1.5
Adequate high-range water reducer
Self-compacting
high volume fly
ash mortars
Mortar design
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Experiment method
1. Nanoparticles to coat fly ash in
the filter bag
Dip-coat method:
GO solution (x g/L)
Nanoclay suspension (y g/L)
Aqueous nano-film growth method:
Chemical solution (z mol/L)
Treatment time: t0 to t1 min
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Experiment method
2. Dry the fly ash mud
Dry time: t2 min
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Experiment method
3. Mix the remaining mixing water
with fly ash mud in mixer
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Experiment method
4. Dry mix cement and sand.
5. Add the fly ash paste into the mixture of
cement and sand.
6. Add water reducer to get the desired
workability of the nano-HVFA mortars.
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1. Compressive strength, 7-day
GO (x g/L)
Optimum treatment
time: 2h
Compressive
strength increase
about 12.6%
ASTM C39 Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens1
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2. Compressive strength, 7-day
Nanoclay (y g/L)
Optimum treatment
time: 30 min
Compressive
strength increase
about 18.1%
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3. Compressive strength, 7-day
Chemical solution (z mol/L)
No benefit
observed
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3. Compressive strength, 7-day
Optimum HVFA mortars:G.O. treatment of 2h; nano-caly treatment of 30min
Further tests:
Water sorptivity:ASTM C1585
Gas permeability
ASTM C1585 Standard Test Method for Measurement of Rate of Absorption of Water by Hydraulic-Cement Concretes1
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4. Water sorptivity, 7-day
No benefit
observed
compared with
control
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5. Gas permeability, 7-day
Gas permeability
decreased
10.2% by GO
2.9% by Nanoclay
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6. Water sorptivity, 28-day
Water sorptivity
decrease
found in GO only
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7. Gas permeability, 28-day
Gas permeability
decrease
11.6% in GO
23.7% in Nanoclay
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Research Approach
Month
Task Name 1 2 3 4 5 6 7 8 9 10 11 12
1. Preparation and
characterization of materialsX X X
2. Laboratory Evaluation of Nano-
scale Surface Treatment Methods
for Fly Ashes and Coarse
Aggregates
X X X X X X X X
3. Final Report and Outreach X X X X
Deliverables/Milestones
1. Quarterly report X X X
2. Draft final report X
3. Final manuscript/ presentationX
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Experimental PlanRaw Materials for
Sustainable
Concretes
Sample
Preparation and
Properties
testing
Microstructure and
Chemical analyses
Mechanistic
Studies/
Hypothesis
Testing
1. Three types of
common fly ashes
2. One type of
typical non-reactive
coarse aggregate
with or without
nano-scale surface
treatment via:
(a) dip-coat in
solutions of
nanoparticles, or
(b) aqueous
nanofilm growth
3. Fine aggregate,
air entraining agent,
and high-range
water reducer.
Sample
preparation
Mix designs with
water/binder ratio
of 0.20, 0.25, and
0.30 for HVFACs
and 0.40 for
ordinary Portland
cement concrete
(control)
Properties testing
Workability,
mechanical and
transport
properties
1. The physicochemical
properties of fly ashes
and aggregates by
SEM, XRF and XRD.
2. Chemistry of
hydration products by
DSC, TGA, XRD, or Si
NMR.
3. Morphology of crucial
interfaces or hydration
products by FE-EPMA.
4. Chemistry and
crystalline structure of
crucial interfaces or
hydration products by
SEM/EDS, FE-EPMA,
or XRD
1. Nano-materials
act as template for
fly ash hydration.
2. Nano-materials
act as nucleus to
guide the formation
and growth of fly
ash hydrates.
3. Surface
treatment of fly
ashes improves
their interface with
the paste.
4. Surface
treatment of coarse
aggregates
improves the ITZ
microstructure.
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Additional Tests of Concrete in Phase I
Compressive strength (ASTM C39), Modulus of elasticity
(ASTM C469), Tensile strength (ASTM 496): at 3-d, 7-d, 14-d,
and 28-d
For any given mix design, several iterations of trial batches may
be necessary in order to obtain reasonable workability and air
content in fresh concrete.
For the selected mix designs with promising workability and
strength properties, their initial and final setting times and
drying shrinkage behavior will be tested as well.
Transport properties of 3 “best performing” HVFACs
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Tests of Concrete in Phase II
To assess the properties of selected concrete specimens made of
surface treated fly ashes and aggregates, with the focus on
properties relevant to pavement application.
The coefficient of thermal expansion (CTE)
Abrasion resistance
Freeze-thaw durability
Leaching tests of heavy metals.
Availability of selected fly ashes and economical affordability or life
cycle cost of selected HVFACs
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Products anticipated
Deliverables of this Lab Prototype project: QPRs, periodical
teleconferences, and a project final report.
At least one paper for presentation at TRB annual meeting and
publication in a peer-reviewed journal. One patent application.
Building on the success of this research, field operational tests will
be conducted as part of a follow-up study. The team will work closely
with local communities/agencies to field test the new “greener”
concrete pavement materials.
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Questions?
Xianming Shi, PhD, PE
Associate Professor, Civil & Environmental Engineering
Washington State University
Sloan 101, PO Box 642910Pullman, WA 99164-2910Phone: 1-509-335-7088
public.wsu.edu/~Xianming.Shi/