reactivity analysis of high calcium fly ash as raw
TRANSCRIPT
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Reactivity analysis of high calcium fly ash as raw
material for non-traditional, fly ash-based binders Ivan Diaz-Loya
CeraTech, Inc.
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Technology overview
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Quality control
QC Tools
• Beyond pass-fail
• Deliver concrete with consistent set time
and strength
• Quantify reactivity and relate to the effect
in the concrete mix. Quantify reactivity-
quantify adjustments
• Deliver green concrete, quality and
consistency
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HC Fly ash
• Silica, calcium oxide, alumina and
iron oxide
• Mostly amorphous
• Crystalline components can be
considered relatively inert
• MPS: 20 microns on avg
• Reactivity depends on glassy
phase content and composition
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Reactivity study
• 20 Fly ash samples
• Fly ash variables: XRF, XRD,
PSD
• ASI and NBO/T calculated from
the total oxide content as
measured by XRF
• Response: Compressive strength
@ 1 day
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Chemical analyses
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XRD
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PSD
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Compressive strength
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Stepwise regression
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Glass science basics
Network Formers Network Modifiers
Si, Al, Fe K, Na, Ca, Mg
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ASI and NBO/T
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ASI and NBO/T
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ASI and NBO/T
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ASI and NBO/T
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Assumptions and restrictions
• No Crystalline phases (100% Glass)
• Free energy of hydration not considered
• Constant physical characteristics
• Homogeneity
• Compositional range
• Fe is always acting as a network former
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Other sources of variability
• Redox state or Fe — Fe (II) has much lower FEH than Fe
(III)
• P2O5 in concentrations near as low as 1% can have
profound effects on liquidus phase relations and transport
properties [Willie an Tuttle, 1964; Toplis et al., 1994; Wolf
and London, 1994]
• TiO2 can occur in a 4-fold coordination and substitute Si
to act as a network former, it can also be coordinated with
more than 4 oxygens and act as a network modifier
• SO3 Interactions
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Despite the assumptions
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In practical terms
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Questions??