An Investigation of Prediction Model fo An Investigation of Prediction Model fo r Autogenous Shrinkage/Expansion Stra r Autogenous Shrinkage/Expansion Stra in of Low-shrinkage HSC in of Low-shrinkage HSC rth International Seminar on Self-desiccation and Its Importance in Concrete Technol 20/June/05, Gaithersburg, Maryland, USA Makoto TANIMURA, Yuji MITANI Makoto TANIMURA, Yuji MITANI Taiheiyo Cement Corporation, Japan Taiheiyo Cement Corporation, Japan Ryoichi SATO Ryoichi SATO Hiroshima University, Japan Hiroshima University, Japan 1
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Fourth International Seminar on Self-desiccation and Its Importance in Concrete Technology
1. An Investigation of Prediction Model for Autogenous Shrinkage/Expansion Strain of Low-shrinkage HSC. Makoto TANIMURA, Yuji MITANI Taiheiyo Cement Corporation, Japan Ryoichi SATO Hiroshima University, Japan. - PowerPoint PPT Presentation
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An Investigation of Prediction Model for AutAn Investigation of Prediction Model for Autogenous Shrinkage/Expansion Strain of Lowogenous Shrinkage/Expansion Strain of Low
-shrinkage HSC-shrinkage HSC
Fourth International Seminar on Self-desiccation and Its Importance in Concrete Technology 20/June/05, Gaithersburg, Maryland, USA
Ryoichi SATORyoichi SATO Hiroshima University, JapanHiroshima University, Japan
1
Influence of dosage of Expansive additive and/or shrinInfluence of dosage of Expansive additive and/or shrinkage reducerkage reducerPrediction model for autogenous shrinkage/expansion sPrediction model for autogenous shrinkage/expansion strain of low-shrinkage/expansion HSCs (required in practtrain of low-shrinkage/expansion HSCs (required in practice)ice)
Importance of autogenous shrinkage in HSCImportance of autogenous shrinkage in HSC Necessity of reducing autogenous shrinkageNecessity of reducing autogenous shrinkage----- well known!! (JCI committee 1996 & 2002)----- well known!! (JCI committee 1996 & 2002)
Effectiveness of expansive additive, shrinkage reduceEffectiveness of expansive additive, shrinkage reducer, High Cr, High C22S and low CS and low C33A-cementA-cement Effectiveness for reduction of restrained-shrinkage stEffectiveness for reduction of restrained-shrinkage stress, improvement of structural performance of RC memress, improvement of structural performance of RC membersbers
Before demoldingBefore demolding Testing Method for Autogenous Shrinkage/Expansion of Concrete Testing Method for Autogenous Shrinkage/Expansion of Concrete After demoldingAfter demolding JIS A 1129 (contact-type strain gage) JIS A 1129 (contact-type strain gage)
Definition of strain in this studyDefinition of strain in this study
AS of LPC-HSC is obviously small compared with OPC-HSC.AS of LPC-HSC is obviously small compared with OPC-HSC. Prediction by JSCE Code is in good agreement with Prediction by JSCE Code is in good agreement with measurement. measurement.
Effectiveness of Berite-rich low heat Portland cementEffectiveness of Berite-rich low heat Portland cement
-500
-400
-300
-200
-100
0
0.1 1 10 100
N-0-0-measured valueN-0-0-calculated valueL-0-0-measured valueL-0-0-calculated value
Au
toge
nou
s sh
rin
kag
e st
rain
(x1
0-6
)
Age (days)
6
JSCE 0.4
LPC
JSCE Code-2002
OPC+40%
‐40%
‐40%
+40%
(by Miyazawa et al.)
Initial set
0
0.2
0.4
0.6
0.8
1
0 3 6 9 12 15
Ordinary Portland cement
Low-heat Portland cement
Rat
io o
f au
toge
nou
s sh
rin
kag
e st
rain
(x1
0-6)
Unit SRA content (kg/m3)
SRA is obviously effective in reducing AS.SRA is obviously effective in reducing AS. AS of LPC-based HSC is almost cancelled by adding SRA.AS of LPC-based HSC is almost cancelled by adding SRA.
-500
-400
-300
-200
-100
0
0.1 1 10 100
N-0-0
N-0-6
N-0-9
N-0-12
L-0-0
L-0-6
L-0-9
L-0-12Au
toge
nou
s sh
rin
kag
e st
rain
(x1
0-6)
Age (days)
Ras=0.0008SRA2-0.035SRA+1
Ras=0.0024SRA2-0.094SRA+1
始発
7Effectiveness of shrinkage reducing agent(SRA)Effectiveness of shrinkage reducing agent(SRA)
LPC
OPC
Age: 91days
LPC
OPC
Initial set
-600
-400
-200
0
200
0.1 1 10 100
N-0-0N-30-0N-40-0N-50-0N-60-0
Au
toge
nou
s ex
pan
sion
/sh
rin
kag
e st
rain
(x1
0-6)
Age (days)
(Expansion)
(Shrinkage)
-200
0
200
400
600
800
0.1 1 10 100
L-0-0L-30-0L-40-0L-50-0L-60-0
Au
toge
nou
s ex
pan
sion
/sh
rin
kag
e st
rain
(x1
0-6)
Age (days)
(Expansion)
(Shrinkage)
Effectiveness of expansive additive (EX)Effectiveness of expansive additive (EX) 8
EX effectively compensate AS.EX effectively compensate AS. Absolute expansion strain is dependent upon AS behavior of rAbsolute expansion strain is dependent upon AS behavior of reference HSC.eference HSC. Combination of LPC & EX; achievement of expansive HSCsCombination of LPC & EX; achievement of expansive HSCs
Initial set
LPCOPC
50%
80%
0
200
400
600
800
0 10 20 30 40 50 60 70 80
Ordinary Portland cement
Low-heat Portland cement
Com
pen
sati
on o
f au
toge
nou
s sh
rin
kag
e (x
10-6
)Unit EX content (kg/m 3)
Compensation of AS is more significant for LPC-based HSC.Compensation of AS is more significant for LPC-based HSC. Reason; difference in early-age mechanical property, etc.Reason; difference in early-age mechanical property, etc.
Description of the effect of expansive additive Description of the effect of expansive additive (EX)(EX)
εex∞=0.144EX2+4.47EX
εex∞=0.061EX2+5.82EX
compensation of AS from final set
of EX-added HSC
Definition of compensation of AS
9
LPC
OPCAge: 91days
istAge
t
fst
)t,t(' isas
)t,t( isex
)t,t( fsex
Exp
ansi
onS
hrin
kage
(Initial setting)
(Final setting)AS from initial set of EX-added HSC
0
200
400
600
800
1000
1200
0 10 20 30 40 50 60 70 80
L-0L-6L-9L-12
Com
pen
sati
on o
f au
toge
nou
s sh
rin
kag
e (x
10-6
)
Unit EX content (kg/m 3)
0
200
400
600
800
1000
1200
0 10 20 30 40 50 60 70 80
N-0N-6N-9N-12
Com
pen
sati
on o
f au
toge
nou
s sh
rin
kag
e (x
10-6
)
Unit EX content (kg/m 3)
Effectiveness of combined use of EX and SRAEffectiveness of combined use of EX and SRA
No SRA
εex+sra∞=0.142EX2
+3.08EX
εex+sra∞=0.278EX2
+0.039EX
No SRA
SRA=6~ 12 kg/m3
10
Significant synergistic effect is observed when EX content of Significant synergistic effect is observed when EX content of more than 40 kg/mmore than 40 kg/m33
Reason; delicate change of hydration reaction of EX and Reason; delicate change of hydration reaction of EX and cement by adding SRA, etc.cement by adding SRA, etc. --- further investigations is needed for detailed explanation,--- further investigations is needed for detailed explanation, from both chemical and mechanical point of view.from both chemical and mechanical point of view.
LPCOPC
Age: 91daysAge: 91days
Synergistic effect
Synergistic effect
SRA=6~ 12 kg/m3
11Definition of compensation of AS for EX+SRA-Definition of compensation of AS for EX+SRA-added HSCadded HSC
Exp
ansi
on
Age
Shr
inka
ge
(Initial setting)
(Final setting)
istt
fst
)t,t(' isas
)t,t( issraex
)t,t( fssraex
AS from initial set of SRA-added HSC
compensation of AS from final set of EX+SRA-added HSC
AS from initial set of EX+SRA-added HSC
Basic equation; JSCE Code equation for AS
}])tt(aexp{1[')t,t(' bisasisas
)}C/W(2.7exp{3070'as
End valueDevelopment propertya=0.6, b=0.5 for W/C=0.3
Initial set
12Prediction model for autogenous shrinkage/expansion Prediction model for autogenous shrinkage/expansion strain, considered effect of EX and/or SRA strain, considered effect of EX and/or SRA
It is surely confirmed that HSCs with various low shrinIt is surely confirmed that HSCs with various low shrinkage/expansion strain properties can be produced by sole/kage/expansion strain properties can be produced by sole/combined use of investigated materials.combined use of investigated materials.
It is demonstrated that the investigated equations have It is demonstrated that the investigated equations have accuracy of 20 % for predicting autogenous shrinkage /eaccuracy of 20 % for predicting autogenous shrinkage /expansion strain of low-shrinkage/expansion HSCs.xpansion strain of low-shrinkage/expansion HSCs.(Further investigation is needed for temperature effect) (Further investigation is needed for temperature effect)
ConclusionsConclusions 17
On the other hand, addition of EX and/or SRA influence the strength of HSC. Therefore, suitable dosage of EX and/or SRA as well as W/C should be determined by considering both low-shrinkage performance and high-strength performance.
Thank you !!Thank you !!
High-mechanical performance and high-durability
Necessity of low-shrinkage HSCNecessity of low-shrinkage HSC
Significant autogenous shrinkage
Tensile restrained-stress before loading
Deterioration of serviceability performance of RC members
LPC has lower autogenous shrinkage and resultant-induced stressLPC has lower autogenous shrinkage and resultant-induced stress
Influence of mineral compositions of Influence of mineral compositions of cement cement on autogenous shrinkage on autogenous shrinkage
Mineral compositions of Portland cement in Mineral compositions of Portland cement in JapanJapan
Mineral content (%) Cement
C3S C2S C3A C4AF
OPC (Ordinary) 52 22 9 9
LPC (Belite-rich) 29 54 3 9
400x10-6
1000x10-6
High CHigh C22S, Low CS, Low C33AA
Calculated value
Basic equation; JSCE Code equation for AS
}])tt(aexp{1[')t,t(' bisasisas
)}C/W(2.7exp{3070'as
End valueDevelopment propertya=0.6, b=0.5 for W/C=0.3
Initial set
22Prediction model for autogenous shrinkage/expansion Prediction model for autogenous shrinkage/expansion strain, considered effect of EX and/or SRA strain, considered effect of EX and/or SRA
Approach for investigating prediction equation;Approach for investigating prediction equation; SRA effect -- Reduction of end value of ASSRA effect -- Reduction of end value of AS EX effect – Superposition of compensation of AS and AS of EX effect – Superposition of compensation of AS and AS of reference HSC based on JSCE-code equationreference HSC based on JSCE-code equation EX+SRA effect –Superposition of compensation of AS for EX+SRA effect –Superposition of compensation of AS for EX+SRA-added HSC, including synergistic effect , and AS of EX+SRA-added HSC, including synergistic effect , and AS of SRA-added HSCSRA-added HSC