Multiple Stress Creep Recovery (MSCR) testing · Accumulated Strain Testing New test procedure to...
Transcript of Multiple Stress Creep Recovery (MSCR) testing · Accumulated Strain Testing New test procedure to...
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Multiple Stress Creep Recovery (MSCR) testing
anand tadas ph.d
Malvern Aimil Instruments
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Multiple Stress Creep Recovery AASHTO TP-70
DSR performing MSCR Identifies beneficial elastic properties.
� Rutting Performance
• Direct measure of Non Recoverable Compliance (Jnr)
• Goal is quantify the non-linear performance of the binder to predict
Rutting Performance.
• 100Pa is in the linear region (expected behavior)
• 3200Pa is in the non-linear region (extreme movement)
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Multiple Stress Creep Recovery AASHTO TP-70
DSR performing MSCR Identifies beneficial elastic properties.
� Rutting Performance
• Direct measure of Non Recoverable Compliance (Jnr)
• Goal is quantify the non-linear performance of the binder to predict Rutting Performance.
• Modulus (G*) = Stress/Strain
• Compliance (J*) = Strain/Stress or 1/G*
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Multiple Stress Creep Recovery
MSCR Identifies beneficial elastic properties.
� (2 tests in 1)
� Rutting Performance
• Direct measure of Non RecoverableNon Recoverable Compliance
• Goal is quantify the non-linear performance of the binder to predict
Rutting Performance. (Jnr)
� Elastic Recovery Performance
• Direct measure of RecoverableRecoverable Compliance
• Goal is investigate differences in linear & non-linear performance
of the binder (% Recovery)
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What Causes Rutting ?
Tire load applied for a short time; pavement
permitted to recover for a
longer time; over & over & over & over ………….
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Simulate pavement loading over many cycles.
Load force applied for 1s and removed to permit binder to relax for 9s for each cycle.
If the binder has any elastic behavior, it can be directly measured in the relaxation part of the cycle.
Accumulated permanent deformation is a measure of the accumulated strain.
� Non recoverable compliance (Jnr)
For Rutting: Accumulated Strain
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Accumulated Strain Testing
New test procedure to evaluate binders on a DSR
Loading = Stress On for 1 sec & Stress Off for 9 sec0.0
0.2
0.4
0.6
0.8
1.0
0 2.5 5 7.5 10
time, s
Norm
aliz
ed S
train
γγγγacc Unmodified Binder
γγγγacc Modified Binder
0.0
0.2
0.4
0.6
0.8
1.0
0 2.5 5 7.5 10
time, s
Norm
aliz
ed S
train
γγγγacc Unmodified Binder
γγγγacc Modified Binder
Str
ain
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Linear & Non-Linear Applied Stress Loading
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Accumulated Strain from Repeated Loading
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Accumulated Strain from Repeated Loading on a Modified Binder
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Example of a Visco-Elastic Binder
Modified binder PG70-28 tested to MSCR at 70oC
100Pa
3200Pa
Jnr3200
Jnr100
J* Creep Compliance
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Example of a Newtonian material
Neat binder PG64-28 tested to MSCR at 64oC
Jnr3200
Jnr100
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MSCR Results
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MSCR Analysis
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Passing Jnr Values for MSCR
All testing is at the environmental use temperature
PG 64-28S or PG 64-28H or PG 64-28V
� S: Standard Grade = 4
� H: Heavy Grade = 2
� V: Very Heavy Grade = 1
� E: Extremely Heavy Grade = 0.5 (special applications)
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AASHTO MP-19A New Spec Much Like M-320
Original
DSR G*/sinδ
Min 1.064
RTFOT
64 Standard
MSCR3.2 <4.064
64 Heavy
MSCR 3.2<2.064
64 Very heavy
MSCR3.2 <1.064
PAV
S grade
DSR G*sinδ
Max 5000
28 25 22 19 16
H & V grade DSR G*sinδ Max
6000
28 25 22 19 16
Low temp BBR and DTT remain unchanged
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What’s Really Going On?
Jnr
Jr
J*Creep Compliance
Recoverable Compliance
Non Recoverable Compliance
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How Does It Relate To % Recovery
Total Movement
What you get back
What you loose
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How Does It Relate To % Recovery
20%
80%
100%Total Movement is always 100%
% Recovery
% Non Recoverable
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% Recovery
Tested at Environmental Temp vs. Elastic Recovery (ER) at 25C.
Relates to ‘Good’ Elastic Recovery Performance.
Data is Free. You get it from TP-70
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Common Problem
Some report negative (-) Recovery values
� Generally due to low G* samples or samples with very little elastic behavior.
Solution:
� Test at lower temperatures, if possible.
� Increase amount of modification to improve elastic contribution in the measurement.
� Test on an instrument with low instrumental inertia.