friction study on ltpp sections in connecticut
TRANSCRIPT
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FRICTION STUDY ON LTPP SECTIONS IN CONNECTICUT
John W. Henault, P.E.Connecticut Department of Transportation
Iliya Yut, M.S.Adam Zofka, Ph.D.
University of Connecticut
Pavement Evaluation 2010
October 25-27, 2010
Roanoke, Virginia
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Who needs pavement friction?
I-84 in Manchester, Connecticut
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Motivation
• To present a historical overview of pavement friction testing in CT.
• To report in the context of presenting a real-world State Highway Agency’s experience (ConnDOT’s)
• To present an academic perspective (UConn’s) of data collected using statistics.
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History - May 1968Bureau of Public Roads (FHWA)
Demonstration in Connecticut
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K J Law Engineers Friction Testers
1978 1978
1989 1989
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Dynatest Corp.
2005
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High-Speed Laser Instrument Mounted
to Dynatest Pavement Friction Tester
2005
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2007 - Circular Texture Meter (CTMeter)
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2008 - Transportation Pooled-Fund Study
TPF-5(141)
Study Partners:
• FHWA
• CT
• GA
• MS
• PA
• SC
• VA
Pavement Surface Properties Consortium: A Research ProgramContractor: Virginia TechSponsoring Agency: Virginia DOT
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2009 - GripTesterTM Loan to ConnDOT
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Pavement CharacterizationColchester, CT
Rt. 2 LTPP (SPS-9A) Sections
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Equipment and Testing Protocols
• V=40±1 mi/hr
• 100% slip
• SN40R and SN40S measured
at start /end of ea. section
• 3 passes
• Macrotexture measured
with high-speed laser
• Mean profile depth (MPD)
and estimated texture
depth (ETD) reported
ASTM E-274 locked-wheel tester
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Equipment and Testing Protocols
• Borrowed from VTTI
• V=40±2 mi/hr
• ~15% slip
• GN reported
• 5 passes per section
GripTester™ fixed-slip tester
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Equipment and Testing Protocols
• ASTM E 2157 for measuring
macrotexture.
• 5.6 inch radius circle.
• MPD measured every 50 ft.
• 8 measurements per
section.
CTMeter
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Analysis of the Results
• Methodology
– Friction indicators:100*GN, SN40R, SN40S
– Texture indicators: CTMeter MPD, High-speed Laser
ETD, High-speed Laser MPD
– Cross-correlation analysis of friction/texture measurements
– Regression analysis of correlation between friction/texture and material properties
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Grip Numbers (GN), Site 090901
(typical of EB Sections)Descriptive Statistics
169 .73 .02
169 .75 .02
169 .75 .02
172 .74 .02
170 .68 .02
Pass 1
Pass 2
Pass 3
Pass 4
Pass 5
N Mean
Std.
Deviation
• ConnDOT Class 1 Mix
• 12.5-mm Nominal Max Size Aggregate
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Reason for Pass 5 Outliers?
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Grip Numbers (GN), Site 090960
(typical of WB sections)Descriptive Statistics, 090960
170 .57 .01
169 .68 .02
170 .67 .02
166 .68 .02
168 .62 .01
Pass 1
Pass 2
Pass 3
Pass 4
Pass 5
N Mean
Std.
Deviation
• Class 1 ~20% RAP
• 12.5-mm Nominal Max Size Aggregate
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Grip Numbers (GN), Pass 2
Descriptive Statistics
169 .75 .022
167 .75 .016
173 .73 .018
169 .68 .019
170 .69 .018
171 .69 .013
Pass 2, Site 090901
Pass 2, Site 090902
Pass 2, Site 090903
Pass 2, Site 090960
Pass 2, Site 090961
Pass 2, Site 090962
N Mean
Std.
Deviation
Perhaps lower values
owe to changes in
microtexture as a result
of 20% RAP (black rock
effect)?
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GN Histogram for Site 090901
Normal Distribution (Typical of Others)
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High-Speed Laser and CTMeter
Measurement Locations
1+00 2+00 3+00 4+00
CTMeter Locations
High-Speed Laser Locations
Typical LTPP Section
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High-Speed vs. Static
Texture Measurements
Descriptive Statistics
29 .019 .0017
29 .023 .0013
6 .032 .0028
30 .023 .0030
30 .027 .0025
8 .041 .0030
31 .020 .0023
31 .024 .0018
8 .036 .0030
28 .022 .0011
28 .026 .0010
8 .040 .0022
29 .040 .0040
29 .040 .0032
8 .050 .0053
30 .043 .0039
30 .042 .0031
8 .052 .0033
High-Speed MPD
High-Speed ETD
CTMeter MPD
High-Speed MPD
High-Speed ETD
CTMeter MPD
High-Speed MPD
High-Speed ETD
CTMeter MPD
High-Speed MPD
High-Speed ETD
CTMeter MPD
High-Speed MPD
High-Speed ETD
CTMeter MPD
High-Speed MPD
High-Speed ETD
CTMeter MPD
Section090901
090902
090903
090960
090961
090962
N Mean
Std.
Deviation
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High-Speed ETD vs. Static MPD
y = 1.0639x - 0.0141
R2 = 0.93
0.010
0.015
0.020
0.025
0.030
0.035
0.040
0.045
0.050
0.055
0.010 0.015 0.020 0.025 0.030 0.035 0.040 0.045 0.050 0.055
CTMeter MPD (inches)
Hig
h-S
peed
Laser
ET
D (
inch
es)
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Analysis of the ResultsCross-Correlation
y = -0.159x + 54.32R² = 0.024
40
42
44
46
48
50
52
50 52 54 56 58 60
SN
40
S
SN40R
y = -0.001x + 0.112R² = 0.309
0.02
0.04
0.06
50 52 54 56 58 60
CT
Me
ter
MP
D, in
SN40R
y = -0.001x + 0.107R² = 0.290
0.02
0.04
0.06
50 52 54 56 58 60
La
se
r E
TD
, in
SN40R
• No correlation between ribbed and smooth tire.
• Very low correlation between ribbed tire and texture (R2 =0.3).
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Macrotexture vs. Smooth-Tire FrictionCross-Correlation
• Good correlation between smooth tire and texture (R2 =0.8)
• Validates how smooth-tire measurements correspond with pavement macrotexture.
y = 0.002x - 0.073R² = 0.804
0.00
0.02
0.04
0.06
0.08
0.10
40 42 44 46 48 50
La
se
r E
TD
, in
SN40S
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Analysis of the Results
Cross-Correlation (GripTester vs. ASTM E-274)
• High correlation between ribbed tire and GN (R2 =0.93)
• No correlation between GN and smooth tire (R2 =0.07)
• Suggests Grip Numbers relate more to pavement microtexture, rather than macrotexture.
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Conclusions
• A high correlation between FN40R and GN values was found (R2 = 0.93).
• No correlation between FN40S and GN values was found (R2 = 0.07).
• Indicates Grip Numbers relate better to microtexture than macrotexture even though a smooth tire is used.
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Conclusions
• Good correlation between FN40S and texture was found (R2 = 0.8).
• High-speed texture measurements corresponded very well with CTMetermeasurements (R2 = 0.93).
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Acknowledgements
• The University of Connecticut
• FHWA
• Virginia DOT
• Virginia Tech