project 5-6386 1 continuously reinforced concrete pavement (crcp) performance curves prepared by...
TRANSCRIPT
![Page 1: Project 5-6386 1 Continuously Reinforced Concrete Pavement (CRCP) Performance Curves Prepared by Carlos M. Chang, Ph.D., P.E](https://reader036.vdocuments.site/reader036/viewer/2022062517/56649efe5503460f94c12323/html5/thumbnails/1.jpg)
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Continuously Reinforced
Concrete Pavement (CRCP) Performance Curves
Prepared by Carlos M. Chang, Ph.D., P.E.
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Objectives
To present the new recalibrated PMIS Continuously Reinforced Concrete Pavement (CRCP) performance models to TxDOT personnel in order to obtain feedback.
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Acknowledgment Bryan Stampley, Project Director Jenny Li, CRCP Project Advisor
CRCP Panel of Experts Abbas Mehdibeigi Darlene GoehlDavid Wagner Elizabeth LukefahrMike Alford Stacey YoungRon Baker Tomas SaenzAndrew Wimsatt Won Moon
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1. Overview of CRCP Performance Models2. Recalibration Procedure3. Recalibrated Models - Spalled Cracks - Punchouts - ACP Patches - PCC Patches - Ride Score4. Conclusions
Outline
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Overview of CRCP Performance Models
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Performance Curve Parameters
α
β
ρ
Agei eL
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α: Alpha is a horizontal asymptote factor and represents the maximum amount that can be lost.
β: Beta is a slope factor and represents the slope of the performance curve at its inflection point.
ρ: Rho is a prolongation factor and describes how long the pavement will last.
Χ: chi coefficient is a truck traffic factor for 18-k ESAL.ε: Epsilon is a climatic factor that controls the effect of rainfall
and freeze-thaw cycles on performance. σ: Sigma is a subgrade support factor.
Performance Curve Parameters
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Current Performance Curves
Spalled Cracks Punchouts
α = 1.690β = 22.090ρ = 10.270
α = 101.517β = 0.438ρ = 538.126
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ACP Patches PCC Patches
Current Performance Curves
α = 96.476β = 0.375ρ = 824.139
α = 146.000β = 1.234ρ = 40.320
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Recalibration Procedure
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PMIS Data
Performance curves were re-calibrated for CRCP distress types and ride score using PMIS data from years 1993-2010.
Expert opinion was used to refine the re-calibrated models.
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1. Extract pavement distress information from PMIS
2. Perform statistical analysis of the observed level of distress (Li) for each CRCP distress:
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Recalibration Procedure
• Spalled Cracks• Punchouts
• ACP Patches• PCC Patches
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5. Review the results and receive feedback from experienced District personnel to identify critical distress deterioration stages.
6. Filter outliers prior to regression analysis.
7. Perform calibrations using non-linear multi-regression analysis.
Recalibration Procedure
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Statistical Analysis for Distress Score and Ride Score
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PMIS data were extracted for 25 TxDOT Districts from 1993 to 2010.
12,449 sections Statewide were included in the distress statistical analysis
Box plots and Histograms were generated to study distress characteristics.
Statistical Analysis
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Statistical Parameter and Box Plot for CRCP Distress Score, Statewide. 75% of the data have a score of 99 or higher.
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Distress Score Statistical Analysis
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Relative Frequency Plot for CRCP Distress Score, Statewide.78% of the Distress Score demonstrate to have a score of 100.
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Distress Score Statistical Analysis
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Ride Score Statistical Analysis
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Most of the CRCP sections have ride score between 3 and 4.
Ride Score Statistical Analysis
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Recalibrated Models
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Spalled Cracks
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Current Spalled Cracks Model
Spalling develops aroundan age of 9 years.
Alpha =1.69Beta = 22.09Rho = 10.27
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Observed Li (Spalled Cracks per Mile)
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Statistical Analysis for Spalled Cracks
Li Statistical Parameters
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Histogram for Spalled Cracks Li
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Recalibrated CRCP Spalled Cracks Performance Model
In the recalibrated model, spalled cracks develop around an age of 9 years.
Alpha = 134.932Beta = 0.833Rho = 63.405
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Expert’s Feedback
According to expert’s feedback, the recalibrated spalled cracks curve is the most representative model and shows the slow appearance of this distress.
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Punchouts
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Current Punchouts Model
Punchouts develop aroundan age of 9 years.
Alpha = 101.517Beta = 0.438Rho = 538.126
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Statistical Analysis for Punchouts
Observed Li (Punchouts per Mile)
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Histogram for Punchouts Li
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Constraints
The alpha of the punchouts performance curve was constrained to 2. Given that punchouts are a serious structural distress and that they need to be addressed quickly, the performance curve limit the maximum number of acceptable punchouts to 2.
The beta parameter was constrained to 50.
The rho parameter was unconstrained.
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In the recalibrated model, punchouts develop around an age of 14 years.
Alpha = 1.574Beta = 15.831Rho = 15.000
Recalibrated CRCP PunchoutsPerformance Model
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ACP Patches
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Recalibration of CRCP Distress Performance Models- ACP Patches
ACP Patches develop around an age of 8 years.
Alpha = 94.476Beta = 0.375Rho = 824.139
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Statistical Analysis for ACP Patches
Observed Li (ACP Patches per Mile)
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Histogram for AC Patches Li
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Constraints
The alpha of the ACP patches performance curve was constrained to 1 since according to the statistical analysis performed this distress is not very common in CRC pavements.
The beta parameter was constrained to 50.
The rho parameter was unconstrained.
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In the recalibrated model, ACP Patches develop around an age of 15 years.
Alpha = 1.000Beta = 50.000Rho = 15.812
Recalibrated CRCP ACP Patches Performance Model
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PCC Patches
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Recalibration of CRCP Distress Performance Models- PCC Patches
PCC Patches develop around an age of 10 years.
Alpha = 146.000Beta = 1.234Rho = 40.320
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Recommended Statewide Curve, Median Method.
Statistical Analysis for PCC Patches
Observed Li (PCC Patches per Mile)
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Observed Li for PCC Patches
Histogram for PCC Patches Li
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Constraints
According to expert’s feedback, the alpha of the PCC patches performance curve was suggested to be constrained at 4
The beta parameter was constrained to 50.
The rho parameter was unconstrained.
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In the recalibrated model, PCC Patches develop around an age of 12 years.
Alpha = 4.000Beta = 16.910Rho = 12.936
Recalibrated CRCP PCC Patches Performance Model
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Summary of Recalibrated CRCP Distress Performance Models
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Ride Score
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Recalibration of Ride Score Performance Curve
min8.4
8.4
RS
RSLi
The following steps outline the process followed to recalibrate the ride score curves:
a) The traffic level was classified into Low, Medium and High.
b) According to the traffic level, the percent of ride quality lost (Li) was obtained using the following equation.
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Recalibration of Ride Score Performance Curve
Recalibrated Performance Curve (Unconstrained)
Recalibrated Performance Curve (Constrained)
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Ride Score Performance Curve Parameters
The coefficients obtained for the recalibrated statewide CRCP ride performance curves are:
Unconstrained Ride Li performance curve is proposed to represent the performance of pavement ride quality.
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Conclusions
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Conclusions
1. PMIS raw data from 1993-2010 show a large amount of records with no distresses. This situation reflects the importance of pavement sections where CRCP are located that demands immediate repair from TxDOT.
2. The lack of distress data specially at a later deterioration stage makes it challenging to develop performance curves to forecast distresses.
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Conclusions
3. The recalibrated distress performance curves represent an improvement when compared to the current distress performance curves.
4. Alpha and Rho values could be further adjusted based on local experience at each District.