composite pavements: design, construction, and benefits michael i. darter & derek tompkins...
TRANSCRIPT
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Composite Pavements: Design, Construction, and Benefits
Michael I. Darter & Derek TompkinsPavement Research InstituteUniversity of Minnesota
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Presentation Outline
12th Annual MN Pavement Conf14 Feb 2008
1. History of Composite Pavements2. Critical Issues for Composite
Pavements• Design• Construction
3. SHRP2 R21 Composite Pavements
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12th Annual MN Pavement Conf14 Feb 2008
• All pavements are “composite” since they consist of layers of different materials bonded together.
• Types of pavements generally called “Composite” Pavements:– AC/PCC (new construction)– PCC/PCC (“wet-on-wet”)
Brief History ofComposite Pavements
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AC-over-PCCComposite Pavements
12th Annual MN Pavement Conf14 Feb 2008
• North American urban areas, US States, & Canadian Provinces have built AC/PCC for many years
• European usage with AC/CRCP is common on major freeways
Relativelythin AC surfacing
Newly placedPCC w/ localaggregates
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AC-over-PCCComposite Pavements (Cont.)
12th Annual MN Pavement Conf14 Feb 2008
• New AC/JPCP composite pavements built by NJ, WA, WI, and Ontario in the past on major highways
• New AC/JPCP and CRCP on lane addition projects• Urban areas such as Columbus, OH; NYC and
adjoining boroughs; Wash. D.C.; and City of Toronto
• Construction of AC/CRCP on major European highways: Holland, Austria, Germany, France, Italy, and UK– Relatively thin AC layer (2-3 in) over relatively thin
CRCP• Considerable AC/Roller Compacted Concrete has
been built in various locations (e.g., Columbus, OH; Spain)
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PCC-over-PCCComposite Pavements
12th Annual MN Pavement Conf14 Feb 2008
• PCC / PCC composite pavements used frequently in Europe
• State-of-the-art construction expertise & equipment resides in Europe
High quality smaller-Sized aggregates
Lower-cost localaggregates
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PCC-over-PCCComposite Pavements (Cont.)
12th Annual MN Pavement Conf14 Feb 2008
First concrete pavement built in the U.S. (1891 in Ohio) was a two-lift composite pavement.
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PCC-over-PCCComposite Pavements (Cont.)
12th Annual MN Pavement Conf14 Feb 2008
• European countries: Germany, Austria, Belgium, Netherlands, and France.– PCC/PCC built mainly to provide a cap of
high quality aggregate concrete over a thicker layer of lower quality local aggregates or recycled concrete
– Some projects included porous concrete as the top layer
• US applications (Detroit freeway, 1993), though not as numerous as those of Europe, have resulted in useful research results.
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Two Layer Concrete With Exposed Aggregate
• Permanent high skid resistance
• Low development of noise
• Long term life Exposed aggregate
surface
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12th Annual MN Pavement Conf14 Feb 2008
• Quality of the AC mixture is critical. The most critical issues include permanent deformation, stripping of asphalt, de-bonding with the PCC, and reflection cracking.
• Functional performance of the AC surfacing ideally also provides low noise, high friction, reduced splash and spray, and smoothness.
• The ability of the AC surfacing to bond securely and have full friction with the PCC slab surface.
Critical Issues for AC/PCCComposite Pavements
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12th Annual MN Pavement Conf14 Feb 2008
Ability to remove and replace the AC surfacing rapidly and reliably
Critical Issues for AC/PCC:Rapid renewal
Cold milling equipment
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12th Annual MN Pavement Conf14 Feb 2008
Needed: A reflection cracking solution for JPCP or RCC
Critical Issues for AC/PCC:Reflection cracking
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AC over PCC (NYC experiment)
12th Annual MN Pavement Conf14 Feb 2008
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12th Annual MN Pavement Conf14 Feb 2008
Possible solution: ‘Saw and Seal’ joints in the AC surfacing over joints in JPCP or RCC
Critical Issues for AC/PCC:Reflection cracking (cont.)
New AC
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Example 1: Saw and Seal
12th Annual MN Pavement Conf14 Feb 2008
15+ year old Saw & Seal transverse joints
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Example 2: Saw and Seal
12th Annual MN Pavement Conf14 Feb 2008
Sawing missed joint
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12th Annual MN Pavement Conf14 Feb 2008
• Design of the JPCP or RCC slab is critical. The key factors include thickness, joint spacing, load transfer at joints, slab width/shoulders, PCC coefficient of thermal expansion, PCC strength/modulus, and base course.
• Slab should be designed to have low fatigue damage over the entire analysis period so that fatigue cracking will not develop.
Critical Issues forComposite Pavements (Cont.)
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12th Annual MN Pavement Conf14 Feb 2008
Design to Minimize Fatigue Damage and Cracking
Jointed Plain Concrete Pavement
Continuous Continuous Longitudinal SteelLongitudinal Steel
Concrete Slab Concrete Slab (no transverse joints)(no transverse joints)
Rebar SpacingRebar Spacing
Transverse cracksTransverse cracks
Continuously Reinforced Concrete
Pavement
Transverse cracksTransverse cracks
BaseBase
SubgradeSubgrade
Jointed Plain Concrete Pavement
Jointed Plain Concrete Pavement
Continuous Continuous Longitudinal SteelLongitudinal Steel
Concrete Slab Concrete Slab (no transverse joints)(no transverse joints)
Rebar SpacingRebar Spacing
Transverse cracksTransverse cracks
Continuously Reinforced Concrete
Pavement
Continuously Reinforced Concrete
Pavement
Transverse cracksTransverse cracks
BaseBase
SubgradeSubgrade
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12th Annual MN Pavement Conf14 Feb 2008
• Development of construction guidelines and QA procedures are also critical, both for composite AC/PCC and PCC/PCC pavements
Critical Issues forComposite Pavements (Cont.)
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RapidApproaches
MinimalDisruption
SuccessfulRenewal
Long-LivedFacilities
To develop a consistent, systematic approach to performing highway renewal that:
is rapid causes minimum
disruption produces long-lived
facilities
SHRP 2 Renewal Goal
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R09. Risk Manual for Rapid Renewal
R09. Risk Manual for Rapid Renewal
R06. High-Speed NDTR06. High-Speed NDT
R04. Innovative Bridge Designs
R04. Innovative Bridge Designs
SHRP 2 Renewal Projects
R01. Locating & Characterizing Utilities
R01. Locating & Characterizing Utilities
R02. Geotechnical Solutions
R02. Geotechnical Solutions
R05. Modular PavementR05. Modular Pavement
R07. Performance Specs For Rapid Highway
Renewal
R07. Performance Specs For Rapid Highway
Renewal
R16. Railroad-DOTMitigation StrategiesR16. Railroad-DOT
Mitigation Strategies
R15. Integrating Utility and Transportation Agency Priorities
R15. Integrating Utility and Transportation Agency Priorities
R23. Using Existing In-place Pavement & Achieving long Life
R23. Using Existing In-place Pavement & Achieving long Life
R21. Composite Systems
R21. Composite Systems
R26. Preservation Approaches for High
Traffic Volume Roadways
R26. Preservation Approaches for High
Traffic Volume Roadways
R19. Durable Bridge Systems
R19. Durable Bridge Systems
Rapid Approaches Long-Lived Facilities
Minimize Disruption
Technology relatedProject Delivery related
R21. Composite R21. Composite SystemsSystems
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Two strategies show great promise for providing strong, durable, safe, smooth, and quiet pavements that require minimal maintenance
1. Surfacing of new portland cement concrete (PCC) layer with high quality asphalt concrete (AC) layer(s), and
2. Relatively thin, high-quality PCC surface atop a thicker, less expensive PCC layer.
SHRP2 R21: New Research in Composite Pavements
12th Annual MN Pavement Conf14 Feb 2008
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AC over PCC
12th Annual MN Pavement Conf14 Feb 2008
PCC Lower Lift(JPCP, CRCP, RCC)
HMA Upper Lift (HMA, PMA, SuperPave)
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AC over PCC
12th Annual MN Pavement Conf14 Feb 2008
Slab Cracked Sensentivity Analysis
0
20
40
60
80
100
6 7 8 9 10JPCP Thickness (in)
Sla
b C
rack
ed (
%)
AC 0 inAC 1.5 inAC 3.0 in
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PCC over PCC
12th Annual MN Pavement Conf14 Feb 2008
PCC Upper Lift (Exp Aggr, Porous, High Strength, etc. )
PCC Lower Lift (Recycled/Low Quality Materials, etc. )
H1,E1
H2,E2
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PCC over PCC
12th Annual MN Pavement Conf14 Feb 2008
PCC Lower Lift(JPCP, CRCP, RCC)
3.5 Mpsi
4.4 Mpsi
3.2 Mpsi
2.85 Mpsi
Effect of E2 Modulus on Slab Cracking (H1=3, H2= 6.5 in)
0
1020
3040
50
6070
8090
100
1 2 3 4
E2 Modulus, Mpsi
Pe
rce
nt
Sla
b C
rac
kin
g
H2 = 6.5 inE2 = Varies
H1 = 3 inE1 = 4.4 Mpsi
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PCC over PCC
12th Annual MN Pavement Conf14 Feb 2008
PCC Lower Lift(JPCP, CRCP, RCC)
Effect of H1 & E2 On Slab Cracking(H2 = 6.5 in Constant)
0
20
40
60
80
100
3 3.5 4
Thickness H1 Top PCC Layer, in
Per
cen
t S
lab
Cra
ckin
g
3.5 Mpsi
4.4 Mpsi
3.2 Mpsi
E2 = 2.85 Mpsi H1 = VariesE1 = 4.4 Mpsi
H2 = 6.5 inE2 = Varies
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Composite Pavement Surfaces
Exposed Aggregate Surface
Porous Asphalt Surface
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Motivation for SHRP2 R21: Composite Pavements
12th Annual MN Pavement Conf14 Feb 2008
• The structural and functional performance of these two types of composite pavements is not well understood or documented.
• Models for predicting the performance of these pavement systems need to be developed for use in design, pavement management, and life-cycle cost analysis (LCCA).
• Construction techniques, guidelines, and specifications are limited and insufficient.
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Goals of R21 Project
12th Annual MN Pavement Conf14 Feb 2008
• Focus on new AC/PCC and new PCC/PCC composite pavement systems to:– Determine the behavior and identify critical
material and performance parameters– Develop and validate mechanistic-empirical
performance models and design procedures that are consistent with the Mechanistic-Empirical Pavement Design Guide (MEPDG)
– Develop recommendations for construction specifications, techniques, and quality management procedures for adoption by the transportation community.
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SHRP2 R21 Project Team
12th Annual MN Pavement Conf14 Feb 2008
• PI: Mike Darter, PRI• Applied Research Associates, Inc.
– Co-PI: Harold Von Quintus• Minnesota DOT & MnROAD • University of Minnesota
– Co-PI: Lev Khazanovich, UMN Civil Engineering
• University of California at Davis– Co-PI: John Harvey, UCPRC
• University of Pittsburg• International Consultants
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SHRP2 R21 and Minnesota Pavement Research
12th Annual MN Pavement Conf14 Feb 2008
• $4 Million in FHWA funding over 48 months
• Over half of funding to the State of Minnesota (Mn/DOT and UMN)– UMN will investigate modeling and
accelerated loading, Mn/DOT will implement experimental design in MnROAD test sections
• R21 is an opportunity to bring more federal attention to quality and depth of research in Minnesota
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Summary Composite Pavements
12th Annual MN Pavement Conf14 Feb 2008
Relativelythin AC surfacing
Newly placedPCC w/ localaggregates
High quality smaller-Sized aggregates
Lower-cost localaggregates
Benefits•Long life PCC surfacing•Rapid renewal of AC surfacing•Surface characteristics•Use local aggregates lower PCC slab•Long life PCC slab, no fatigue cracking•Utility repair•Lower life cycle costs