2019 Pavement Workshop May 21-23, 2019

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Presentation transcript:

2019 Pavement Workshop May 21-23, 2019 Rigid Team Update 2019 Pavement Workshop May 21-23, 2019 Brett Trautman, P.E. Physical Laboratory Director Construction & Materials Div. Missouri DOT Office No.: 573-751-1036 Email: Brett.Trautman@modot.mo.gov + 46 Associate Members

Outline Review Short Term Research -2017 Review Long Term Research – 2017 Phase II Research - 2019 Compacted Concrete Pavement - 2018

Review Short Term Research - 2017 Design and Performance of Concrete Unbonded Overlays Repair of Joint Associated Distress Pavements

Design and Performance of Concrete Unbonded Overlays Synthesis of member states Survey Questions on design features and field performance (good & bad) Contractor is SRF Consulting First draft completed

Repair of Joint Associated Distress Pavements Develop technical brief based on current knowledge & expertise Develop one hour webinar Contractor is SRF Consulting Dr. Peter Taylor with Iowa State University assisting

Review Long Term Research - 2017 FRC Research Early Opening Strength Reduced Cementitious Material

University of Minnesota – Duluth (Dr. Manik Barman) FRC Research Contractor University of Minnesota – Duluth (Dr. Manik Barman) Objectives Determine contribution of fibers in reducing panel fatigue cracking Determine contribution of fibers in mitigating joint faulting Determine optimal panel size for thin unbonded concrete overlays Determine minimum thickness of FRC for low-volume streets

FRC Research Mainline Cell #6 (506, 606, 706, & 806) Evaluating the impact fiber dosage has on fatigue cracking & joint faulting Cell No. 506 606 706 806 Length 144 ft. 138 ft.

Pavement Details (Cell #6) FRC Research Pavement Details (Cell #6) Full depth pavement on grade All cells: 6’ x 6’ panels Fiber content: Cell 506: No fibers (control) Cell 606: 20% RSR Cell 706: 30% RSR Cell 806: 0.75% fibers by volume

FRC Research Mainline Cell #5 (705 & 805) Evaluating the impact fibers have on fatigue cracking, joint faulting, & panel size Cell No. 705 805 Length 144 ft. 124 ft.

Pavement Details (Cell #5) FRC Research Pavement Details (Cell #5) Unbonded Overlay - Non-woven geotextile fabric interlayer Cell 705 - 14’W x 12’L & 12’x12’ panels Cell 805 - 6’ Wx12’L & 8’Wx12’L panels Fiber content: 20% RSR

FRC Research Low Volume Road Cell #39 (139 & 239) Evaluate using fiber-reinforced concrete pavement for city streets Cell No. 139 239 Length 270 ft. 273 ft.

Pavement Details (Cell #39) FRC Research Pavement Details (Cell #39) All cells: 6’ x 6’ panels Full depth concrete on grade Fiber content: 30% RSR

Early Opening to Traffic Contractor University of Pittsburg (Dr. Lev Khazanovich) Objectives Evaluate visible and non-visible immediate damage caused by early age loading Quantify the effect of early loading damage on long-term performance Determine minimum strength at opening or other measurable variables associated with this parameter

Early Opening to Traffic Low Volume Road Cell #24 (124, 224, 324, 424, 524 & 624) Early sequential traffic loadings Cell No. 124 224 324 424 524 624 Length 120 ft. 115 ft. 60 ft. 20 ft.

Early Opening to Traffic Pavement Details (Cell No. 24) Standard panel size 12’W x 15’L Full depth concrete on grade Standard concrete mix Doweled joints

Reduced Cementitious Content Contractor Iowa State University (Dr. Peter Taylor) Objectives Investigate the early-age characteristics of concrete paving mixes containing low cementitious content Assess the potential for durability issues Identify effect of reduced cementitious content on long term serviceability and economics Develop recommended specifications for mixing and placement practices

Reduced Cementitious Content Low Volume Road Cell #38 (138 & 238) Cells will be exposed to deicing agents Cell No. 138 238 Length 258 ft. 260 ft.

Reduced Cementitious Content Pavement Details (Cell No. 38) Standard panel size 12’W x 15’L Full depth concrete on grade Doweled Joints Cell 138 - Cementitious content = 500 lb./cy Cell 238 Cementitious content = 470 lb./cy

Phase II Research - 2019 Construction Report for Jointless Roundabout Iowa State University ($50,000) Incorporate Faulting Model To BCOA-ME University of Pittsburg ($25,000) Determination of Causes for Cracking Over Dowel and Tie Bars Posting RFP ($100,000)

Construction Report for Jointless Roundabout Roundabout constructed in Minnesota in 2018 Document project activities Mix design, placement, test results & field issues Document Initial Distresses 12 cracks noted to date Field Monitoring Three years

Incorporate Faulting Model To BCOA-ME Adding faulting model to the existing BCOA program in Pavement-ME PennDOT currently funding research to add faulting model to program Only for Pennsylvania NRRA funding to have program incorporate national inputs

Determination of Causes for Cracking Over Dowel and Tie Bars Two SPS-2 projects noted this issue Other states have observed Research being divided into two phases Phase 1: Conduct literature review, examine pavements, obtain samples from pavements and design laboratory experiments

Compacted Concrete Pavement

Big Thanks!! Emery Sapp & Sons Andale Euclid National Road Research Alliance (NRRA) Minnesota DOT Missouri University Science & Technology Southeast District - MoDOT

What is Compacted Concrete Pavement (CCP)? Similar to RCC Zero slump Consolidate by compacting No air entrainment Significant Differences Utilize a high density paver Utilize special admixture Apply special finishing aid Broom Texture

NRRA Involvement Rigid Team selected CCP Cost more than anticipated SE District added CCP to a project Contract awarded MoDOT asked if NRRA funds could be used for research First NRRA satellite project

Where

Project Location Outer Road – East side of I-55 Scott County Approx. 2 miles Test Strip on Oct. 24 Full Production started on Oct. 25 - SBL placed first

Pavement Structure Plans Proposed 6” CCP 8” CCP 4” Type V Base 12” Soil Stabilization

Mix Design Criteria Cementitious Content: 550 lbs./C.Y. Fly Ash Amount: 18% w/cm Ratio: 0.38 Amount of Fine Aggregate: 35% (by agg. vol.) Max. Aggregate Size: 1-inch Special Admixture: ACEit Fibers: 5 lbs./C.Y. of 2-inch macro fibers

Concrete Plant

Concrete Plant

Concrete Plant

Adding ACEit Admixture

Macro Fibers 5 lbs./cu. yds. 2 in. length

Adding Fibers

High Density Paver

Stringless Paving

CCP Placement

Density Testing Typically 98% behind the paver

Finishing CCP

Finishing CCP

Texturing CCP

Curing

Sawing

Test Sections Constructed three test sections (SBL’s) Test Section No. 1 (495 ft.) 15 ft. joint spacing No fibers Test Section No. 2 (504 ft.) 12 ft. joint spacing Test Section No. 3 (255 ft.) 5 lbs./C.Y. macro fibers utilized

Vibrating Wire Strain Gauges Sensor Layout Dynamic Strain Gauges Dynamic Strain Gauges Vibrating Wire Strain Gauges Joint Opening Block Out Thermocouple Tree

Installing Sensors

Looking North Test Section No. 1

Looking South Looking North Test Section No. 2

Looking South Looking North Test Section No. 3

Test Section No. 3

CCP with Fibers

Samples Molded Missouri University of Science & Technology Missouri DOT

Extracting Samples

Extracting Samples

Falling Weight Deflectometer

Lessons Learned Moisture content critical Load truck in two dumps Utilize surge hopper (prevent dumping wings) Tunnel extensions fully charge Monitor mixture consistence (each load) Adjust amplitude & frequency of tamper screed Wet Load Decrease Energy Dry Load Increase Energy

Questions or Comments?