Phase II: Continuous Asphalt Mixture Compaction Assessment using Density Profiling System (DPS)
The density of an asphalt pavement after construction is a key indicator of its durability and ability to withstand traffic demands in the coming years. Achieving desired and consistent pavement density can have tremendous impact on pavement life, with small differences having major cost implications for future maintenance, repair and reconstruction. Drilling and testing core samples remains a common method for testing density, but such spot checks are time intensive, damage the pavement and cannot accurately represent the density of the entire paved area. A promising alternative is the dielectric profiling system (DPS), sometimes referred to as a density profiling system, which uses noninvasive ground-penetrating technology at the pavement’s surface to measure and report the density of the area in real time, continuously and completely. However, while the science is sound, many questions stand as barriers to deployment of DPS in the field. To develop DPS into an effective and efficient technology that can be put into practice, Transportation Pooled Fund study TPF-5(443) was initiated in 2020, funded by lead organization Minnesota Department of Transportation (MnDOT), 13 additional state DOTs and the Federal Highway Administration (FHWA). This pooled fund study undertook research and study in seven tasks areas: (1) software and hardware improvements; (2) development of American Association of State Highway and Transportation Officials (AASHTO) data collection and analysis specification; (3) precision and bias testing; (4) equipment and operator certification; (5) support communications; (6) training and technical assistance; and (7) promotion of DPS technology. Representatives from national and state transportation agencies, academia and industry provided study guidance and oversight over findings, as documented at https://www.dot.state.mn.us/materials/dps/, and together moved this technology forward by determining barriers to the implementation of DPS for field measurement and acceptance, as well as tools and paths to overcome these barriers. Laboratory and field full-scale testing was expanded to include simulation work by the FHWA Nondestructive Evaluation (NDE) Laboratory at Turner Fairbanks that shows promise in defining optimal conditions and best use of DPS technology. Near the end of the pooled fund study, which is scheduled to come to a close in late 2024, participants in an informal poll unanimously agreed that a second phase of the study is needed to completing the study’s mission with emphasis on assisting states in implementation. All states (whether they were members of the initial phase or not) are encouraged to join the 2nd phase of this pooled fund, as the workplan will be designed to build on the successes of the previous phase as well as the fresh perspectives of new agencies joining for phase II. Objectives: The objective of the ongoing pooled-fund project is to use DPS to improve density construction leading to longer lasting pavements. In addition, the goal is to reduce the need for destructive methods such as coring in evaluating the in-place density to improve both safety and coverage of the evaluation process. Phase II will include both research and implementation track activities. The second phase of the pooled-fund project will continue to build upon and advance the progress made in Phase I by answering technical and practical questions related to DPS and developing tools and guidance for implementing DPS in the field as a best practice for density measurement.
- Record URL:
Language
- English
Project
- Status: Programmed
- Funding: $1175000
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Contract Numbers:
TPF-5(538)
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Sponsor Organizations:
Federal Highway Administration
1200 New Jersey Avenue, SE
Washington, DC United States 20590Alaska Department of Transportation and Public Facilities
Research Development & Technology Transfer
3132 Channel Dr
Juneau, AK United StatesIdaho Department of Transportation
P.O. Box 7129
3311 W. State Street
Boise, ID United States 83707-1129Iowa Department of Transportation
800 Lincoln Way
Ames, IA United States 50010Maine Department of Transportation
16 Statehouse Station
Augusta, ME United States 04333Michigan Department of Transportation
Van Wagoner Building
425 W. Ottawa Street
Lansing, MI United States 48909Minnesota Department of Transportation
Transportation Building
395 John Ireland Boulevard
St Paul, MN United States 55155Mississippi Department of Transportation
P.O. Box 1850
Jackson, MS United States 39215-1850Missouri Department of Transportation
1617 Missouri Blvd.
P.O. Box 270
Jefferson City, MO United States 65102North Dakota Department of Transportation
608 East Boulevard Avenue
Bismarck, ND United States 58505-0700Ohio Department of Transportation
Research Program
1980 West Broad Street
Columbus, OH United States 43223Washington State Department of Transportation
Transportation Building
Olympia, WA United States 98504New York State Department of Transportation
50 Wolf Road
Albany, NY United States 12232 -
Managing Organizations:
Minnesota Department of Transportation
395 John Ireland Boulevard
St Paul, MN United States 55155 -
Project Managers:
Hoegh, Kyle
- Start Date: 0
- Expected Completion Date: 0
- Actual Completion Date: 0
Subject/Index Terms
- TRT Terms: Asphalt mixtures; Compaction; Density; Dielectric properties; Nondestructive tests
- Subject Areas: Highways; Materials; Pavements;
Filing Info
- Accession Number: 01927032
- Record Type: Research project
- Source Agency: Federal Highway Administration
- Contract Numbers: TPF-5(538)
- Files: RIP, USDOT, STATEDOT
- Created Date: Aug 12 2024 3:46PM