Iowa DOT Roller Integrated Compaction Monitoring Research and Implementation
Screen shot of a computer display showing machine drive power based RICM measurements
Caterpillar CP56 roller equipped with RICM system used on US30 embankment reconstruction project
Test strip construction to demonstrate RICM system on I29, Monona County
FWD testing on HMA pavement for correlation with RICM measurements on US218 project
Infrared image during HMA paving process on US218 project
Sakai SW990 roller equipped with RICM system used on US30 HMA reconstruction project
- Heath Gieselman
- Pavana Vennapusa, Earthworks Engineering Research Center, 515-294-2395, firstname.lastname@example.org (project list)
- Justin Harland
- Stephen Quist
Start date: 05/01/09
End date: 07/01/11
- September 2011, Final Report: Iowa DOT Roller Integrated Compaction Monitoring Research and Implementation, Phase I 11.93 mb (*pdf)
- September 2011, Final Report: Iowa DOT Roller Integrated Compaction Monitoring Research and Implementation, Phase II 9.84 mb (*pdf)
Related publications: Tech Transfer Summary: Iowa DOT Research News 0 *pdf September 2011
*To read pdf files, you may need to download the free Adobe Acrobat Reader.
Iowa Department of Transportation
Sakai Heavy Industries Ltd.
Volvo Construction Equipment
About the research
The Iowa Department of Transportation Roller-Integrated Compaction Monitoring (RICM) Research and Implementation project was initiated in summer 2009. The project was conducted in two phases:
Phase I: Three field demonstration projects were conducted in Iowa as part of the Phase I to evaluate three different RICM measurement technologies: (1) machine drive power (MDP) measurement technology on Caterpillar CP56 padfoot roller, (2) continuous compaction value (CCV) technology on Sakai SW880 dual vibratory smooth drum asphalt roller, and (3) compaction meter value (CMV) technology on Volvo SD116DX smooth drum vibratory roller. The main objectives of the Phase I include:
- evaluating the effectiveness of the RICM measurement values (IC-MVs) in assessing the compaction quality of cohesive subgrade materials, granular base/subbase materials, and HMA materials,
- developing project specific correlations between IC-MVs and various conventionally used in-situ point measurements in earthwork quality control (QC) and quality assurance (QA) practice and HMA construction,
- evaluating the advantages of using the RICM technology for production compaction operations,
- obtaining data to evaluate future RICM specifications, and
- developing content for future educational and training materials for Iowa DOT and contractor personnel for effective implementation of the technology in to earthwork and HMA construction practice.
Phase II: As part of the Phase II of this project, special provisions (SPs) were developed that required RICM technologies on three hot mix asphalt (HMA) overlay pilot projects in Iowa. The SP on US30 Harrison County project required RICM roller coverage including temperature, pass count, and compaction measurements on one break down roller. The SP on US20 Ida County project required RICM roller coverage including temperature and pass count on one break down roller. The SP on IA9 Kossuth County project required roller pass count coverage for all compaction equipment. In situ testing was conducted on each project by the Iowa State University research team beyond the requirements of the project specifications to analyze asphalt density, RICM values, and asphalt surface temperature changes with pass count and time. Correlations between RICM values and asphalt density/percent compaction and falling weight deflectometer modulus values are developed. Pass count information was analyzed using geostatistical analysis to evaluate spatial uniformity in pass coverage.