Use of H2Ri to Mitigate Pumping in Concrete Pavement Shoulder

Pumping is one of the major factors contributing toward concrete pavement slab failures. It is believed that drainage issues are the major cause of severe pumping and failure of PCC slabs because water and fine materials are observed to be ejected out through the joints. In recent years, a new type of wicking fabric (H2Ri) was developed by TenCate Geosynthetics to remove the excess water in the pavement structure and potentially maintain good pavement performance and longevity. By installing a layer of wicking fabric horizontally beneath the road shoulder, the excess water in the pavement structure can be absorbed from the soils, transported along the wicking fabric to the slope, and vaporized to the surrounding atmosphere which has much higher suction. A full depth shoulder replacement project at Milepost 115.9 on I-44 will be used as a field test section to test the effectiveness of the H2Ri wicking fabric in mitigating pumping of concrete shoulders. Three test sections will be constructed and instrumented. Laboratory testing will also be conducted as part of the project.


    • English


    • Status: Active
    • Funding: $37403
    • Contract Numbers:


    • Sponsor Organizations:

      Missouri Department of Transportation

      1617 Missouri Boulevard
      P.O. Box 270
      Jefferson City, MO  United States  65102
    • Project Managers:

      Harper, Jennifer

    • Performing Organizations:

      Missouri University of Science & Technology, Rolla

      Department of Engineering
      202 University Center
      Rolla, MO    65409
    • Principal Investigators:

      Zhang, Xiong

    • Start Date: 20180928
    • Expected Completion Date: 20200131
    • Actual Completion Date: 20200301

    Subject/Index Terms

    Filing Info

    • Accession Number: 01685159
    • Record Type: Research project
    • Source Agency: Missouri Department of Transportation
    • Contract Numbers: TR201905
    • Files: RiP, STATEDOT
    • Created Date: Nov 8 2018 2:21PM