Construction and Instrumentation of Full-Scale Geogrid-Reinforced Flexible Pavement Test Sections

Nine low-volume flexible pavement sections were recently constructed at the Advanced Transportation Research and Engineering Laboratory (ATREL) at the University of Illinois, Urban-Champaign (UIUC). The nine sections were dived into three categories based on the total thickness of the pavement system structure. The first category has 8 inches of aggregate base and 3 inches of hot-mix asphalt (HMA). The three sections in that category differ in aggregate reinforcement: one control and two reinforced with geogrids having different tensile strengths. The second category has a 15 inch pavement structure. Two sections were unreinforced, while one is reinforced with a geogrid. One of the unreinforced sections has a 5 inch HMA and 10 inch aggregate base. The remaining two sections have 12 inch aggregate base and 3 inch HMA. In the first two categories, the reinforcement was placed at the interface of the subgrade and granular base. The third category has a 16 inch aggregate base layer and 3 inch HMA: one control section, one reinforced at 5 inches below the HMA-aggregate interface, and the third is reinforced at the subgrade-aggregate interface as well as at 5 inches below the HMA-aggregate interface. The subgrade California Bearing Ratio (CBR) was maintained at 4% or lower throughout the sections. All pavement sections were instrumented for measuring pavement response to axle and environmental loading. More than 200 instruments were placed during construction. Instruments used include vertical and horizontal LVDTs for deformation measurements, pressure cells for measuring vertical pressures, HMA strain gages for measuring transverse and longitudinal stains at the bottom of the HMA, time domain reflectometry (TDR) probes for measuring subgrade moisture contents, thermocouples for measuring pavement temperature profiles and probes to measure pore-water pressure in the subgrade. Loading response instruments were placed in the center of the land, where the wheel loading was expected; while environmental response instruments were installed at 3-ft from the centerline. Instrument locations were staggered with respect to the pavement profile. The first category was loading using the Accelerated Testing Loading Assembly (ATLAS) at ATREL. 10 kips at 5-mph loading was applied until the pavement sections failed. This paper describes the pavement construction, instrumentation and the experimental program. Preliminary analysis of pavement responses to loading is presented.

• Availability:
  • Find a library where document is available. Order URL: http://worldcat.org/isbn/0784408386
• Corporate Authors:

  American Society of Civil Engineers

  1801 Alexander Bell Drive
  Reston, VA  United States  20191-4400
• Authors:
  • Al-Qadi, Imad L
  • Tutumluer, Erol
  • Dessouky, Samer H
• Conference:
  • Airfield and Highway Pavements. The 2006 Airfield and Highway Pavement Specialty Conference
  • Location: Atlanta GA, United States
  • Date: 2006-4-30 to 2006-5-3
• Publication Date: 2006

Language

• English

Media Info

• Media Type: Print
• Features: Figures; References;
• Pagination: pp 131-142
• Monograph Title: Airfield and Highway Pavements: Meeting Today’s Challenges with Emerging Technologies

Subject/Index Terms

• TRT Terms: Flexible pavements; Geogrids; Hot mix asphalt; Low volume roads; Material reinforcement; Pavement base course; Pavement design; Pavement layers; Prototype tests; Test sections; Thickness
• Identifier Terms: University of Illinois at Urbana-Champaign
• Uncontrolled Terms: Pavement test sections
• Subject Areas: Design; Geotechnology; Highways; Pavements; I22: Design of Pavements, Railways and Guideways;

Filing Info

• Accession Number: 01037807
• Record Type: Publication
• ISBN: 0784408386
• Files: TRIS
• Created Date: Dec 1 2006 8:10AM