This paper presents an evaluation of Continuously Reinforced Concrete Pavement (CRCP) transverse cracking near pavement joints. The nature of this cracking was unusual as transverse cracking is expected to occur at, not nearby, pavement joints. Ground Penetrating Radar (GPR) was employed as the primary investigative tool along with Ultrasonic Pulse Velocity (UPV) to characterize the cracking distress. The NDE results, when combined with a review of availa.ble pavement construction drawings, showed that the pavement cracking resulted from an unreinforced plane of weakness created by a single layer of closely-spaced post-installed pavement dowels. Keywords: CRCP, concrete pavement joints, GPR, UPV
1. “ AASHTO Guide for Design of Pavement Structures,” American Association of State, Highway, and Transportation Officials, 1993.
2. “ ACI 325-28: Recommended Practice for Design of Concrete Pavements,” American Concrete Institute, 1958.
3. “ ACI 325-12R: Guide for Design of Jointed Concrete Pavements for Streets and Local Roads,” American Concrete Institute, 2012.
4. “ Guide to Dowel Load Transfer Systems for Jointed Concrete Roadway Pavements”, Institute of Transportation at Iowa State University, National Concrete Consortium, 2011.
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