The Roodekrans trial sections were constructed to evaluate the effect of aggregate interlock, dowels, continuous reinforcement and various supporting layers on the relative performance of very thin concrete pavements. The sections were constructed on the exit road from a quarry and have successfully sustained 4000 equivalent 80 kN axle loads to date. The concrete pavement thickness varied from 50 mm to 140 mm and the base support consisted of either a natural or stabilized gravel layer 100 mm thick, or in some cases, thin asphalt between the stabilized base and slab. After two years of heavy truck traffic, a panel of 30 experienced road-engineers visually evaluated performance and found the role played by the support conditions to be crucial for the performance of the road. This paper summarizes the design and construction of the 10 sections and discusses their performance with specific reference to the role that the support conditions played in the good performance achieved. The findings of the reviewers are first discussed to obtain a viewpoint on the performance of the sections, followed by an analytical evaluation of the sections to arrive at some mechanistic explanations for the good performance of the sections.
Reference:
Steyn, WJvdM et al. 2005. Roodekrans trial sections: The role of structural support under very thin jointed CRC pavements subjected to heavy traffic. 8th International Conference on Concrete Pavements (ICCP), August 2005, pp 16
Steyn, W., Du Plessis, L., Strauss, P., & Bryan (2005). Roodekrans trial sections: The role of structural support under very thin jointed CRC pavements subjected to heavy traffic. http://hdl.handle.net/10204/1413
Steyn, WJvdM, L Du Plessis, P Strauss, and Bryan. "Roodekrans trial sections: The role of structural support under very thin jointed CRC pavements subjected to heavy traffic." (2005): http://hdl.handle.net/10204/1413
Steyn W, Du Plessis L, Strauss P, Bryan, Roodekrans trial sections: The role of structural support under very thin jointed CRC pavements subjected to heavy traffic; 2005. http://hdl.handle.net/10204/1413 .