Although Accelerated Pavement Testing (APT) is often done with specific objectives, valuable pavement performance data is generated over the long-term that may be used to investigate pavement behaviour in general and calibrate mechanistic-empirical design models. This paper presents a study on subgrade permanent deformation based on the data generated from a series of Heavy Vehicle Simulator (HVS) tests done at the Richmond Field Station in California. The total subgrade deflection was found to be a better indicator of subgrade permanent deformation than the commonly accepted subgrade vertical strain. A mechanistic-empirical subgrade deformation model was also calibrated successfully for a range of subgrade permanent deformation levels from 1 to 21 mm. The subgrade permanent deformation was found to increase rapidly at subgrade deflection levels above 800 micron
Reference:
Theyse, HL, et al. 2006. Mechanistic-empirical subgrade design model based on heavy vehicle simulator test results. GeoShanghai 2006 Conference, Shangai, China, 6-8 Jun 2006, pp 8
Theyse, H., Hoover, T., Harvey, J., Monismith, C., & Coetzee, N. (2006). Mechanistic-empirical subgrade design model based on heavy vehicle simulator test results. http://hdl.handle.net/10204/1174
Theyse, HL, TP Hoover, JT Harvey, CL Monismith, and NF Coetzee. "Mechanistic-empirical subgrade design model based on heavy vehicle simulator test results." (2006): http://hdl.handle.net/10204/1174
Theyse H, Hoover T, Harvey J, Monismith C, Coetzee N, Mechanistic-empirical subgrade design model based on heavy vehicle simulator test results; 2006. http://hdl.handle.net/10204/1174 .
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