Prediction of resilient modulus of cohesive subgrade soils from dynamic cone penetrometer test parameters
Document Type
Article
Publication Date
11-1-2007
Abstract
Current pavement design procedures recommend the resilient modulus of subgrade materials for pavement design and analysis. The objective of this paper is to develop two statistical models to predict the resilient modulus of subgrade cohesive soils from the dynamic cone penetration (DCP) test parameters and soil properties. The first model correlates resilient modulus to the dynamic cone penetration test parameters, while the second model correlates resilient modulus to both the dynamic cone penetration test parameters and soil properties. Field and laboratory experiments were conducted at 31 sites in Louisiana that contain four common soil types (A-4, A-6, A-7-5, and A-7-6). Field tests included DCP tests and soil sampling, while laboratory tests included determining basic soil properties and resilient modulus. Statistical analyses were conducted on the collected data, and two statistical models were developed for the prediction of resilient modulus of cohesive subgrade soils from the DCP test parameters and soil properties. The models predicted a separate data set that was not used in their development, indicating the success of the application of the dynamic cone penetration test in evaluating the resilient modulus of pavement subgrade soils. The predicted values obtained from the proposed models corresponded well with the measured resilient modulus values from the repeated load triaxial test. © 2007 ASCE.
Publication Source (Journal or Book title)
Journal of Materials in Civil Engineering
First Page
986
Last Page
992
Recommended Citation
Mohammad, L., Herath, A., Abu-Farsakh, M., Gaspard, K., & Gudishala, R. (2007). Prediction of resilient modulus of cohesive subgrade soils from dynamic cone penetrometer test parameters. Journal of Materials in Civil Engineering, 19 (11), 986-992. https://doi.org/10.1061/(ASCE)0899-1561(2007)19:11(986)