Farhad Salour Doctoral Thesis
Yüklə 4,52 Mb. Pdf görüntüsü
|
|
7.3.
Paper V This paper spans a bridge between the field-based moisture measurements and FWD test data (Paper II) and the laboratory-based suction-controlled resilient modulus predictive model (Paper III). The multi-level loads FWD tests that were conducted on the instrumented test section in Torpsbruk were backcalculated using the ERAPave nonlinear multilayer-elastic computer program. Depending on the subgrade moisture content measurements at different depths at the FWD test dates, the subgrade layer was divided into different sublayers in the backcalculation model and the stiffness model parameters for each sublayer were backcalculated. 45 Furthermore, the resilient moduli of the Torpsbruk subgrade sublayers at their corresponding measured moisture contents (suctions) on the FWD dates were calculated using the laboratory-based suction-resilient model developed in Paper III. The backcalculated subgrade stiffness obtained for all of the FWD test dates and load levels were compared with the resilient modulus results obtained from the laboratory-based suction-resilient modulus model (Figure 30). Figure 30. Laboratory-based resilient modulus versus backcalculated moduli using nonlinear model in ERAPave. Both the field measurements and the laboratory tests confirmed the stress and moisture dependence of the subgrade material modulus. In general, good agreement was observed between the in situ backcalculated stiffness and the suction-model based moduli. Main findings in Paper V The subgrade sublayers degree of saturation varied between ~ 45 to ~100% during the field FWD tests. For this range of variation, the matric suction accounted for about 30% of the subgrade resilient modulus variation. The enhanced predictive suction-resilient modulus model in Paper III seemed to satisfactorily capture the moisture content variation effects on the resilient modulus. In general, the subgrade moduli calculated by the enhanced predictive suction-resilient modulus model and the backcalculated stiffness obtained from the FWD field data showed good agreement, concluding that the modulus-suction model could efficiently capture the seasonal variation effects. Yüklə 4,52 Mb. Dostları ilə paylaş:
|