Farhad Salour Doctoral Thesis
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- Figure 32.
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Figure 31. Accumulated permanent deformation from RLT tests and calibrated models for Luleå subgrade at moisture content: (a): 6.0%; (b): 8.0%; (c): 9.3%; (d): 10.1%. (c) (d) (a) (b) 49 Figure 32. Accumulated permanent deformation from RLT tests and calibrated models for Torpsbruk subgrade at moisture content: (a): 4.0%; (b): 5.5%; (c): 6.8%; (d): 7.4%. (c) (d) (a) (b) 50 Main findings in Paper VI Generally, it was observed that the modified models that are based on the shakedown approach performed reasonably well in capturing the permanent deformation behaviour of the selected silty sand subgrade soils using data obtained from the RLT tests. Minor discrepancies between the predictive models were observed confirming the potential of using RLT test data and the presented approach for characterizing the permanent deformation of subgrade soils. Among the models used, the Tseng and Lytton (1989) model exhibited the best performance in most of the cases (different moisture content), considering the goodness of fit of the model and the accuracy in predicting the shakedown ranges at different stress paths. In most of the cases in the studied models, it was observed that usually several combinations of parameters would provide acceptable fit to the test data. The inconsistency in the acceptable range for the parameters was also observed in the literature, implying the apparent need for conducting more permanent deformation tests in order to set up a widely accepted range limits for the parameters of different models and/or possibly develop simpler models with a minimum number of parameters and validating these models through full-scale experiments on pavement structures. |