Farhad Salour Doctoral Thesis
Yüklə 4,52 Mb. Pdf görüntüsü
|
|
7.2.
Paper III and IV The effects of moisture content and suction on the resilient modulus of two silty sand subgrade soils (Luleå and Torpsbruk subgrades) were investigated using a custom-built triaxial cell that was adopted for RLT testing for unsaturated soils. The system was capable of individually controlling/measuring the pore-air and pore-pressure (and therefore matric suction, m ) of the specimen during the RLT tests using high precision 43 pressure/volume controllers (PVC) and the soil suction measuring device. Schematic diagram of the RLT test apparatus is shown in Figure 28. Figure 28. Schematic diagram of the suction-controlled RLT test apparatus. For both of the subgrade soils, the resilient modulus tests were conducted at a wide range of suction (moisture content). From the RLT tests data, it was observed that the resilient modulus of subgrades were highly dependent on the net bulk stress, deviator stress and the matric suction (Figure 29). Figure 29. Resilient modulus of the Luleå subgrade soil at different suction states (degrees of saturation). 44 A literature survey was conducted and several recent suction-incorporated resilient modulus models were summarized (Parreira and Goncalves, 2000; Khoury and Zaman, 2004; Yang et al., 2005; Liang et al., 2008; Cary and Zapata, 2011; Nowamooz et al., 2011; Ng et al., 2013). The dataset from the suction-controlled resilient tests were then used to calibrate several recent predictive models that account for matric suction of the soil and evaluate the capability of them in capturing the resilient response of the material under different load and moisture conditions. Main findings in Paper III and IV The resilient modulus of the subgrades increased with increasing net bulk stress and decreased with increasing deviator stress (octahedral shear stress). Resilient modulus increased significantly with increasing matric suction. Change in the resilient modulus with varying net bulk and deviator stress was generally more significant at higher suction values (the degree of nonlinearity of the material stress-strain relationship was more significant at higher suction levels). The resilient modulus predictive models that combined the three fundamental stress state variables (net confining pressure, deviator stress and matric suction) performed more satisfactorily in capturing the resilient response of silty sand subgrade soils and their variations due to seasonal changes in the moisture content. Given the goodness of fit of the suction-resilient predictive models, it can be concluded that considering matric suction as an independent stress state variable in the models might be a rational approach for incorporating moisture effects in the predictive models. Yüklə 4,52 Mb. Dostları ilə paylaş:
|