مهندسی عمران شریف (May 2020)
EXPERIMENTAL INVESTIGATION OF THE BEHAVIOR OF SAND-EPS BEADS MIXTURE REINFORCED BY GEOTEXTILE LAYERS ENCAPSULATED WITH LENS LAYERS
Abstract
Nowadays, the use of different materials in combination with the soil has been grown in geotechnical applications. One of these materials is the expanded polystyrene beads (EPS) that are used to reduce the density and provide lightweight fill. To investigate the possibility of the strength enhancement of soil-EPS beads mixture, the number of 34 standard triaxial compression tests with a diameter of 100 mm and a height of 200 mm have been conducted on the soil alone, as well as unreinforced and geotextile reinforced soil-EPS beads mixture with and without sandy lens layers. In addition, 0.5\%, 1\%, and 2\% of EPS beads in weight mixed with sand, four layers of geotextiles, and four layers of sand lens with a thickness of 20 mm were used to prepare the samples. The tests were carried out at three different confining pressures of 100, 200, and 300 kPa up to 15\% of axial strain. Test results show that although EPS beads produce lightweight material, their low rigidity and large volume strain lead to the loss of mixture strength. It can be seen that the ultimate strength of the mixture (at a strain rate of 15\%) decreases 42\%, 65\% and 78\% for 0.5\%, 1\% and 2\% of EPS beads, respectively, as compared with soil alone. To make a balance between weight loss and loss of strength, the use of 0.5\% of EPS beads to mix with sand seems appropriate. To increase the strength of the sand-EPS beads mixture, geotextile layers and sandy lens layers were used. The test results indicate that the geotextile layers encapsulated with sandy lens layers have an influential impact on increasing the strength of mixture. For example, the use of four geotextile layers encapsulated with four sand lens layers gives a 123\% increase in the strength compared with the unreinforced sand-EPS beads mixture. Thus, the combination of these two methods significantly increases the resistance of the mixture. On the basis of the study, the concept of sand-EPS beads mixture reinforced by geotextile layers encapsulated with soil lens layers could be used to improve the performance of backfill over soft soil.
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