Commenced in January 2007
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The Effect of Polypropylene Fiber in the Stabilization of Expansive Soils
Authors: A. S. Soğancı
Abstract:
Expansive soils are often encountered in many parts of the world, especially in arid and semi-arid fields. Such kind of soils, generally including active clay minerals in low water content, enlarge in volume by absorbing the water through the surface and cause a great harm to the light structures such as channel coating, roads and airports. The expansive soils were encountered on the path of Apa-Hotamış conveyance channel belonging to the State Hydraulic Works in the region of Konya. In the research done in this area, it is predicted that the soil has a swollen nature and the soil should be filled with proper granular equipments by digging the ground to 50-60 cm. In this study, for purpose of helping the other research to be done in the same area, it is thought that instead of replacing swollen soil with the granular soil, by stabilizing it with polypropylene fiber and using it its original place decreases effect of swelling percent, in this way the cost will be decreased. Therefore, laboratory tests were conducted to study the effects of polypropylene fiber on swelling characteristics of expansive soil. Test results indicated that inclusion of fiber reduced swell percent of expansive soil. As the fiber content increased, the unconfined compressive strength was increased. Finally, it can be said that stabilization of expansive soils with polypropylene fiber is an effective method.Keywords: Expansive soils, polypropylene fiber, stabilization, swelling percent.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1108654
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[1] D.E. Jones and W. G. Holtz, Expansive Soils—The Hidden Disaster, Civil Engineering, 1973; 43(8), 49-51.
[2] G. X. Li, L. Chen, J. Q. Zheng and Y. X. Jie, “Experimental study on fiber-reinforced cohesive soil”, Shuili Xuebao/ Journal of Hydraulic Engineering, 1995; 6, 31–36 (in Chinese).
[3] J. E. Loehr, P.J. Axtell and J. J. Bowders, “Reduction of soil swell potential with fiber reinforcement”, GeoEng (2000).
[4] J. Prabakar and R. S. Sridhar, “Effect of random inclusion of sisal fiber on strength behavior of soil”. Construction and Building Materials, 2002; 16, 123-131.
[5] G. X. Wu, “The research of enforcing role on glass fiber to stabilizing soil of cement-fly ash”. Journal of Heilongjiang Institute of Science, 2002; 12 (3), 24-27.
[6] Y. Cai, B. Shi, C. W. W. Ng and C. S. Tang, “Effect of polypropylene fiber and lime admixture on engineering properties of clay soil”. Eng. Geol. (Amsterdam), 2006; 87, 230-240.
[7] A. Puppala and C. Musenda, “Effects of Fiber Reinforcement on Strength and Volume Change in Expansive Soils”. Journal of the Transportation Research Board, 2007; 134-140.
[8] M. F. Attom and A. K. Al-Tamimi, “Effects of Polypropylene Fibers on the Shear Strength of Sandy Soil”. International Journal of Geosciences, 2010; 44-50.
[9] B. J. Freilich, J. G. Zornberg, “Effective shear strength of fiberreinforced clays”. 9th International Conference on Geosynthetics, Brazil, 2010.
[10] Y. Yılmaz and K. Karatas, “Effect of Polypropylene Fiber on the Strength Characteristics of Lightly Cemented Clayey Soil Mixtures”. 2011; 707-716.
[11] M. Olgun, “Effects of polypropylene fiber inclusion on the strength and volume change characteristics of cement-fly ash stabilized clay soil”, Geosynthetics International, 2013; 20 (4), 263-275.