Özet:

In many of the construction and geotechnical projects, the fact that the soil of the project site does not have the necessary technical and mechanical properties makes the necessity of soil improvement inevitable. Among the soil improvement and reinforcement methods, the reinforcement of the soil with randomly distributed fibers can be mentioned. In this study, the shear strength of silty sand reinforced with randomly distributed FRP fibers was investigated in the laboratory using direct shear test. A large-scale (300*300 mm) direct shear test device was used in this study, as large sized specimens are more realistic and their behavior is more compatible with the actual behavior of the soil in the field. Fibers with the lengths of 30 and 40 mm were used to reinforce the soil. The weight percentages of fibers in the soil-fiber mixtures are 0.1, 0.2, 0.3 and 0.4%. The weight percent of the fibers is the ratio of the weight of the fibers to the dry weight of the soil. While the friction angle of the pure soil was 27.7 degrees and the cohesion was 15 kPa, the maximum internal friction angle of the reinforced soil increased up to 40.7 degrees and the cohesion up to 18 kPa. Comparing the internal friction angles, an increase of 47% can be observed. Considering the test results, it was observed that the shear strength of the soil first increased and then decreased with the increase in fiber content. Maximum shear strength was obtained in mixture with a fiber content of 0.3% and a fiber length of 30 mm. Therefore, in this study, optimum fiber content and fiber length were obtained as 0.3% and 30 mm, respectively.

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