Sand Shear Strength as Function of Geofiber Stabilization

O. Mughieda, A. Alzo’ubi, M. Kewalramani
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Abstract

In order to use Abu Dhabi sand for pavement base courses, subbase courses, subgrades, and as a foundation soil, it must possess special shear strength characteristics. The stabilization of this kind of sand is a major geotechnical task. The soil in this study was improved by mixing geofiber and fines with sand. Large direct shear tests were performed on three different groups of soil to determine the shear strength characteristics of the stabilized soil. The three types of soil studied were: (1) Abu Dhabi sand with different geofiber amount, (2) Abu Dhabi sand with different fines content, and (3) Abu Dhabi sand with different fines and geofiber content. Testing was performed on sand with a water content of 7%, geofiber contents of 0% (no additives), 0.1%, 0.2%, and 0.4%, as well as fines contents of 10%, 20%, and 30%. Results of experimental studies can be seen in Figures (6)-(8). The best results of shear strength were obtained when 20% of the fines content and 0.4% of the geofiber content were added. The angle of internal friction increased from 34o if fines or geofiber were not included to 45o with 20% fines content and 0.4% geofiber content
土工纤维稳定性对砂土抗剪强度的影响
为了将阿布扎比砂用于路面基层、次基层、路基以及作为基础土,它必须具有特殊的抗剪强度特性。这种砂的稳定是一项重大的岩土工程任务。本研究采用土工纤维与细砂混合的方法对土壤进行改良。为了确定稳定土的抗剪强度特性,对三组不同的土进行了大型直剪试验。研究的三种土壤类型为:(1)不同土工纤维含量的阿布扎比砂,(2)不同细粒含量的阿布扎比砂,(3)不同细粒和土工纤维含量的阿布扎比砂。在含水量为7%、土工纤维含量为0%(无添加剂)、0.1%、0.2%和0.4%以及细粒含量为10%、20%和30%的砂中进行了测试。实验研究结果如图(6)-(8)所示。当细粉掺量为20%,土工纤维掺量为0.4%时,抗剪强度最佳。当细粒和土工纤维含量分别为20%和0.4%时,内摩擦角由不含细粒和土工纤维时的34o增加到45o
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