Bearing Capacity of Large Drilled Shafts Fully Embeded in Claystone and Sandstone Layers

Civil and Environmental Science Pub Date : 2022-10-03 DOI:10.21776/ub.civense.2022.00502.2

Muhammad Al Marwaji, Y. Arifin

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Abstract

This paper focuses on analyzing the bearing capacity of large diameter drilled shafts that are fully embedded in the claystone and sandstone layers. The foundations used are the drilled shafts for the Pulau Balang bridge pylons built across the Balikpapan bay. Three bored pile foundations with a planned diameter of 2 meters by 60 meters were used. The bearing capacity of the foundation in the field was carried out using the Osterberg cell test. The bearing capacity of the upper side of the foundation is 32.77, 27.26, and 114.46 MN, and the lower parts are 26.98, 27.16, and 50.25 MN, respectively. The results show that the method closest to the upper part of the OC test is the method suggested by Kulhawy and Phoon, with a value of C = 0.5. As for the lower part, the closest approach is the combination of the Kulhawy and Phoon and the Rowe and Armitage methods. The combinations of methods that approximate the total bearing capacity of the field are the Kulhawy and Phoon (1993) and Rowe and Armitage (1987) methods for the dominant claystone layer, and the O'Neil and Reese (1993) and Rowe and Armitage (1987) methods for the main sandstone layer

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全埋于粘土岩和砂岩层的大钻杆承载力研究

本文着重分析了全埋于粘土岩和砂岩层中的大直径钻孔井的承载能力。所使用的地基是为横跨巴厘巴班湾的巴郎岛桥塔所钻的竖井。使用了三个钻孔桩基础，规划直径为2米乘60米。采用Osterberg单元试验对地基进行了现场承载力测试。基础上部承载力分别为32.77、27.26、114.46 MN，下部承载力分别为26.98、27.16、50.25 MN。结果表明，最接近OC测试上半部分的方法是Kulhawy和Phoon提出的方法，其值为C = 0.5。对于下半部分，最接近的方法是Kulhawy和Phoon方法以及Rowe和Armitage方法的结合。近似油田总承载能力的方法组合是Kulhawy和Phoon(1993)和Rowe和Armitage(1987)对主要粘土层的方法，以及O'Neil和Reese(1993)和Rowe和Armitage(1987)对主要砂岩层的方法

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Civil and Environmental Science

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