Bearing Capacity and Settlement of Bored Pile Foundation Based On Spt Test Data Aand CPT Test
Keywords:
Bored Pile, Soil Carrying Capacity, LPille, Settle3DAbstract
One form of government effort for the community is the construction of flats. In the construction of Flats X, it is necessary to conduct an analysis in order to minimize the occurrence of foundation collapse beyond the permit limit requirements. In this research analysis using axial and lateral carrying capacity. For axial carrying capacity based on NSPT values using three methods, namely Wright and Reese, Mayerhoff, Luciano Decourt. As well as on shaman power based on the CPT Test using three methods, namely Aoki de Lancer, Mayerhoff, and Schmertmann and Nottingham. For lateral carrying capacity using the calculation of the p-y curve method and using LPille software. For the descent of the foundation using Settle3D. So, obtained in this study for axial carrying capacity taken from three methods in the SPT Test is using the mayerhoff method with the results obtained, namely Q (all press) = 170 tons and Q (all pull) = 85 tons. The axial carrying capacity based on the Cpt Test is obtained from the smallest value in the three methods is the Aoki de Lancer method with the results obtained, namely Q (all press) = 83 tons and Q (all pull) = 14 tons. For lateral carrying capacity using the LPille program, a lateral load of 63.2 kN was obtained. For the number of foundation needed, namely 306 foundations. As well as for the lowering of the foundation obtained using Settle3D which is 96.3 mm.References
Aoki, N., & Velloso, D. D. A. (1975, October). An approximate method to estimate the bearing capacity of piles. In Proc., 5th Pan-American Conf. of Soil Mechanics and Foundation Engineering (Vol. 1, pp. 367-376). Buenos Aires: International Society of Soil Mechanics and Geotechnical Engineering.
Bowles, J. E., & Guo, Y. (1996). Foundation analysis and design (Vol. 5, p. 127). New York: McGraw-hill.
Das, B. M., Shin, E. C., Shin, B. W., Lee, B. J., & Jung, K. T. (1995). Dynamic Loading Induced Settlement of Strip Foundation on Geogrid-Reinforced Clay.
De Kuiter, J., & Beringen, F. L. (1979). Pile foundations for large North Sea structures. Marine Georesources & Geotechnology, 3(3), 267-314.
Hardiyatmo, H. C. (1996). Foundation Techniques 1. Jakart. Gramedia Main Library.
Hardiyatmo, H. C. (2002). Soil Mechanics 1. Yogyakarta: Gajah Mada University Press.
Hardiyatmo, H. C. (2008). Foundation Techniques 2 4th Edition. Yogyakarta: Gajah Mada University.
Ismail, A. I. M., & Ryden, N. (2014). The quality control of engineering properties for stabilizing silty Nile Delta clay soil, Egypt. Geotechnical and Geological Engineering, 32, 773-781.
National Standardization Agency. 2017. SNI 8460:2017 Geotechnical Design Requirements. Jakarta: National Standardization Agency.
Teng, J., He, H., Feng, X., Yan, H., & Zhang, S. (2023). a novel criterion for assessing frost heave susceptibility of soils. Acta Geotechnica, 1-17.
Terzaghi, K. (1943). Theoretical soil mechanics.
