Load transfer analysis of rock-socketed drilled shafts by coupled soil resistance |
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Authors: | Hoonil Seol Sangseom Jeong Yongmin Kim |
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Institution: | Department of Civil Engineering, Yonsei University, Seoul 120-749, Republic of Korea |
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Abstract: | The load distribution and deformation of rock-socketed drilled shafts subjected to axial loads are evaluated by a load transfer method. The emphasis is on quantifying the effect of coupled soil resistance in rock-socketed drilled shafts using 2D elasto-plastic finite element analysis. Slippage and shear-load transfer behavior at the pile–soil interface are investigated by using a user-subroutine interface model (FRIC). It is shown that the coupled soil resistance acts as pile-toe settlement as the shaft resistance is increased to its ultimate limit state. Based on the results obtained, the coupling effect is closely related to the ratio of the pile diameter to soil modulus (D/Es) and the ratio of total shaft resistance against total applied load (Rs/Q). Through comparison with field case studies, the 2D numerical analysis reasonably estimated load transfer of pile and coupling effect, and thus represents a significant improvement in the prediction of load deflections of drilled shafts. |
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Keywords: | Load transfer analysis Finite element analysis Coupled soil resistance Interface model Rock-socketed drilled shaft |
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