Effect of N Value and Pile Length Ratio on Bearing Capacity Distribution of Cohesionless Soil

IF 0.4 Q4 ENGINEERING, GEOLOGICAL Journal of the Korean Geosynthetic Society Pub Date : 2020-01-01 DOI:10.12814/JKGSS.2020.19.1.065
K. Lee, S. You, Junggeun Han, Jeongjun Park, Ki-sung Kim, G. Hong
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Abstract

This study describes the evaluation results of pile length ratio and N value on the bearing capacity of drilled shafts in cohesionless soil. The bearing capacity ratio in Meyerhof’s formula is affected only by the length ratio, and it is equally evaluated a sharing ratio of the end bearing capacity and the skin friction. NAVFAC’s formula shows that the pile length influences both end bearing capacity and the skin friction, but pile length is also found to be a more influence factor on the end bearing capacity. Especially, it was found that the effect of pile length factor was larger than the effect of N value and pile diameter. FHWA’s formula was evaluated to reflect the influence factor by skin friction more positively than other formulas at calculation the bearing capacity. It was also confirmed that the influence of the skin friction is larger when the ultimate bearing capacity is evaluated.
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N值和桩长比对无黏性土承载力分布的影响
本文描述了桩长比和N值对无黏性土中钻孔竖井承载力的评价结果。Meyerhof公式中的承载力比仅受长度比的影响,等效为端部承载力与表面摩擦力的分担比。由NAVFAC公式可知,桩长对桩端承载力和桩侧摩阻力都有影响,但桩长对桩端承载力的影响更大。尤其发现桩长因子的影响大于N值和桩径的影响。在计算承载力时,评价FHWA公式比其他公式更能反映表皮摩擦的影响因素。同时也证实了在评估极限承载力时,表皮摩擦力的影响较大。
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