Pile-soil stress ratio in bidirectionally reinforced composite ground by considering soil arching effect

Xin-jun Zou; Mei Yang; Ming-hua Zhao; Xiao-li Yang

doi:10.1007/s11771-008-0427-7

Journal of Central South University ›› 2010, Vol. 15 ›› Issue (Suppl 2) : 1 -7. DOI: 10.1007/s11771-008-0427-7

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Pile-soil stress ratio in bidirectionally reinforced composite ground by considering soil arching effect

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Abstract

To discuss the soil arching effect on the load transferring model and sharing ratios by the piles and inter-pile subsoil in the bidirectionally reinforced composite ground, the forming mechanism, mechanical behavior and its effect factors were discussed in detail. Then, the unified strength theory was introduced to set up the elastoplastic equilibrium differential equation of the subsoil under the limit equilibrium state. And from the equation, the solutions were derived with the corresponding formulas presented to calculate the earth pressure over and beneath the horizontal reinforced cushion or pillow, the stress of inter-pile subsoil and the pile-soil stress ratio. Based on the obtained solutions and measured data from an engineering project, the influence rules by the soil property parameters (i.e., the cohesion c and internal friction angle φ) and pile spacing on the pile-soil stress ratio n were discussed respectively. The results show that to improve the load sharing ratio by the piles, the more effective means for filling materials with a larger value of φ is to increase the ratio of pile cap size to spacing, while to reduce the pile spacing properly and increase the value of cohesion c is advisable for those filling materials with a smaller value of φ.

Keywords

composite ground / pile / geosynthetic-reinforced cushion / soil arching effect / pile-soil stress ratio

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Xin-jun Zou, Mei Yang, Ming-hua Zhao, Xiao-li Yang. Pile-soil stress ratio in bidirectionally reinforced composite ground by considering soil arching effect. Journal of Central South University, 2010, 15(Suppl 2): 1-7 DOI:10.1007/s11771-008-0427-7

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