首页|Finite Element Analysis of Effects of Improvement of Soil Between Double-Row Piles
Finite Element Analysis of Effects of Improvement of Soil Between Double-Row Piles
扫码查看
点击上方二维码区域,可以放大扫码查看
原文链接
万方数据
维普
Double-row pile(DRP)retaining systems have been widely used in deep excavations in China.Soil between the front and back-row piles(FBP soil)is often improved to decrease the displacement of DRPs in soft soil areas,but the improvement efficiency has rarely been researched.A large and deep excavation supported by a DRP retaining system is introduced,and the effect of FBP soil improvement is discussed by comparing the finite element analysis and the monitoring results.Then,a parametric study of DRP using the finite element method considering the small strain of soil is conducted to investigate the effect of FBP soil improvement.It was shown that the pile deflection and bending moment decrease when the FBP soil is improved.Moreover,the most efficient way to minimize the pile deflection and bending moment is to improve the FBP soil around the excavation level.The FBP soil improvement 2-4 m below the pile head is not very useful for reducing the pile deflection and can be eliminated when the pile displacement limit is not very strict.
large excavationdouble-row pile(DRP)soil improvementdeflectionbending momentfinite element analysis
聂东清、翟之阳、张威、李志
展开 >
Shanghai Municipal Engineering Design General Institute(Group)Co.,Ltd.,Shanghai 200092,China
Changjiang River Scientific Research Institute,Wuhan 430010,China
万方数据
维普
