Journal of shanghai Jiaotong University (Science) ›› 2013, Vol. 18 ›› Issue (3): 311-316.doi: 10.1007/s12204-013-1400-7

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Simulation Study of Foundations Reinforced with Horizontal-Vertical Inclusions Using Particle Flow Code

Simulation Study of Foundations Reinforced with Horizontal-Vertical Inclusions Using Particle Flow Code

HOU Juan* (侯 娟), ZHANG Meng-xi (张孟喜), LI Pei-pei (李培培)   

  1. (Department of Civil Engineering, Shanghai University, Shanghai 200072, China)
  2. (Department of Civil Engineering, Shanghai University, Shanghai 200072, China)
  • Online:2013-06-28 Published:2013-08-12
  • Contact: HOU Juan (侯 娟) E-mail:juanhou@staff.shu.edu.cn

Abstract: A two-dimensional discrete element code, particle flow code (PFC2D), is employed to investigate foundations reinforced with horizontal-vertical (H-V) inclusions. The initial states and loading processes of both unreinforced and H-V reinforced foundations are simulated by PFC2D method. The interface between particles and reinforcements, and the reinforcement mechanism of the H-V reinforced foundations are studied through stress distribution graphs, displacement vector graphs and contact force graphs. The simulation results demonstrate that the vertical elements of the H-V reinforcement keep the particles from being displaced under the applied load. The H-V reinforcement can distribute the load uniformly over a wider area, thereby improving the bearing capacity of soil foundation.

Key words: reinforced foundation| particle flow code (PFC2D)| horizontal-vertical (H-V) reinforcement

摘要: A two-dimensional discrete element code, particle flow code (PFC2D), is employed to investigate foundations reinforced with horizontal-vertical (H-V) inclusions. The initial states and loading processes of both unreinforced and H-V reinforced foundations are simulated by PFC2D method. The interface between particles and reinforcements, and the reinforcement mechanism of the H-V reinforced foundations are studied through stress distribution graphs, displacement vector graphs and contact force graphs. The simulation results demonstrate that the vertical elements of the H-V reinforcement keep the particles from being displaced under the applied load. The H-V reinforcement can distribute the load uniformly over a wider area, thereby improving the bearing capacity of soil foundation.

关键词: reinforced foundation| particle flow code (PFC2D)| horizontal-vertical (H-V) reinforcement

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