Failure Mechanism of Strip Footing on Geotextile-Reinforced Soil

Zong Jian Wang; Liang Lu; Bin Zheng

doi:10.4028/www.scientific.net/AMM.580-583.415

Paper Titles

Analysis and Process Control of the Deformation for Deep Excavation in Soft Clay
p.395

Analysis of the Interaction of Foundation Pit Supporting Structure and Soil
p.401

Calculation for Earth Pressure of Cavity Expansion Considering Displacement
p.405

Experimental Study on Shear Strength of Different Types of Soil
p.409

Failure Mechanism of Strip Footing on Geotextile-Reinforced Soil
p.415

Horizontal Displacement of GFRP Bars and PC Strand Combination of Technology Supporting Piles
p.420

Numerical Analysis of Stabilization of Slopes Overlying Bedrock Using Piles and Effect of Socketed Length of Pile on Stability
p.424

Numerical Simulation Analysis of Bearing Characteristics on Super-Large Diameter Rock Socketed Pile
p.432

Prediction of Displacement Time Series Based on Support Vector Machines-Markov Chain
p.436

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 580-583Failure Mechanism of Strip Footing on...

Failure Mechanism of Strip Footing on Geotextile-Reinforced Soil

Abstract:

Several laboratory model tests were carried out on the bearing capacity of strip footings on reinforced soil foundation and reinforced slope. Compared with unreinforced cases, the deformation and failure of reinforced earth in different foundation conditions were monitored and analyzed. In order to visualize a failure mechanism when the ground reaches the state of limit equilibrium, a new numerical procedure was proposed. Assuming an elastic-perfectly plastic model, a smeared shear band approach and a modified initial stress method enable the proposed procedure to create an explicit collapse mode by the stress yield condition. On the basis of the development of failure mode and deformation of foundation, the bearing capacity of strip footings can be significantly increased by the inclusion of geotextile. And because the procedure considers the stiffness and deformation of the material, it may be applied to complex stability problems.