Abstract
This study primarily aims to explore the mechanical behavior and influence factors of the reinforced retaining wall subject to vehicle loads. Mohr–Coulomb model was adopted to simulate and analyze the structural characteristics of the reinforced retaining wall by the finite element method. Its mechanical behavior was investigated in accordance with relevant theories. The results showed that the vertical and horizontal maximum displacement of the reinforced retaining wall occurs at the wall surface of the retaining wall, the maximum internal soil pressure appears at the middle and lower part of the retaining wall, and the maximum tensile strain of the tension bar acts on the wall rupture surface. As impacted by static vehicle load, the largest settlement is located at the parking position, and the maximum horizontal displacement and wall stability will vary with the vehicle position. Moreover, the closer the vehicle to the reinforcement is, the greater the lateral Earth pressure will be imposed on the upper part of the reinforcement body. With the variation of the vehicle position, the tension stress of the geogrid will vary noticeably.
Highlights
Reinforced retaining wall is a type of flexible retaining structure, exhibiting numerous advantages
Liu and Ehrlich ascertained the rebar tensile strain of the reinforced retaining wall under vehicle load, the lateral Earth pressure acting on the wall, the lateral Earth pressure acting on the reinforced body, and the lateral deformation of retaining walls [9, 10]
The finite element analysis is conducted to investigate the mechanical behavior of the reinforced retaining wall under the vehicle load; besides, the structural characteristics of the reinforced retaining wall and the effect of static vehicle loaded on the retaining wall are analyzed
Summary
Reinforced retaining wall is a type of flexible retaining structure, exhibiting numerous advantages (e.g., prominent overall performance, low requirements on foundation bearing capacity, and simple construction). It has been extensively applied in highway, railway, and water conservancy industry home and abroad [1, 2]. Liu and Ehrlich ascertained the rebar tensile strain of the reinforced retaining wall under vehicle load, the lateral Earth pressure acting on the wall, the lateral Earth pressure acting on the reinforced body, and the lateral deformation of retaining walls [9, 10]. Finite element method was used to analyze the effects of factors on the stability of retaining wall
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