Add to ORKGThis paper extends the numerical parametric study previously reported by the writers for the vertical load distribution and vertical gap compression between facing panel units in steel reinforced soil walls ranging in height from 6 m to 24 m. The presented study demonstrates how gap compression and magnitude of vertical load transmitted between horizontal joints are influenced by joint location along the height of the wall, joint compressibility, and backfill, and foundation soil stiffness. The charts provided can be used to make a preliminary estimate of the number and type (stiffness) of the bearing pads to ensure a target minimum gap thickness at the end of construction, demonstrate the relative influence of wall height and different mat...
A numerical FLAC model was used to investigate the influence of vertical stiffness of the foundation...
This study analyses two full-scale model tests on mechanically stabilized earth (MSE) walls. One tes...
There is a significant disparity in the design approaches for the numerous reinforced soil systems. ...
This paper extends the numerical parametric study previously reported by the writers for the vertica...
This paper reports the results of a numerical parametric study focused on the prediction of vertical...
The paper investigates the influence of backfill soil, foundation soil, and horizontal joint vertica...
Abstract: The paper investigates the influence of backfill soil, foundation soil, and horizontal joi...
Current design practices for reinforced soil walls typically ignore the influence of facing type and...
Most geosynthetic and metallic reinforced soil walls are designed assuming that the wall foundation ...
This study describes the results of a series of 2D finite element method (FEM) numerical models of 6...
The influence of backfill type and material properties on the performance of reinforced soil segment...
A review of the available data from the literature relating to the performance of reinforced soil wa...
Polymeric strip reinforced soil walls require a practical method to fix the reinforcement tail-ends ...
This study analyses two full scale model tests with mechanically stabilized earth (MSE) walls. The r...
015414562014Final ReportPDFTech Report2012-S-OSU-0009DTRT12-UTC10Earth wallsFrictionStrain (Mechanic...
A numerical FLAC model was used to investigate the influence of vertical stiffness of the foundation...
This study analyses two full-scale model tests on mechanically stabilized earth (MSE) walls. One tes...
There is a significant disparity in the design approaches for the numerous reinforced soil systems. ...
This paper extends the numerical parametric study previously reported by the writers for the vertica...
This paper reports the results of a numerical parametric study focused on the prediction of vertical...
The paper investigates the influence of backfill soil, foundation soil, and horizontal joint vertica...
Abstract: The paper investigates the influence of backfill soil, foundation soil, and horizontal joi...
Current design practices for reinforced soil walls typically ignore the influence of facing type and...
Most geosynthetic and metallic reinforced soil walls are designed assuming that the wall foundation ...
This study describes the results of a series of 2D finite element method (FEM) numerical models of 6...
The influence of backfill type and material properties on the performance of reinforced soil segment...
A review of the available data from the literature relating to the performance of reinforced soil wa...
Polymeric strip reinforced soil walls require a practical method to fix the reinforcement tail-ends ...
This study analyses two full scale model tests with mechanically stabilized earth (MSE) walls. The r...
015414562014Final ReportPDFTech Report2012-S-OSU-0009DTRT12-UTC10Earth wallsFrictionStrain (Mechanic...
A numerical FLAC model was used to investigate the influence of vertical stiffness of the foundation...
This study analyses two full-scale model tests on mechanically stabilized earth (MSE) walls. One tes...
There is a significant disparity in the design approaches for the numerous reinforced soil systems. ...