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- Title
Evaluation of additional confinement for three-dimensional geoinclusions under general stress state.
- Authors
Punetha, Piyush; Nimbalkar, Sanjay; Khabbaz, Hadi
- Abstract
Three-dimensional cellular geoinclusions (e.g., geocells, scrap tires) offer all-around confinement to the granular infill materials, thus improving their strength and stiffness. The accurate evaluation of extra confinement offered by these geoinclusions is essential for predicting their performance in the field. The existing models to evaluate the additional confinement are based on either a plane-strain or axisymmetric stress state. However, these geoinclusions are more likely to be subjected to the three-dimensional stresses in actual practice. This note proposes a semi-empirical model to evaluate the additional confinement provided by cellular geoinclusions under the three-dimensional stress state. The proposed model is successfully validated against the experimental data. A parametric study is conducted to investigate the influence of input parameters on additional confinement. Results reveal that the simplification of the three-dimensional stress state into axisymmetric or plane-strain condition has resulted in inaccurate and unreliable results. The extra confinement offered by the geoinclusion shows substantial variation along the intermediate and minor principal stress directions depending on the intermediate principal stress, infill soil, and geoinclusion properties. The magnitude of additional confinement increases with an increase in the geoinclusion modulus. The findings are crucial for accurate assessment of the in situ performance of three-dimensional cellular geoinclusions.
- Subjects
WASTE tires; GRANULAR materials; GEOGRIDS; PERFORMANCE evaluation
- Publication
Canadian Geotechnical Journal, 2020, Vol 57, Issue 3, p453
- ISSN
0008-3674
- Publication type
Article
- DOI
10.1139/cgj-2018-0866