Stiffness of Soil–Geosynthetic Composite under Small Displacements: I. Model Development

Zornberg, Jorge G.; Roodi, Gholam H.; Gupta, Ranjiv

doi:10.1061/(asce)gt.1943-5606.0001768

Cited by 37 publications

(9 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Detailed analysis of the values for the calculated pavement elastic modules indicated that the pavement and the subsoil were of high rigidity, which is in agreement with the assumptions made by Zornberg et al [39] and Sudarsanan, et al [40]. At the same time, in the section of increased deflections (i.e., from 323 + 800 km to 324 + 00 km-southern section), the value of modules was reduced.…”

Section: Results and Discussion On The Research Outputssupporting

confidence: 87%

Lessons Learned on Geosynthetics Applications in Road Structures in Silesia Mining Region in Poland

et al. 2019

View full text Add to dashboard Cite

The paper aims at the research of pioneering applications of geosynthetic materials used for improvement of anthropogenic material for road contraction challenges in Poland. The presented case study concerns a road embankment construction process within an area of underground mining coal extraction for which significant deformations have been frequently recorded. To improve the bearing capacity of the structure base, the geosynthetic materials were used. The question; however, was how the anthropogenic materials, filling the embankment, will interact with each other over time. The assessment of the structural condition of the motorway surface was performed using the falling weight deflectometer and the calculated modules based on the back-analysis method. They confirmed the effectiveness of the geosynthetics used in the study. They also revealed that the mining exploitation, with simultaneous use of aggregate stabilization with geogrids, did not cause significant changes in the stiffness of the pavement layers. All observations, based on both field and laboratory tests, did not show any negative impact of anthropogenic soils on the structural behavior of geogrids.The present paper describes a case study on road construction works on post-mining areas. It concerns an underground mining coal extraction site where a new motorway was planned to be constructed. However, due to significant deformation of the ground surface, caused by former mining excavations, the sophisticated ground improvement methods were necessary to be applied. For the linear structures, like roads, or other geotechnical investments the mining activity is a major safety threat, thus the need of maintenance efforts increase significantly [14][15][16][17].Recently, a peculiar revolution in the field of understanding and describing the geogrid interaction with the unbound aggregate has been observed. It mainly concerns the road construction and ground mechanical condition improvement. An improved performance of the pavement due to the geosynthetic reinforcement and bearing capacity improvement [18][19][20][21][22][23] depends on main mechanisms [24][25][26]:

show abstract

Section: Results and Discussion On The Research Outputssupporting

confidence: 87%

Lessons Learned on Geosynthetics Applications in Road Structures in Silesia Mining Region in Poland

et al. 2019

View full text Add to dashboard Cite

show abstract

“…Fannin and Raju (1993) used strain gages to check the longitudinal deformation along the geosynthetic. Authors such as Palmeira (2009), Ferreira and Zornberg (2015), Bathurst and Ezzein (2017), and Zornberg et al (2017) also presented different proposals and more complex approximations for the calculation of the confined stiffness of the geosynthetics using pullout tests. These approximations appear to be significantly better for the calculation of confined deformation of the geotextile than the calculation of the deformations directly by the displacement between two consecutive points.…”

Section: Jc =mentioning

confidence: 99%

Interaction Between a Lateritic Soil and a Non-woven Geotextile in Different Moisture Conditions

Marques

Silva

2020

Front. Built Environ.

View full text Add to dashboard Cite

This work evaluates the increase in stiffness provided by the variation of moisture content (matrix suction) and the grain size structure at the interface between a cohesive tropical soil (lateritic clay) and a non-woven geotextile. For this purpose, monotonic pullout tests with soil suction monitoring were performed on small-sized equipment under three scenarios ("O" Optimum, "D" Dry and "DP" Dry Post-Compaction) and two vertical pressures (14 and 28 kPa). The Dry Post-Compaction tests were conducted with the same matrix suction of the Dry tests. The monotonic pullout tests evaluated the soil-geosynthetic interaction under constant displacement to calculate the apparent confined stiffness of the geosynthetic (Jc). The Wide Width Tensile tests were conducted to assess the unconfined stiffness of the non-woven geotextile (Jn). The Dry scenario, compacted with higher compaction energy than the others and, consequently, altering its grain size structure, presented the best performance. This indicates that other parameters besides the suction may be influencing the interaction between the soil and the non-woven geotextile. Even under small vertical pressures, the apparent confined stiffness improves considerably compared to the unconfined stiffness. This indicates that the use of the unconfined stiffness obtained by index tests may be a conservative measure in paving projects.

show abstract

“…Consequently, neither failure strain nor strength were considered when a suitable model geogrid was selected. Zornberg et al (2017) showed using a parameter defined as the stiffness of the soil-geosynthetic composite that both confined stiffness and interface shear strength (a function of bond) are required to describe the behaviour of reinforced granular materials at small strain. Consequently, the remaining two fundamental geogrid properties, stiffness and bond, were of importance when selecting a model geogrid for centrifuge testing.…”

Section: Materials Usedmentioning

confidence: 99%

Optimal placement of reinforcement in piggyback landfill liners

Marx

Jacobsz

2018

Geotextiles and Geomembranes

View full text Add to dashboard Cite

The optimal placement of geogrid reinforcement in clay liners subject to differential settlement was investigated both numerically and with centrifuge modelling. Two unreinforced liners, a liner reinforced at the top-quarter depth, a liner reinforced at the bottom-quarter depth and a double reinforced liner were modelled in the centrifuge. Differential settlement was induced on the model liners by lowering a trapdoor overlain with sand. By considering: 1) the magnitude of differential settlement required to induce micro-cracks in the liners, 2) the strain fields across the liners during differential settlement and 3) the distribution of these strain fields, it was found that dividing the available reinforcement equally between the top-quarter and bottom-quarter of the liner, i.e. double reinforcement, represents the optimal reinforcement strategy.

show abstract

Stiffness of Soil–Geosynthetic Composite under Small Displacements: I. Model Development

Cited by 37 publications

References 33 publications

Lessons Learned on Geosynthetics Applications in Road Structures in Silesia Mining Region in Poland

Lessons Learned on Geosynthetics Applications in Road Structures in Silesia Mining Region in Poland

Interaction Between a Lateritic Soil and a Non-woven Geotextile in Different Moisture Conditions

Optimal placement of reinforcement in piggyback landfill liners

Contact Info

Product

Resources

About