Add to ORKGThis paper describes geotechnical design concepts used in developing 45-degree and 56-degree embankment slopes to meet strict stability criteria. Typical design sections are presented along with example stability computations to illustrate factors of safety developed under static and rapid drawdown conditions. This paper also discusses pertinent, site specific aspects of construction considered germane to successful, long term performance of oversteepened slopes at this site
For a large scale expansion of an existing wastewater treatment plant in Virginia, constructing shal...
AbstractIn geotechnical and transportation engineering, especially road constructions in cuts and de...
This paper presents a study case in which a geosynthetic-reinforced soil (GRS) structure was used to...
Slope failures lead to loss of life and damage to property. Slope instability of natural slope depen...
This paper presents a case study example of appropriate method selection of stabilization and reinfo...
In 2009, the Michigan Department of Transportation (MDOT) became concerned about ongoing slope movem...
Geosynthetics is a crucial mechanism in which the earth structures can be mechanically stabilized th...
A generalized computer program for analyzing stability of earth structures reinforced with geosynthe...
2016Technical ReportPDFTech ReportFHWA/TX-14/0-6792-1Project 0-6792GeosyntheticsSoil stabilizationSl...
Using the design method proposed by R. A. Jewell et al. numerous steep reinforced embankments have b...
Four slope slides took place, during a major earthquake, on the slopes of hill that has a paper mill...
The application of geosynthetic reinforcements in civil/geotechnical engineering projects (retaining...
A Lecture cum-cinema hall was constructed on a terrace developed at the top of a hillock at a site l...
A geogrid reinforced soil wall with a wrap-around facing system was successfully constructed on soft...
The uses of geosynthetics in civil engineering are relatively well-defined according to their functi...
For a large scale expansion of an existing wastewater treatment plant in Virginia, constructing shal...
AbstractIn geotechnical and transportation engineering, especially road constructions in cuts and de...
This paper presents a study case in which a geosynthetic-reinforced soil (GRS) structure was used to...
Slope failures lead to loss of life and damage to property. Slope instability of natural slope depen...
This paper presents a case study example of appropriate method selection of stabilization and reinfo...
In 2009, the Michigan Department of Transportation (MDOT) became concerned about ongoing slope movem...
Geosynthetics is a crucial mechanism in which the earth structures can be mechanically stabilized th...
A generalized computer program for analyzing stability of earth structures reinforced with geosynthe...
2016Technical ReportPDFTech ReportFHWA/TX-14/0-6792-1Project 0-6792GeosyntheticsSoil stabilizationSl...
Using the design method proposed by R. A. Jewell et al. numerous steep reinforced embankments have b...
Four slope slides took place, during a major earthquake, on the slopes of hill that has a paper mill...
The application of geosynthetic reinforcements in civil/geotechnical engineering projects (retaining...
A Lecture cum-cinema hall was constructed on a terrace developed at the top of a hillock at a site l...
A geogrid reinforced soil wall with a wrap-around facing system was successfully constructed on soft...
The uses of geosynthetics in civil engineering are relatively well-defined according to their functi...
For a large scale expansion of an existing wastewater treatment plant in Virginia, constructing shal...
AbstractIn geotechnical and transportation engineering, especially road constructions in cuts and de...
This paper presents a study case in which a geosynthetic-reinforced soil (GRS) structure was used to...