Litcius/Paper detail

Geocell-reinforced bed under static and cyclic loads: Soil density and grain size effects

S.N. Moghaddas Tafreshi, S. Kheiri, Mehran Azizian, Andrew Dawson

2022Geosynthetics International11 citationsDOI

Abstract

This paper reports on a series of static and cyclic plate loading tests performed on a weak unreinforced sand bed in a test pit. The weak sand was covered by a 160 mm thick layer comprised of one of three compacted soil types which was either unreinforced or geocell-reinforced. The purpose was to investigate the effects of soil density and grain size as filler materials for the covering layer. The three covering soils were granular with average particle sizes of 2.2 (Soil 1), 6.14 (Soil 2), and 8.47 (Soil 3) mm. Under static loading, the bearing pressure increased on average 23% when the average grain size of the upper, unreinforced, soil layer changed from 2.20 mm to 8.47 mm. The improvement in bearing pressure was about 37% due to the use of a soil-filled geocell but, unlike the unreinforced situation, employing larger soil grains to fill the geocell pockets didn't show significant further improvement. For cyclic loading tests, the maximum settlement reduction by employing a geocell layer was about 50% for Soil 1. Whether loaded statically or cyclically, increasing soil density likely would be more efficient for improving geocell performance than employing a soil having larger particle sizes.

Topics & Concepts

Geotechnical engineeringGeosyntheticsGrain sizeBearing capacityMaterials scienceSoil waterBulk densityParticle sizeParticle-size distributionSettlement (finance)Composite materialSoil scienceGeologyComputer scienceWorld Wide WebPaleontologyPaymentGeotechnical Engineering and Soil StabilizationLandfill Environmental Impact StudiesGeotechnical Engineering and Analysis