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Strength characterization of cohesionless soil treated with cement and polyvinyl alcohol

Toshiro Hata, Alexandra Clarà Saracho, Anasua GuhaRay, Stuart K. Haigh

2022SOILS AND FOUNDATIONS15 citationsDOIOpen Access PDF

Abstract

Lime, cement, and bitumen are well-known traditional binders for improving the bearing capacity of soils. However, the production of these binders results in a massive impact on the environment due to the emission of greenhouse gases, such as carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4). In this study, a novel cement–polyvinyl alcohol (PVA) mixture is proposed to fabricate strong composite geomaterials. The advantage of the proposed materials is that they can increase the unconfined compressive strength (UCS) and, combined with cement hydration, producing PVA glue, can be used to fill up the soil pores. Laboratory tests indicate a threefold increase in UCS with the cement–PVA-combined mixture compared to a cement-stabilized one. The results of scanning electron microscope (SEM) observations suggest that the cement–PVA composite can ameliorate the pore structure that is more solid than the cement-stabilized one. Moreover, by curing at 80 °C, the strength of the cement–PVA stabilized soil decreases by threefold, plateauing at the same strength as the non-PVA stabilized soil. In addition, the results of cyclic thermal exposure tests suggest that, with the increase in the number of heating/cooling cycles, the UCS gradually decreases compared to the initial one. However, the loss of UCS is less than 25 % under the three cycles of exposure. Thus, these composites have the potential to promote urban renewal projects in an ecofriendly manner.

Topics & Concepts

CementMaterials sciencePolyvinyl alcoholCompressive strengthLimeComposite materialComposite numberScanning electron microscopeSoil stabilizationCuring (chemistry)Soil waterEnvironmental scienceMetallurgySoil scienceMicrobial Applications in Construction MaterialsGeotechnical Engineering and Soil StabilizationConcrete and Cement Materials Research
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