The Effect of Key Parameters on the Strength of a Dispersive Soil Stabilized with Sustainable Binders

Dispersive soils are susceptible to phenomena of internal and external erosion when in contact with relatively pure water due to its particle’s tendency to deflocculation and suspension. This problem can be addressed through the employment of calcium-based materials such as lime and/or ordinary Port...

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Veröffentlicht in:	Geotechnical and geological engineering 2021-10, Vol.39 (7), p.5395-5404
Hauptverfasser:	Filho, Hugo Carlos Scheuermann, Martins, Carlos Guilherme, Menezes, Ricardo José Wink, Dornelles, Lucas Eduardo, Consoli, Nilo Cesar
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Sprache:	eng
Schlagworte:	Acetylene Binders Binders (materials) Calcium Carbides Cement Civil Engineering Compacted soils Compressive strength Curing Deflocculating Deflocculation Dry weight Earth and Environmental Science Earth Sciences Factorial design Geotechnical Engineering & Applied Earth Sciences Glass Grain size Hydrogeology Lime Lime soil stabilization Physical properties Pinholes Porosity Portland cement Portland cements Powder Soil Soil compaction Soil dispersion Soil erosion Soil lime Soil porosity Soil stabilization Soil strength Statistical analysis Statistical methods Technical Note Terrestrial Pollution Waste Management/Waste Technology
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container_title	Geotechnical and geological engineering
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creator	Filho, Hugo Carlos Scheuermann Martins, Carlos Guilherme Menezes, Ricardo José Wink Dornelles, Lucas Eduardo Consoli, Nilo Cesar
description	Dispersive soils are susceptible to phenomena of internal and external erosion when in contact with relatively pure water due to its particle’s tendency to deflocculation and suspension. This problem can be addressed through the employment of calcium-based materials such as lime and/or ordinary Portland cement, which are environmental harmful materials. Hence, this paper proposes the stabilization of a dispersive soil through the employment of a binder composed by ground waste glass powder and carbide lime derived from the production of acetylene gas, two residues. Specifically, it evaluates the effect of the dry unit weight, the amount of ground glass powder, the carbide lime content and the curing period on the unconfined compressive strength of compacted soil-ground glass powder-carbide lime blends through a 2 k factorial design approach. Moreover, the dispersibility is assessed via Pinhole tests. The strength results could be successfully correlated to the adjusted porosity/binder content index and the statistical analysis revealed the great effect of the controllable variables, with the exception of the amount of carbide lime. The Pinhole tests revealed that the proposed binders suppressed the dispersibility tendency.
doi_str_mv	10.1007/s10706-021-01833-9
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subjects	Acetylene Binders Binders (materials) Calcium Carbides Cement Civil Engineering Compacted soils Compressive strength Curing Deflocculating Deflocculation Dry weight Earth and Environmental Science Earth Sciences Factorial design Geotechnical Engineering & Applied Earth Sciences Glass Grain size Hydrogeology Lime Lime soil stabilization Physical properties Pinholes Porosity Portland cement Portland cements Powder Soil Soil compaction Soil dispersion Soil erosion Soil lime Soil porosity Soil stabilization Soil strength Statistical analysis Statistical methods Technical Note Terrestrial Pollution Waste Management/Waste Technology
title	The Effect of Key Parameters on the Strength of a Dispersive Soil Stabilized with Sustainable Binders
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