Journal ArticleDOI
Compressive and Tensile Behavior of Polymer Treated Sulfate Contaminated CL Soil
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In this paper, the compressive and tensile behavior of polymer treated sulfate contaminated CL soil was investigated and the effect of treating the soil with a polymer solution was compared to 6% lime treated soil.Abstract:
In this study, the compressive and tensile behavior of polymer treated sulfate contaminated CL soil was investigated. Based on the information in the literature, a field soil was contaminated with up to 4 % (40,000 ppm) of calcium sulfate in this study. In addition to characterizing the behavior of sulfate contaminated CL soil, the effect of treating the soil with a polymer solution was investigated and the performance was compared to 6 % lime treated soil. In treating the soil, acrylamide polymer solution (15 g of polymer dissolved in 85 g of water) content was varied up to 15 % (by dry soil weight). Addition of 4 % calcium sulfate to the soil decreased the compressive and tensile strengths of the compacted soils by 22 and 33 % respectively with the formation of calcium silicate sulfate [ternesite Ca5(SiO4)2SO4)], magnesium silicate sulfate (Mg5(SiO4)2SO4) and calcium-magnesium silicate (merwinite Ca3Mg(SiO4)2). With the polymer treatment the strength properties of sulfate contaminated CL soil was substantially improved. Polymer treated sulfate soils had higher compressive and tensile strengths and enhanced compressive stress–strain relationships compared to the lime treated soils. Also polymer treated soils gained strength more rapidly than lime treated soil. With 10 % of polymer solution treatment, the maximum unconfined compressive and splitting tensile strengths for 4 % of calcium sulfate soil were 625 kPa (91 psi) and 131 kPa (19 psi) respectively in 1 day of curing. Similar improvement in the compressive modulus was observed with polymer treated sulfate contaminated CL soil. The variation of the compacted compressive strength and tensile strength with calcium sulfate concentrations for the treated soils were quantified and the parameters were related to calcium sulfate content in the soil and polymer content. Compressive stress–strain relationships of the sulfate soil, with and without lime and polymer treatment, have been quantified using two nonlinear constitutive models. The constitutive model parameters were sensitive to the calcium sulfate content and the type of treatment.read more
Citations
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Journal ArticleDOI
Soil and clay stabilization with calcium- and non-calcium-based additives: A state-of-the-art review of challenges, approaches and techniques
TL;DR: In this paper, the state of the practice in stabilization techniques and challenges is presented with a discussion, and available studies regarding the effects of various types of stabilizing agents on the engineering and geotechnical properties of stabilized soils are reviewed.
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Hyperbolic rheological model with shear stress limit for acrylamide polymer modified bentonite drilling muds
TL;DR: In this article, acrylamide polymer was used to modify the water-based bentonite mud to reduce the yield point and maximum shear stress produced by the mud during the drilling operation.
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Smart cement modified with iron oxide nanoparticles to enhance the piezoresistive behavior and compressive strength for oil well applications
TL;DR: In this article, the authors evaluated the piezoresistive smart cement behavior with and without nanoFe2O3 in order to identify the most reliable sensing properties that can also be relatively easily monitored.
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Effect of nanoclay on the electrical resistivity and rheological properties of smart and sensing bentonite drilling muds
TL;DR: In this article, the effect of temperature on the electrical resistivity and rheological properties of a water-based bentonite drilling mud modified with nanoclay was investigated, and the results showed that the performance of the modified drilling mud can be characterized based on electrical resistivities which can be monitored real-time in the field.
Journal ArticleDOI
Calcium-free geopolymer as a stabilizer for sulfate-rich soils
TL;DR: In this article, metakaolin based geopolymer (MKG) was used to stabilize a synthetic lean clay premixed with 1000, 5000 and 10,000 pm gypsum (equivalent to the sulfate concentration of 565, 2825 and 5650 pm, respectively).
References
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Book
An Introduction to Geotechnical Engineering
TL;DR: In this paper, the authors present data on soil behaviour, with emphasis on practical and empirical knowledge required by geotechnical engineers for the design and construction of foundations and embankments.
Journal ArticleDOI
Lime stabilization of clay minerals and soils
TL;DR: In this paper, three of the most frequently occurring minerals in clay deposits, namely, kaolinite, montmorillonite and quartz, were subjected to a series of tests.
Book
Introduction to Geotechnical Engineering
TL;DR: The introduction to geotechnical engineering as discussed by the authors takes intensive research and observation in the field and the laboratory which have refined and improved the science of foundation design and presents them in a simple and concise form.
Journal ArticleDOI
Lime-Induced Heave in Sulfate-Bearing Clay Soils
TL;DR: In this article, the authors found abundant thaumasite, a complex calcium-silicate-hydroxide-sulfate-carbonate-hyd rate mineral, forming a solid solution series with ettringite.