Utilization of soil nailing technique to increase shear strength of cohesive soil and reduce settlement
W. R. Azzam,Ali Basha +1 more
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In this paper, a series of unconfined compression tests and direct shear tests were carried out to establish the stress-strain relationship and strength characteristics of the reinforced clay sample by vertical steel nails.Abstract:
This article deals with the assessment of the soil nailing technique with a vertical inclusion to improve the geotechnical parameters of cohesive soil. A series of unconfined compression tests and direct shear tests were carried out to establish the stress–strain relationship and strength characteristics of the reinforced clay sample by vertical steel nails. The shear strength performance of the new composite material was tested by varying the number of vertical inclusions, the embedment depth and the alignment radius. The results confirmed that the vertical bars/inclusions shared the vertical applied load with clay. Increase in the number of vertical inclusions significantly increases the shear strength and the stiffness with a remarkable reduction in settlement. When the clay samples were reinforced with six inclusions along the perimeter, the shear strength was increased to 231% for the embedment depth ratio equal to 0.85. To obtain the optimum effect in eliminating shear failure, the vertical inclusions should be extended to a deeper zone with sufficient numbers. It has been found that the vertical inclusions significantly influence the shear strength, and the brittle or general shear failure of the unreinforced sample can be diverted to partial/plastic shear failure.read more
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References
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Utilization of fly ash for stabilization/solidification of heavy metal contaminated soils
Dimitris Dermatas,Xiaoguang Meng +1 more
TL;DR: In this paper, fly ash waste materials were used along with quicklime (CaO) to immobilize lead, trivalent and hexavalent chromium present in artificially contaminated clayey sand soils.
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Mechanical properties of kaolinite/fiber soil composite
M. H. Maher,Y. C. Ho +1 more
TL;DR: In this paper, the authors evaluated the mechanical properties of a kaolinite/fiber soil composite by a series of laboratory unconfined compression, splitting tensile strength, three-point bending, and hydraulic conductivity tests.
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Laboratory evaluation on the effectiveness of polypropylene fibers on the strength of fiber-reinforced and cement-stabilized Shanghai soft clay
TL;DR: In this paper, a laboratory evaluation on the strength behavior of cement-clay admixture improved by polypropylene fiber is presented, and the results show that fiber additive can significantly improve the strength and ductility of the cement treated Shanghai clay.
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Unconfined Compression Strength of Reinforced Clays with Carpet Waste Fibers
TL;DR: In this article, a comprehensive investigation on the utilization of carpet waste fibers in reinforcement of clay soils was conducted and the results revealed that inclusion of carpets waste fibers into clay soils prepared at the same dry unit weight can significantly enhance the unconfined compression strength (UCS), reduce post peak strength loss, and change the failure behavior from brittle to ductile.