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Effect of granulated rubber on shear strength of fine-grained sand 被引量:7

Effect of granulated rubber on shear strength of fine-grained sand
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摘要 Review of the literature related to the mixture of shredded tire and sand shows that,despite of the increase in shear strength due to addition of tire chips,granulated rubber causes reduction in shear strength of sand.In this study,the shear behavior of mixtures of fine-grained sand and 1-5 mm granulated rubber is investigated.Sixty direct shear tests were conducted on sandegranulated rubber mixtures with various rubber contents(0%,5%,10%,20% and 30%) at different relative densities(50%,70% and 90%) and different normal stresses(34.5 kPa,54.5 kPa,74.5 kPa and 104.5 kPa).The obtained results show that the granulated rubber improves the shear strength of fine-grained sand at medium relative density and low normal stress.The degree of improvement in shear strength is a function of rubber content,relative density and normal stress.The results show that at relative density of 50%,by adding 5% granulated rubber,the internal friction angle of sand increases from 35.1° to 39.2°.However,at relative densities of 70% and 90%,addition of granulated rubber to sand decreases its internal friction angle.The results also indicate that the behavior of sand becomes more ductile with increasing granulated rubber content.Adding granulated rubber leads to greater yielding strain and less tangent stiffness of sand.The maximum dilation angle decreases with the decrease in granulated rubber content.The stress ratio of sample at critical state(ψ= 0°) decreases with increasing granulated rubber content. Review of the literature related to the mixture of shredded tire and sand shows that,despite of the increase in shear strength due to addition of tire chips,granulated rubber causes reduction in shear strength of sand.In this study,the shear behavior of mixtures of fine-grained sand and 1-5 mm granulated rubber is investigated.Sixty direct shear tests were conducted on sandegranulated rubber mixtures with various rubber contents(0%,5%,10%,20% and 30%) at different relative densities(50%,70% and 90%) and different normal stresses(34.5 kPa,54.5 kPa,74.5 kPa and 104.5 kPa).The obtained results show that the granulated rubber improves the shear strength of fine-grained sand at medium relative density and low normal stress.The degree of improvement in shear strength is a function of rubber content,relative density and normal stress.The results show that at relative density of 50%,by adding 5% granulated rubber,the internal friction angle of sand increases from 35.1° to 39.2°.However,at relative densities of 70% and 90%,addition of granulated rubber to sand decreases its internal friction angle.The results also indicate that the behavior of sand becomes more ductile with increasing granulated rubber content.Adding granulated rubber leads to greater yielding strain and less tangent stiffness of sand.The maximum dilation angle decreases with the decrease in granulated rubber content.The stress ratio of sample at critical state(ψ= 0°) decreases with increasing granulated rubber content.
出处 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2017年第5期936-944,共9页 岩石力学与岩土工程学报(英文版)
关键词 Granulated rubber Fine-grained sand Relative density Shear strength Granulated rubber Fine-grained sand Relative density Shear strength
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  • 1Baki Oztur and Safa Bozkurt Coskun, (2011), “The Homotopy Perturbation Method for Free Vibration Analysis of Beam on Elastic Foundation,” Structural Engineering and Mechanics, 37(4): 415-425.
  • 2Bayat,M, Barari A and Shahidi M (2011a), “Dynamic Response of Axially Loaded Euler-Bemoulli Beams,” Mechanika, 17(2): 172-177.
  • 3Bayat M, Bayat M and Bayat M (201 lb), “An Analytical Approach on a Mass Grounded by Linear and Nonlinear Springs in Series,” Int. J. Phy. Sci., 6(2): 229-236.
  • 4Bayat M and Pakar I (201 la), “Nonlinear Free Vibration Analysis of Tapered Beams by Hamiltonian Approach,” Journal ofVibroengineering, 13(4): 654—661.
  • 5Bayat M and Pakar I (2012), “Accurate Analytical Solution for Nonlinear Free Vibration of Beams,” Structural Engineering and Mechanics, 43(3): 337-347.
  • 6Bayat M and Pakar I (2013), “On the Approximate Analytical Solution to Nonlinear Oscillation Systems,” Shock and Vibration, 20(1): 43-52.
  • 7Bayat M, Pakar I and Bayat M (2013), “On the Large Amplitude Free Vibrations of Axially Loaded Euler-Bemoulli Beams,” Steel and Composite Structures, 14(1): 73-83.
  • 8Bayat M, Pakar I and Domaiirry G (2012), “Recent Developments of Some Asymptotic Methods and Their Applications for Nonlinear Vibration Equations in Engineering Problems: A Review,” Latin American Journal of Solids and Structure, 9(2): 145-234.
  • 9Bayat M, Pakar I and Shahidi M (2011c), “Analysis of Nonlinear Vibration of Coupled Systems with Cubic Nonlinearity,” Mechanika, 17(6): 620-629.
  • 10Bayat M, Shahidi M and Bayat M (201 Id) “Application of Iteration Perturbation Method for Nonlinear Oscillators with Discontinuities,” Int. J. Phy. Sci., 6(15): 3608-3612.

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