Study of stress-strain and volume change behavior of emplaced municipal solid waste using large-scale triaxial testing

•Large-scale drained triaxial compression tests were conducted on reconstituted MSW.•Fiber materials had significant effect on the stress-strain, volume change and stiffness behavior of MSW.•Cross-anisotropic behavior of MSW is discussed using the data from triaxial and direct shear testing.•Shear s...

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Bibliographic Details
Published in:Waste management (Elmsford) 2017-05, Vol.63, p.366-379
Main Authors: Ramaiah, B.J., Ramana, G.V.
Format: Article
Language:English
Subjects:
Cross-anisotropic
India
Municipal solid waste
Physical Phenomena
Plastics
Poisson’s ratio
Pressure
Refuse Disposal
Secant Young’s modulus
Shear Strength
Solid Waste - analysis
Textiles
Triaxial testing
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Summary:•Large-scale drained triaxial compression tests were conducted on reconstituted MSW.•Fiber materials had significant effect on the stress-strain, volume change and stiffness behavior of MSW.•Cross-anisotropic behavior of MSW is discussed using the data from triaxial and direct shear testing.•Shear strength of MSW at Delhi is in good agreement with the literature data. The article presents the stress-strain and volume change behavior, shear strength and stiffness parameters of landfilled municipal solid waste (MSW) collected from two dump sites located in Delhi, India. Over 30 drained triaxial compression (TXC) tests were conducted on reconstituted large-scale specimens of 150mm diameter to study the influence of fiber content, age, density and confining pressure on the shear strength of MSW. In addition, a few TXC tests were also conducted on 70mm diameter specimen to examine the effect of specimen size on the mobilized shear strength. It is observed that the fibrous materials such as textiles and plastics, and their percentage by weight have a significant effect on the stress-strain-volume change behavior, shear strength and stiffness of solid waste. The stress-strain-volume change behavior of MSW at Delhi is qualitatively in agreement with the behavior reported for MSW from different countries. Results of large-scale direct shear tests conducted on MSW with an identical composition used for TXC tests revealed the cross-anisotropic behavior as reported by previous researchers. Effective shear strength parameters of solid waste evaluated from this study is best characterized by ϕ′=39° and c′=0kPa for the limiting strain-based failure criteria of K0=0.3+5% axial strain and are in the range of the data reported for MSW from different countries. Data presented in this article is useful for the stress-deformation and stability analysis of the dump sites during their operation as well as closure plans.
ISSN:0956-053X
1879-2456
DOI:10.1016/j.wasman.2017.01.027