Cyclic Behavior and Liquefaction Potential of Indian Pond Ash Located in Seismic Zones III and IV
Publication: Journal of Materials in Civil Engineering
Volume 26, Issue 7
Abstract
In the present study, cyclic behavior and liquefaction potential of pond ashes collected from Talcher, Panki, and Panipat ash embankments located in seismic zone III and IV have been studied. Cyclic triaxial tests were conducted on reconstituted pond ash samples at a relative compaction varying from 94 to 99%. The effects of loading frequency, confining pressure, and relative compaction on cyclic behavior and liquefaction potential of reconstituted pond ashes have been studied. From test results, it is seen that all compacted pond ash samples exhibit good liquefaction resistance, dynamic properties, and degradation index. It may be concluded that pond ashes from Talcher, Panki, and Panipat can effectively be used as a geomaterial in geotechnical applications.
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Acknowledgments
The authors are grateful to the Department of Science and Technology, Government of India, for providing financial assistance.
References
ASTM. (1973). “Evaluation of relative density and its role in geotechnical projects involving cohesionless soils.”, West Conshohocken, PA.
ASTM. (1992). “Standard test method for load controlled cyclic triaxial strength of soil.” D5311-92, West Conshohocken, PA.
ASTM. (1996). “Standard test methods for the determination of the modulus and damping properties of soils using the cyclic triaxial apparatus.” D3999-91, West Conshohocken, PA.
ASTM. (2008). “Standard specification for coal fly ash and raw or calcined natural pozzolan for use in concrete.” C618-08a, West Conshohocken, PA.
Cai, G., Liu, S., and Puppala, A. J. (2012). “Liquefaction assessments using seismic piezocone penetration (SCPTU) test investigations in Tangshan region in China.” Soil Dyn. Earthquake Eng., 41, 141–150.
Cai, G., Liu, S., and Tong, L. (2010). “Field evaluation of deformation characteristics of a lacustrine clay deposit using seismic piezocone tests.” Eng. Geol., 116(3–4), 251–260.
Das, S. K., and Yudbhir (2005). “Geotechnical characterization of some Indian fly ashes.” J. Mater. Civ. Eng., 544–552.
Degregario, B. V. (1990). “Loading systems, sample preparation and liquefaction.” J. Geotech. Eng. Div., 805–821.
Dey, A. K., and Gandhi, S. R. (2008). “Evaluation of liquefaction potential of pond ash.” Proc., 2nd Int. Conf. on Geotechnical Engineering for Disaster Mitigation and Rehabilitation, Springer, Science Press, Berlin Heidelberg, Beijing, 315–320.
Dhadse, S., Kumari, P., and Bhagia, L. J. (2008). “Fly ash characterization, utilization and government initiatives in India–A review.” J. Sci. Ind. Res., 67(1), 11–18.
Gray, D. H., and Lin, Y. K. (1972). “Engineering properties of compacted fly ash.” J. Soil Mech. Found. Div., 98(4), 361–380.
Idriss, I. M., Dobry, R., and Singh, R. D. (1978). “Nonlinear behavior of soft clays during cyclic loading.” J. Geotech. Eng. Div., 104(12), 1427–1447.
Jakka, R. S., Datta, M., and Ramana, G. V. (2010b). “Liquefaction behavior of loose and compacted pond ash.” Soil Dyn. Earthquake Eng., 30(7), 580–590.
Jakka, R. S., Ramana, G. V., and Datta, M. (2010a). “Shear strength characteristics of loose and compacted pond ash.” Geotech. Geol. Eng., 28(6), 763–778.
Kim, B., Prezzi, M., and Salgado, R. (2005). “Geotechnical properties of fly and bottom ash mixtures for use in highway embankments.” J. Geotech. Geoenviron. Eng., 914–924.
Madhyannapu, R. S., Madhav, M. R., Puppala, A. J., and Ghosh, A. (2008). “Compressibility characteristics of sedimented fly ash beds.” J. Mater. Civ. Eng., 401–409.
Mohanty, B., Patra, N. R., and Chandra, S. (2010). “Cyclic triaxial behavior of pond ash.” Proc., GeoFlorida 2010, Advances in Analysis, Modeling and Design, Geotechnical Special Publication, No. 199, ASCE, Reston, VA, 833–841.
Pandian, N. S. (2004). “Fly ash characterization with reference to geotechnical applications.” J. Indian Inst. Sci., 84(6), 189–216.
Punthutaecha, K., Puppala, A. J., Vanapalli, S. K., and Inyang, H. (2006). “Volume change behaviors of expansive soils stabilized with recycled ashes and fibers.” J. Mater. Civ. Eng., 295–306.
Puppala, A. J., and Chittoori, B. C. S. (2012). “Transportation infrastructure settlement and heave distress: Challenges and solutions.” J. Zhejiang Univ. Sci. A (Appl. Phys. Eng.), 13(11), 850–858.
Sridharan, A., Pandian, N. S., and Rajasekhar, C. (1996). “Geotechnical characterization of pond ash.” Ash ponds and ash disposal systems, Narosa, New Delhi, India, 97–110.
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© 2014 American Society of Civil Engineers.
History
Received: May 31, 2013
Accepted: Oct 21, 2013
Published online: Apr 9, 2014
Published in print: Jul 1, 2014
Discussion open until: Sep 9, 2014
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