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9996741
Experimental Study of Strength Recovery from Residual Strength on Kaolin Clay
Abstract:
Strength recovery effect from the residual-state of shear is not well address in scientific literature. Torsional ring shear strength recovery tests on kaolin clay using rest periods up to 30 days are performed at the effective normal stress 100kN/m2. Test results shows that recovered strength measured in the laboratory is slightly noticeable after rest period of 3 days, but recovered strength lost after very small shear displacement. This paper mainly focused on the strength recovery phenomenon from the residual strength of kaolin clay based on torsional ring shear test results. Mechanisms of recovered strength are also discussed.
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References:

[1] M. G. Angeli, P. Gasparetto, R. M. Menotti, A. Pasuto, and S. Silvano, "A visco-plastic model for slope analysis applied to a mudslide in Cortina d’Ampezzo, Italy,” Quarterly J. Engrg. Geol., vol. 29, pp. 233-240, 1996.
[2] M. G. Angeli, P. Gasparetto, and N. Bromhead, "Strength-regain mechanisms in intermittently moving slides,” Proceeding of IXth Int. Symp. on Landslides, Rio de Janeiro, vol. 1, Taylor and Francis, London, pp. 689-696, 2004.
[3] A. W. Bishop, G. E. Green, V. K. Garge, A. Andersen, and J. D. Brown, "A new ring shear apparatus and its application to the measurement of residual strength,” Geotechnique, vol. 21, no 4, pp. 273-328, 1971.
[4] E. N. Bromhead, "A simple ring shear apparatus,” J. Ground. Eng., vol. 12, no 5, pp. 40-44, 1979.
[5] E. N. Bromhead, and R. D. Curtis, "A comparison of alternative methods of measuring the residual strength of London clay,” J. Ground. Eng., vol. 16, no 4, pp. 39-40, 1983.
[6] Carrubba P., and M. Del Fabbro, "Laboratory Investigation on Reactivated Residual Strength,” J. Geotech. Geoenviron. Engrg., vol. 134, no 3, pp. 302-315, 2008.
[7] J. Czarnecki, and T. Dabros, "Attenuation of the van der Waals Attraction Energy in the Particle/Semi-Infinite Medium System Due to the Roughness of the Particle Surface,” J. Colloid. and Interface Science, vol. 78, no 1, pp. 25-30, 1980.
[8] E. D’Appolonia, R. Alperstein, and D. J. D’Appolonia, "Behavior of a colluvial slope,” J. Soil Mech. Found. Div., vol. 93, no 4, pp. 447-473, 1967.
[9] S. Gibo, K. Egashira, M. Ohtsubo, and S. Nakamura, "Strength recovery from residual state in reactivated landslides,” Geotechnique, vol. 52, no 9, pp. 683-686, 2002.
[10] D. P. La Gatta, Residual strength of clays and clay-shale by rotation shear tests, Harvard Soil Mechanics Series (86), Harvard University, Cambridge, 1970, pp. 204.
[11] G. Mesri, and A. Castro, "Ca/Cc concept and K0 during secondary compression,” J. Geotech. Eng. Div., ASCE, vol. 113, pp. 230-247, 1987.
[12] G. Mesri, and M. Shahien, "Residual shear strength mobilized in first-time slope failures,” J. Geotech. Geoenviron. Eng., vol. 129, no 1, pp. 12-31, 2003.
[13] G. Mesri, and T. W. Feng, "Discussion: Stress-strain-strain rate relation for the compressibility of sensitive natural clays,” Geotechnique, vol. 36, no 2, pp. 283-290, 1986.
[14] J. K. Mitchell, and K. Soga, Fundamentals of soil behavior, in: 3rd ed., Wiley, New York, 2005.
[15] B. K. Ramiah, P. Purushothamaraj, and N. G. Tavane, "Thixotropic effects on residual strength of remoulded clays,” Indian Geotech. J., vol. 3, no 3, pp. 189-197, 1973.
[16] A. W. Skempton, "Fourth Rankine Lecture: Long term stability of clay slopes,” Geotechnique, vol. 14, no 2, pp. 77-101, 1964.
[17] A. W. Skempton, "Residual strength of clays in landslides, folded strata and the laboratory,” Geotechnique, vol. 35, no 1, pp. 3-18, 1985.
[18] J. H. Schmertmann, "The mechanical ageing of soils,” J. Geotech. Eng., vol. 117, no 12, pp. 1288-1330, 1991.
[19] T. D. Stark, and H. T. Eid, "Drained residual strength of cohesive soils,” J. Geotech. Geoenviron. Engrg., vol. 120, no 5, pp. 856-871, 1994.
[20] T. D. Stark, H. Choi, and S. McCone, "Drained shear strength parameters for analysis of landslides,” J. Geotech. Geoenviron. Engrg., vol. 131, no 5, pp. 575-588, 2005.
[21] T. D. Stark, and M. Hussain, "Shear Strength in Preexisting Landslides,” Journal of Geotechnical and Geoenvironmental Engineering, ASCE, vol. 136, no 7, pp. 957-962, 2010.
[22] T. E. Tika, "Ring shear tests on a carbonate sandy soil,” Geotech. Test. J., vol. 22, no 4, pp. 342-355, 1999.
[23] T. E. Tika, and J. N. Hutchinson, "Ring shear tests on soil from the Vaiont landslide surface,” Geotechnique, vol. 49, no 1, pp. 59-74, 1999.
[24] B. Tiwari, and H. Marui, "A New Method for the Correlation of Residual Shear Strength of the Soil with Mineralogical Composition,” J. Geotech. Geoenviron. Eng., ASCE, vol. 131, no 9, pp. 1139-1150, 2005.
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