References
- American Society for Testing and Materials (2015). Specifications. West Conshohocken, PA: Author.
- Casacrande, A., & Wilson, S. (1951). Effect of rate of loading on the strength of clays and shales at constant water content. Géotechnique, 2(3), 251–263.10.1680/geot.1951.2.3.251
- Gratchev, I. B., & Sassa, K. (2015). Shear strength of clay at different shear rates. Journal of Geotechnical and Geoenvironmental Engineering, 141(5), 06015002. doi:10.1061/(asce)gt.1943-5606.0001297
- Habibbeygi, F., Nikraz, H., & Chegenizadeh, A. (2017). Intrinsic compression characteristics of an expansive clay from Western Australia. International Journal of GEOMATE, 12(29), 140–147. doi:10.21660/2017.29.20455
- Habibbeygi, F., Nikraz, H., & Verheyde, F. (2017). Determination of the compression index of reconstituted clays using intrinsic concept and normalized void ratio. International Journal of Geomate, 13(39), 54–60. doi:10.21660/2017.39.98271
- Head, K. H. (1986). Manual of soil laboratory testing (Vol. 2). London: Pentech Press.
- Li, Y. R., Wen, B. P., Aydin, A., & Ju, N. P. (2013). Ring shear tests on slip zone soils of three giant landslides in the Three Gorges Project area. Engineering Geology, 154, 106–115. doi:10.1016/j.enggeo.2012.12.015
- Mesri, G., & Olson, R. (1970). Shear strength of montmorillonite. Géotechnique, 20(3), 261–270.10.1680/geot.1970.20.3.261
- Richardson, A. M., & Whitman, R. V. (1963). Effect of strain-rate upon undrained shear resistance of a saturated remoulded fat clay. Géotechnique, 13(4), 310–324.10.1680/geot.1963.13.4.310
- Scaringi, G., & Di Maio, C. (2016). Influence of displacement rate on residual shear strength of clays. Procedia Earth and Planetary Science, 16, 137–145. doi:10.1016/j.proeps.2016.10.015
- Skempton, A. W. (1985). Residual strength of clays in landslides, folded strata and the laboratory. Géotechnique, 35(1), 3–18.10.1680/geot.1985.35.1.3
- Tatsuoka, F., Di Benedetto, H., Enomoto, T., Kawabe, S., & Kongkitkul, W. (2008). Various viscosity types of geomaterials in shear and their mathematical expression. Soils and Foundations, 48(1), 41–60.10.3208/sandf.48.41
- Tika, T. E., & Hutchinson, J. (1999). Ring shear tests on soil from the Vaiont landslide slip surface. Géotechnique, 49(1), 59–74.10.1680/geot.1999.49.1.59
- Tika, T. E., Vaughan, P., & Lemos, L. (1996). Fast shearing of pre-existing shear zones in soil. Géotechnique, 46(2), 197–233.10.1680/geot.1996.46.2.197
- Vulliet, L., & Hutter, K. (1988). Viscous-type sliding laws for landslides. Canadian Geotechnical Journal, 25(3), 467–477.10.1139/t88-052