Основания, фундаменты и механика грунтов

Показано, что матричное всасывание, согласно уравнению Бишопа, может увеличивать эффективное напряжение частично водонасыщенных грунтов, вследствие действия отрицательного порового давления воды. Рассмотрены условия устойчивости склонов частично водонасыщенных грунтов с учетом влияния всасывания при различных уровнях водоносного горизонта. Рассматривается роль отрицательного давления поровой воды при анализе устойчивости склона. Приведена модель грунта, учитывающая колебания уровня грунтовых вод и отрицательное поровое давление.

Полный текст статьи опубликован в английской версии журнала
"Soil Mechanics and Foundation Engineering".

Al-Mahbashi, A. M., Elkady, T., and Alrefeai, T.O. (2015). “Soil water characteristic curve and improvement in lime treated expansive soil.” Geomechanics and Engineering, Vol. 8(5): 687-706.

Abaqus (2014). Abaqus Documentation, Version 6.14: Abaqus/CAE User’s Manual. SIMULIA, Corp., Providence, RI.

Chang, Y. L. and T. K. Huang. (2005). Slope stability analysis using strength reduction technique. Journal of the Chinese Institute of Engineers 28(2): 231-240.

Clough, R. W. and R. J. Woodward, III. (1967). Analysis of embankment embankment stresses and deformations. Journal of the Soil Mechanics and Foundations Division, ASCE, 93(SM4): 529-550.

Fredlund, D. G. and H. Rahardjo. (1993). Soil Mechanics for Unsaturated Soils. New York: Wiley and Sons.

Fredlund, D. G. (1998). Bring unsaturated soil mechanics into engineering practice. Second International Conference on Unsaturated Soil, August, Bejing, China: 31-35.

Gallage, C., J. Kodikara, and T. Uchimura. (2013). Laboratory measurement of hydraulic conductivity functions of two unsaturated sandy soils during drying and wetting processes. Soils and Foundations 53(3), Japanese Geotechnical Society: 417-430.

Griffiths, D. V. and P. A. Lane. (1999). Slope stability analysis by finite elements. Géotechnique 49(3): 387-403.

Ho, I. H. (2014). Parametric studies of slope stability analyses using three-dimensional finite element technique: Geometric effect. Journal of Geoengineering 9(1): 33-43.

Ho, I. H. (2015). Numerical study of slope-stabilizing piles in undrained clayey slopes with a weak thin layer. International Journal of Geomechanics 15(5), ASCE, 06014025-1-12.

Ho, I. H. (2017). Slope stability analysis considering soil suction using finite element method. Proceedings of the 19th ICSMGE conference, Seoul, Korea. 3493-3496.

Kim, J., S. Jeong, and R. Regueiro. (2012). Instability of partially saturated slopes due to alteration of rainfall pattern. Engineering Geology: 147-148, 28-36.

Li, X., Wen, H., Muhunthan, B., and Wang, J. (2015). "Modeling and Prediction of the Effects of Moisture on the Unconfined Compressive and Tensile Strength of Soils." J. Geotech. Geoenviron. Eng., 10.1061/(ASCE)GT.1943-5606.0001308, 04015028.

Lu, N., and W. Likos. (2004). Unsaturated Soil Mechanics. New York: Wiley and Sons.

Matsui, T. and K. C. San. (1992). Finite element slope stability analysis by shear strength reduction technique. Soils and Foundations 32(1): 59-70.

Nian, T. K., R. Q. Huang, S. S. Wan, and G. Q. Chen. (2012). Three-dimensional strength-reduction finite element analysis of slopes: Geometric effects. Canadian Geotechnical Journal 49(5): 574-588.

Rahardjo, H., A. Satyanaga, E. C. Leong, and N. Y. Song. (2010). Effects of groundwater table position and soil properties on stability of slope during rainfall. Journal of Geotechnical and Geoenvironmental Engineering 136(11), ASCE: 1555-1564.

Ray, R., Jacobs, J., and de Alba, P. (2010). "Impacts of Unsaturated Zone Soil Moisture and Groundwater Table on Slope Instability." J. Geotech. Geoenviron. Eng., 10.1061/(ASCE)GT.1943-5606.0000357, 1448-1458.

Stianson, J. R., D. G. Fredlund, and D. Chan. (2011). Three-dimensional slope stability based on stresses from a stress-deformation analysis. Canadian Geotechnical Journal 48(6): 891-904.

Stolle, D. and P. Guo. (2008). Limit equilibrium slope stability analysis using rigid finite elements. Canadian Geotechnical Journal 45: 653-662.

Sweeney, D. J. (1982). Some in situ soil suction measurements in Hong Kong’s residual soil slopes. Proceedings of 7th Southeast Asia Geotechnical Conference: 91-106.

van Genuchten, M. T. (1980). A closed-form equation for predicting the hydraulic conductivity of unsaturated soils. Soil Science Society of America Journal 44: 892–898.

Van Genuchten, M. T., Leij, F. J., and Yates, S. R. (1991). “The RETC code for quantifying the hydraulic functions of unsaturated soils.” U.S. EPA Rep. 600/2–91/065, Ada, OK.

Zhang. Y., G. Chen, L. Zheng, Y. Li, and X. Zhuang. (2013). Effects of geometries on three-dimensional slope stability. Canadian Geotechnical Journal 50: 233-249.

Zienkiewicz, O. C., C. Humpheson, and R. W. Lewis. (1975) Associated and non-associated visco-plasticity and plasticity in soil mechanics. Géotechnique 25(4): 671-689.