Rayleigh Waves Transformation in Liquefying Water-saturated Sands

Achenbach J. D. (1973) Wave Propagation in Elastic Solids, North-Holland, Amsterdam.Search in Google Scholar

Bažant Z. P., Krizek R. J. and Shieh C. L. (1983) Histeretic endochronic theory for sand, Proc. ASCE, J. Eng. Mech., 109 (4), 1073–1095.10.1061/(ASCE)0733-9399(1983)109:4(1073)Search in Google Scholar

Biot M. A. (1955) Theory of elasticity and consolidation for a porous anisotropic solid, J. Appl. Phys., 26 (2), 182–185.10.1063/1.1721956Search in Google Scholar

Bowen R. M. (1982) Compressible porous media models by use of the theory of mixtures, Int. J. Eng. Sci., 20 (6), 697–735.10.1016/0020-7225(82)90082-9Search in Google Scholar

Finn W. D. L., Lee K. W. and Martin G. R. (1977) An effective stress model for liquefaction, Proc. ASCE, J. Geotech. Eng. Div., 103 (6), 517–533.10.1061/AJGEB6.0000434Search in Google Scholar

Finn W. D. L., Pickering D. J. and Bransby P. L. (1971) Sand liquefaction in triaxial and simple shear tests, Proc. ASCE, J. Soil Mech. Found. Div., 97 (4), 639–659.10.1061/JSFEAQ.0001579Search in Google Scholar

Gazetas G. and Yegian M. K. (1979) Shear and Rayleigh waves in soil mechanics, Proc. ASCE, J. Geotech. Eng. Div., 105, 1455–1470.10.1061/AJGEB6.0000900Search in Google Scholar

Hardin R. and Drnevich V. P. (1972) Shear modulus and damping in soils: measurement and parameter effects, Proc. ASCE, J. Soil Mech. Found. Div., 98 (6), 603–624.10.1061/JSFEAQ.0001756Search in Google Scholar

Lysmer J. (1970) Lumped mass method for Rayleigh waves, Bull. Seism. Soc. Am., 60 (1), 89–104.10.1785/BSSA0600010089Search in Google Scholar

Martin G. R., Finn W. D. L. and Seed H. B. (1975) Fundamentals of liquefaction under cyclic loading, Proc. ASCE, J. Geotech. Eng. Div., 101, 423–438.10.1061/AJGEB6.0000164Search in Google Scholar

Morland L. W. and Sawicki A. (1983) A mixture model for the compaction of saturated sand, Mech. Mater., 2 (3), 203–216.10.1016/0167-6636(83)90015-7Search in Google Scholar

Morland L.W. and Sawicki A. (1985) A model for compaction and shear hysteresis in saturated granular materials, J. Mech. Phys. Solids, 33, 1–24.10.1016/0022-5096(85)90019-5Search in Google Scholar

Mróz Z., Norris V. A. and Zienkiewicz O. C. (1981) An anisotropic, critical state model for soils subject to cyclic loading, Gèotechnique, 31 (4), 451–469.10.1680/geot.1981.31.4.451Search in Google Scholar

Sawicki A. (1987) An engineering model for compaction of sand under cyclic loading, Eng. Trans., 35 (4), 677–693.Search in Google Scholar

Sawicki A. (1991) Mechanics of Soils under Cyclic Loading (in Polish), IBW PAN Publishing House, Gdańsk.Search in Google Scholar

Sawicki A. (2014) The Puzzle of Soil Liquefaction, IBW PAN Publishing House, Gdańsk.Search in Google Scholar

Sawicki A. and Mierczyński J. (2006) Developments in modeling liquefaction of granular soils, caused by cyclic loads, Appl. Mech. Rev., 59 (2), 91–106.10.1115/1.2130362Search in Google Scholar

Sawicki A. and Morland L.W. (1985) Pore pressure generation in a saturated sand layer subjected to a cyclic horizontal acceleration at it base, J. Mech, Phys. Solids, 33 (6), 545–559.10.1016/0022-5096(85)90002-XSearch in Google Scholar

Sawicki A. and Staroszczyk R. (1995) Development of ground liquefaction due to surface waves, Arch. Mech., 47 (3), 557–576.Search in Google Scholar

Seed H. B. and Lee K. L. (1966) Liquefaction of saturated sands during cyclic loading, Proc. ASCE, J. Soil Mech. Found. Div., 92 (6), 105–134.10.1061/JSFEAQ.0000913Search in Google Scholar

Seed H. B. and Peacock W. H. (1971) Test procedures for measuring soil liquefaction characteristics, Proc. ASCE, J. Soil Mech. Found. Div., 97 (8), 1099–1119.10.1061/JSFEAQ.0001649Search in Google Scholar

Staroszczyk R. (1996) Pore pressure generation and liquefaction in saturated sands due to the propagation of surface waves, Acta Geophys. Pol., 44 (2), 195–218.Search in Google Scholar

Staroszczyk R. (1998) Love wave-induced liquefaction in a saturated sand layer, J. Theor. Appl. Mech., 36 (3), 723–744.Search in Google Scholar

Valanis K. C. and Peters J. F. (1991) An endochronic plasticity theory with shear-volumetric coupling, Int. J. Numer. Anal. Meth. Geomech., 15 (2), 77–102, DOI: 10.1002/nag.1610150202.10.1002/nag.1610150202Search in Google Scholar

Verruijt A. (1969) Elastic storage of aquifers, in: Flow through Porous Media (ed. R. J. M. De Wiest), chap. 8, Academic Press, New York, pp. 331–376.Search in Google Scholar

Zienkiewicz O. C., Taylor R. L. and Zhu J. Z. (2005) The Finite Element Method: Its Basis and Fundamentals, Elsevier Butterworth-Heinemann, Amsterdam, 6th edn.Search in Google Scholar