A model for dilatation, densification, and static liquefaction of loose sands

Most historic cases of liquefaction have been found to occur in alluvial (water) deposited silty sands. Currently, the e!ect of non-plastic "nes (particles smaller than No. 200 sieve) on the liquefaction behaviour of sands is viewed to be either negligible or its presence actually inhibits liquefact

Experimental studies describe the tendency of sand to liquefy when subjected to continuous rotation of principal stress axes (CRPSA). This paper suggests modifications to the Pastor-Zienkiewicz-Chan generalized plasticity model so that the effect of CRPSA on sand liquefaction is simulated. The model

This paper presents a new generalized e!ective stress model, referred to as MIT-S1, which is capable of predicting the rate independent, e!ective stress}strain}strength behaviour of uncemented soils over a wide range of con"ning pressures and densities. Freshly deposited sand specimens compressed fr

A model for the filtration hehaviour of emulsions is presented. The droplets within the emulsion have undisturbed radius a, interfacial tension coefficient y and are incompressible: the viscosity of the continuous phase is q. Estimates are obtained for the permeability of, and stress within, the mat