In the paper an experimental multi-scale investigation on the influence of pore water chemistry on the shortterm behaviour of lime treated soil is presented. Sedimentation tests on kaolin suspensions under different chemical environment have been performed and interpreted, taking into account the effects of clay particles interactions on the soil skeleton formation. The experimental evidences at volume scale of the samples have been directly related to the results ofmicro-scale investigations.Modification of surface charge and its influence on soil fabric has been investigated bymeans of zeta-potential measurements, Dynamic Light Scattering (DLS) and Scanning ElectronMicroscopy (SEM). The effects of limecontent, cation valence and source of calciumions on the surface charge of kaolin particles have been considered. The addition of lime increased the average size of particles aggregates in the short term. The fabric evolution affected the formation of the soil skeleton during sedimentation, influencing its void ratio and compressibility, highlighting the link between microstructural features and mechanical behaviour of lime treated samples.
Short-term effects on physical properties of lime treated kaolin
VITALE, Enza;RUSSO, Giacomo;
2016-01-01
Abstract
In the paper an experimental multi-scale investigation on the influence of pore water chemistry on the shortterm behaviour of lime treated soil is presented. Sedimentation tests on kaolin suspensions under different chemical environment have been performed and interpreted, taking into account the effects of clay particles interactions on the soil skeleton formation. The experimental evidences at volume scale of the samples have been directly related to the results ofmicro-scale investigations.Modification of surface charge and its influence on soil fabric has been investigated bymeans of zeta-potential measurements, Dynamic Light Scattering (DLS) and Scanning ElectronMicroscopy (SEM). The effects of limecontent, cation valence and source of calciumions on the surface charge of kaolin particles have been considered. The addition of lime increased the average size of particles aggregates in the short term. The fabric evolution affected the formation of the soil skeleton during sedimentation, influencing its void ratio and compressibility, highlighting the link between microstructural features and mechanical behaviour of lime treated samples.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.