Salinity Assessment for Salted Soil Considering Both Dissolved and Precipitated Salts
Résumé
To better understand the salinity effect on the compaction behaviour of soil, standard Proctor compaction test was conducted on soil samples with different salinities. Matric suction and small-strain shear modulus,Gmax, were determined and pore size distribution was also investigated on samples staticallycompacted at different water contents. Results showed that with the decrease of soil salinity from initial value of 2.1&(g of salt/kg of dry soil) to zero, the maximum dry density increased and the optimum water content decreased, whereas there was no significant change with the increase of soil salinity from2.1&to 6.76&. Interestingly, it was observed that Gmax also decreased when the soil salinity decreased from initial value of 2.1&to zero and kept almost constant when the soil salinity increased from 2.1& to 6.76&, for dry samples with similar matric suction and also for samples compacted at optimum state and on wet side whose matric suctions were slightly different due to the difference in remoulded water content. Furthermore, the effect of salinity on compaction behaviour and Gmax decreased for samples compacted from dry side to wet side. The pore size distribution exhibited bi-modal characteristics with two populations of micro- and macro-pores not only for samples compacted on dry side and at optimum state, but also for those compacted on wet side. Further examination showed that the modal size of micro-pores shifted to lower values and that of macro-pores shifted to higher values for saline soil compared to the soil without salt.
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