Abstract
Bentonite is widely used as a waterproof material in civil engineering. The swelling capacity and impermeability will be reduced in saline water conditions. A polymer-modified bentonite was used in this study, and the swelling characteristic and hydraulic conductivity in saline water were investigated. Results show that: the modified bentonite (MB) has good swelling characteristics and low permeability in saline water conditions; the unload swelling strain of MB in saline water conditions increased with rising swelling time; the final unload swelling strain of MB decreased with the increase of vertical pressure and increased with increasing initial dry density; and, as the swelling time increased, the swelling pressure increased rapidly at first and then decreased. Based on experimental results, this study obtained a linear relationship between the ratio of time to unload swelling strain and swelling time, a formula for load swelling strain that was related to initial dry density and vertical pressure, a linear relationship between the ratio of time to swelling pressure and swelling time, and an exponential relationship between swelling pressure and initial dry density. The MB can be used as a waterproof material in seepage-prone applications under saline environmental conditions in civil engineering works.
Highlights
Waterproof anti-seepage structures are important in building construction operations such as: roadway, water conservancy, house building, and landfill works
The swelling strain of modified bentonite (MB) under saline water conditions was 178%, which was almost identical to the swelling strain of Natural sodium bentonite (NB) in fresh water
The results indicate that the improvement efficiency was remarkable and MB exhibited high salt tolerance
Summary
Waterproof anti-seepage structures are important in building construction operations such as: roadway, water conservancy, house building, and landfill works. Bentonite is a clay mineral with high swelling properties which results in its low permeability in aqueous solution [2]. The high swelling capacity and low permeability are a result of its main component [3]: montmorillonite. The swelling capacity is an important property of bentonite as it affects the self-healing and crack-filling ability of waterproof materials [9,10]. When bentonite is used as a waterproof material, owing to the complexity of most geological structures, seepage-prone structures may be destroyed and bentonite can swell and fill cracks to prevent water penetration of the structure. If the swelling pressure is too strong, the protective structure is extruded; the swelling capacity of bentonite is essential to its use as a waterproof material in civil engineering [11]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
