AIP Advances (Jun 2024)

A novel coupled hydrothermal–mechanical model and numerical analysis of unsaturated bentonite considering the influence of salt ions

  • Peipei Chen,
  • Ming Jin,
  • Yueqian Wang,
  • Fengling Yin,
  • Tao Xu,
  • Ruisong Zhu

DOI
https://doi.org/10.1063/5.0202185
Journal volume & issue
Vol. 14, no. 6
pp. 065327 – 065327-13

Abstract

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The quantitative research on swelling properties of bentonite considering the influence of salt ions under the effect of hydrothermo-mechanical coupling is relatively weak. Based on a calculation model for the swelling characteristics of bentonite from a fractal perspective, this work proposes a novel coupled multifield control equation for unsaturated bentonite considering the influence of salt ions. The numericalization of the coupling control equation was completed by secondary development of a numerical analysis platform. The new theoretical model’s dependability and validity were validated by comparing it to experimental data. The evolution of the related-field quantities under the multifield coupled effect in salt-bearing environments was obtained, and the effect of salt ion concentration was analyzed. The calculation showed that the temperature of bentonite changed periodically with changing ambient temperature. Temperature gradient induces migratory movement of water from high to low temperature regions. The hollow axisymmetric soil sample gradually saturated from outside to inside with increasing water injection rate at the outer cylindrical surface. The swelling pressure of bentonite will increase with an increase in water content, whereas the presence of salt ions weakened the swelling behavior. Temperature and relative humidity were less affected by salt ion concentration.