The effect of Variations in Pore Fluid Properties on the Physical and Micro-structural Characteristics of Bentonite

Abstract

Considering the importance of micro-structural characteristics of clayey soils on their behavior, the main objective of this research is to investigate the effect of pore fluid properties variations on clayey soils and their physical and micro-structural changes. For experimental purposes, soil-electrolyte solutions with the ratio of 1:50 prepared. A series of physical experiments, as well as, SEM and XRD experiments performed to investigate any variation on the soil behavior due to the changes in pore fluid properties. The results of the physical experiments indicate that, with increasing the electrolyte concentration, one will be faced with a change on the soil behavior including its interaction with water. The SEM pictures indicate that with the presence of sodium ions at low concentration, first soil takes a dispersive structure.  With a further increase in salt concentration, and due to an increase in attractive forces in comparison with repulsive forces within clay particles, a flocculated structure forms. In addition to the above, during this process, a change will happen on the intensity and basal spacing of clay mineral. It is concluded that the main reason for a noticeable change in physical behavior of soil can be attributed mainly to the significant change in electrostatic forces of clay particles.

Keywords

References

[1] Mitchell J.K., “Fundamentals of soil behaviour”, John Wiley & Sons (1993) pp. 422.

[2] Sivapullaiah P.V., “Pollution Effects on Soil Geotechnical Properties”, Proceeding of the First International Conference on Geotechnical, Geoenvironmental Engineering and Management in Arid Lands, Al-Ain, United Arab Emirates (2000) pp. 99-106.

[3] Soule N.M., Burns S.E., “Effects of organic cation structure on behaviour of organobentonites”, Journal of Geotechnical and Geoenvironmental Engineering Vol. ??? (2001) pp. 363-369.

[4] Sridharan A., Rao G.V., “Mechanism controlling volume change of saturated clays”, Geotechnique 23(3) (1973) pp. 359-382.

[5] Bolt G.H., “Physico-chemical analysis of the compressibility of pure clays”, Geotechnique 6(2) (1956) pp. 86-93.

[6] Chen J., Anandarajah A., Inyang H., “Pore fluid properties and compressibility of kaolinite”, J. Geotech. & Geoenviro. Engng. Div., ASCE, No. 9 (2000) pp. 798-807.

[7] Olson R.E., Mesri G., “Mechanism controlling compressibility of clays”, J. Soil Mech. & Found. Engng. Div., ASCE 6(11) (1970) pp. 1863-1878.

[8] Di Maio C., “Exposure of bentonite to salt solution, osmotic and mechanical effects”, Geotechnique 46(4) (1996) pp. 695-707.

[9] Nikudel M.R., “An investigation of thixotropy and cementation effects on mechanical behaviour of hypersaline water fine grain sediments, Case study of Urumia lake”, PhD Thesis, Tarbiat Modarres University (2001) p. 501.

[10] Yong R.N., “Overview of modeling of clay microstructure and interactions for prediction of waste isolation barrier performance”, Eng. Geology, 54 (1999) pp. 83-91.

[11] Güler C., Balci E., “Effect of some salts on the viscosity of slip casting”, Applied Clay Science 13 (1999) pp. 213-218.

[12] Ouhadi V.R., Goodarzi A.R., “Pore fluid characteristics effect on the dispersivity behaviour of soil from macro and micro structure aspects”, Proceedings of the 2nd International Symposium on Contaminated Sediments, ASTM: “Characterization, Evaluation, Mitigation/Restoration, Monitoring and Performance”, May 26-28, 2003, Quebec, Canada (2003) pp. 562-570.

[13] Barone F., “Description of diffusion and adsorption coefficient used for modeling contaminant migration through clayey soils”, Geotech. News, 11 (1993) pp. 47-50.

[14] Koch D., “Bentonite as a basic materials for technical base liners and site encapsulation cut-off walls”, Applied Clay Sci. 21 (2002) pp. 1-11.

[15] Yong R.N., Mohamed A.M.O., Warkentin B.P., “Principles of contaminant transport in soils”, Elsevier (1992) p. 327.

[16] Annual Book of ASTM Standards, Philadelphia Vol. 4 (1992) 08.

[17] Barden L., Sides G., “Sample disturbance in the invenstigation of clay structure”, Geotechnique 21 (1971) pp. 211-222.

[18] Moore D.M., Reynolds R.C., “X-ray Diffraction and Identification and Analysis of Clay Minerals”, Oxford University Press, New York (1989).

[19] Yong R.N., “Geoenvironmental engineering: Contaminant soils, pollutant fate and mitigation”, CRC Press LLC. (2001) pp. 307.

[20] Yong R.N., “The impact of clay micro structural features on the natural attenuation of contaminants”, Workshop on clay microstructure, Sweden (2002) pp. 234-244.

[21] Yong R.N., “Influence of microstructural features on water, ion diffusion and transport in clay soils”, Proc., Clay Microstructure and its Importance to Clay Behavior, Lund, Sweden (2002) pp. 1-14.

Files

History

  • Receive Date: 02 July 2025
  • Revise Date: 04 February 2026
  • Accept Date: 02 July 2025

Share

How to cite

Statistics