Experimental study of the fine particles effect on the shear strength of tuff zeolites

Areas vulnerable to catastrophic disasters such as hurricane, landslide and earthquake require ready and sustainable solutions for the post-pollution scenarios. Clinoptilolite type zeolite resources of Türkiye can serve economical and sustainable solutions as a quick response. While the studies on application of zeolite-bentonite mixtures in the landfill liners or zeolite with sand in permeable reactive barrier (PRB)s are common, the slurry form of fine-grained zeolite in subsurface reactive barriers is not received an attention by the researchers. In this context, this laboratorial study presents the preliminary findings on one-dimensional consolidation and hydraulic conductivity tests on crushed zeolite samples S1 and S2 having 33 and 84% fine particle size fraction, respectively. S2 shows the higher compression index than S1, without a significant change in swelling index attributed to less than 4% clay contents. A self-designed rigid wall type permeameter was used to study on reconstituted slurry like materials under the benefit of back pressure saturation without the consolidation during testing that encountered in flexible wall permeameter. Falling head – rising tail water procedure was adopted under the back pressure in between 200 and 700 kPa. S2 samples reconstituted under 25, 50, 100 and 200 kPa show a gradual decrease in kv from 3×10-8 to 2×10-9 m/s. Previous observations on the sample of S1 revealed 8 times higher kv values under the same sv'. Since the fine content of zeolite limits kv, the proposed permeameter will be beneficial to determine the proper grain size distribution of fill materials considering the barrier height and in-situ stress conditions before the environmental studies with leachate.

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Experimental study of the fine particles effect on the shear strength of tuff zeolites

Cited by 3 publications

References 20 publications

Assessing the zeolite’s effectiveness on the mechanical performance of cement-stabilised sand through triaxial test and microstructure analysis

Assessing the zeolite’s effectiveness on the mechanical performance of cement-stabilised sand through triaxial test and microstructure analysis

Discussion: Geotechnical properties of a natural zeolite

Assessment of a new rigid wall permeameter for the slurry like barrier materials: zeolite example

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