Journal of Advances in Geotechnical Engineering (e-ISSN: 2584-2218)

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Soil stabilization is defined as the process of improving physical properties of soil such as shear strength, permeability, bearing capacity etc., that can be done by controlled compaction or addition of suitable admixtures including cement, lime, fly ash or providing geotextiles, geo-synthetics etc. The characteristics of the subgrade soil depend upon the performance of pavement. Due to this reason, the subgrade which is found to be weak is enhanced by suitable and efficient stabilization method. From literature it can be found that soil stabilization with natural pozzolana activated with lime enhance the properties of soil. This paper presents a review of papers on stabilization of soil using natural pozzolanic materials and the best combination of such materials to impart good pavement material.

Jha, A. K., & Sivapullaiah, P. V. (2019). Lime stabilization of soil: A physico-chemical and micro-mechanistic perspective. Indian Geotechnical Journal, 1-9.

Gurbuz, A. (2015). Marble powder to stabilise clayey soils in sub-bases for road construction. Road Materials and Pavement Design, 16(2), 481-492.

Al-Swaidani, A., Hammoud, I., & Meziab, A. (2016). Effect of adding natural pozzolana on geotechnical properties of lime-stabilized clayey soil. Journal of Rock Mechanics and Geotechnical Engineering, 8(5), 714-725.

Cocina, E., V., Valenica,E., Sergio, F., Savastan(2010). Pozzolanic Behaviour of Bamboo Leaf Ash: Characterisation and Determination of Kinematic Parameters. Cement and Concrete Composites.33 68-73.

Bahadori, H., Hasheminezhad, A., & Alizadeh, S. (2020). The influence of natural pozzolans structure on marl soil stabilization. Transportation Infrastructure Geotechnology, 7(1), 46-54.

Oyediran, I. A., & Fadamoro, O. F. (2015). Strength characteristics of genetically different rice and coconut husk ash compacted shales. International Journal of Geo-Engineering, 6(1), 1-14.

Inemim, I. J., Affiah, U. E., & Eminue, O. O. (2018). Assessment of bamboo leaf ash/lime-stabilized lateritic soils as construction materials. Innovative Infrastructure Solutions, 3(1), 1-8.

Nasiri, M., Lotfalian, M., Modarres, A., & Wu, W. (2017). Use of rice husk ash as a stabilizer to reduce soil loss and runoff rates on sub-base materials of forest roads from rainfall simulation tests. Catena, 150, 116-123.

Abbasi, N., & Mahdieh, M. (2018). Improvement of geotechnical properties of silty sand soils using natural pozzolan and lime. International Journal of Geo-Engineering, 9(1), 1-12.

Oluwatuyi, O. E., Adeola, B. O., Alhassan, E. A., Nnochiri, E. S., Modupe, A. E., Elemile, O. O., ... & Akerele, G. (2018). Ameliorating effect of milled eggshell on cement stabilized lateritic soil for highway construction. Case Studies in Construction Materials, 9, e00191.