Influence of Stone Powder on the Mechanical Properties of Clayey Soil

Authors

DOI:

https://doi.org/10.31026/j.eng.2022.07.05

Keywords:

recycling, clayey soil, stone powder (SP), undrained shear strength, unconfined compressive strength.

Abstract

In this experimental study, the use of stone powder as a stabilizer to the clayey soil studied. Tests of Atterberg limits, compaction, fall cone (FCT), Laboratory vane shear (LVT), and expansion index (EI) were carried out on soil-stone powder mixtures with fixed ratios of stone powder (0%, 5%, 10%, 15%, and 20%) by the dry weight. Results indicated that the undrained shear strength obtained from FCT and LVT increased at all the admixture ratios, and the expansion index reduced with the increase of the stone powder.

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References

• Abdulrasool, A. S., 2015. Strength improvement of clay soil by using stone powder, Journal of Engineering, 21(5), 72-84.

• Ahmed, A., Ugai, K., and Kamei, T., 2011. Investigation of recycled gypsum in conjunction with waste plastic trays for ground improvement, Construction and Building Materials, 25(1), 208-217.

• Ahmed, M. D., and Adkel, A. M., 2017. Stabilization of clay soil using tire ash, Journal of Engineering, 23(6), 34-51.

• Al-Joulani, N., 2012. Effect of Stone Powder and Lime on Strength Compaction and CBR Properties of Fine Soils, Jordan Journal of Civil Engineering, 6(1), 1-16.

• ASTM, Standard Society for Testing and Materials, 2000. Standard test methods for Laboratory Miniature Vane Shear test for standard fine-grained clayey soil.

• ASTM, Standard Society for Testing and Materials, 2000. Standard test method for expansion index, D4829-95, West Conshohocken, PA.

• ASTM, American Society for Testing and Materials, 2000. Standard test methods for liquid limit, plastic limit, and plasticity index of soils. D4318-00. West Conshohocken, PA.

• ASTM, American Society for Testing and Materials, 2012. Standard test methods for laboratory compaction characteristics of soil utilizing modified effort (56,000 ft-lbf/ft³ (2,700 kN-m/m3)). D1557-14. West Conshohocken, PA.

• ASTM, American Society for Testing and Materials, 2013. Standard test methods for unconfined compressive strength of cohesive soil. D2166/D2166M-13. West Conshohocken, PA.

• Bayesteh, H., Sharifi, M., and Haghshenas, A., 2020. Effect of stone powder on the rheological and mechanical performance of cement-stabilized marine clay/sand, Construction and Building Materials, 262, 120792.

• BS1377, 1990. "Methods of Testing of Soils for Civil Engineering".

• Campos, H. F., Klein, N. S., Marques Filho, J., and Bianchini, M., 2020. Low-cement high-strength concrete with partial replacement of Portland cement with stone powder and silica fume designed by particle packing optimization, Journal of Cleaner Production, 261, 121228.

• Corinaldesi, V., Moriconi, G., and Naik, T. R., 2010. Characterization of marble powder for its use in mortar and concrete, Construction and building materials, 24(1), 113-117.

• Demirel, B., 2010. The effect of using waste marble dust as fine sand on the mechanical properties of the concrete, International journal of physical sciences, 5(9), 1372-1380.

• Kumar, M., 2021. Evaluation of experimental research on black cotton soil stabilization using stone powder, Materials Today: Proceedings, 37, 3490-3493.

• Mahzuz, H. M. A., Ahmed, A. A. M., and Yusuf, M. A., 2011. Use of stone powder in concrete and mortar as an alternative of sand, African Journal of Environmental Science and Technology, 5(5), 381-388.

• Nakayenga, J., Cikmit, A. A., Tsuchida, T., and Hata, T., 2021. Influence of stone powder content and particle size on the strength of cement-treated clay, Construction and Building Materials, 305, 124710.

• Rashed, K. A., and Abdulwahab, K., 2022. Experimental Study on Using Cement Kiln Dust and Plastic Bottle Waste to Improve the Geotechnical Characteristics of Expansive Soils in Sulaimani City, Northern Iraq, Journal of Engineering, 28(4), 20-38.

• Safi, W., and Singh, S., 2022. Efficient and effective improvement and stabilization of clay soil with waste materials, Materials Today: Proceedings, 51, 947-955.

• Sakalkale, A. D., and Dhawale, G. D., 2014. Experimental study on the use of waste marble dust in concrete, International Journal of Engineering Research and Applications, 4(10), 44-50.

• Wood, D. M., 1985. Some fall-cone tests. Geotechnique, 35(1), 64-68.S.

• Yang, R., Yu, R., Shui, Z., Gao, X., Han, J., Lin, G., and He, Y., 2020. Environmental and economical friendly ultra-high performance-concrete incorporating appropriate quarry-stone powders, Journal of Cleaner Production, 260, 121112.

How to Cite

“Influence of Stone Powder on the Mechanical Properties of Clayey Soil” (2022) Journal of Engineering, 28(7), pp. 54–67. doi:10.31026/j.eng.2022.07.05.

Publication Dates

Published

2022-07-01

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