How to cite this paper
Naik, J., Bagal, D & Muduli, P. (2024). A study of the shear strength properties of expansive soil treated with fly ash admixture.Engineering Solid Mechanics, 12(1), 41-50.
Refrences
Al-Baidhani, A., & Al-Taie, A. (2019). Stabilization of expansive soils using stone waste materials: a review. IJO-International Journal of Mechanical and Civil Engineering, 2(07), 01-07.
Ambekar, M.S., & Shahane, H.A. (2021). Laboratory Investigation of Black Cotton Soil—Fly Ash—Steel Slag Mixes. In Proceedings of the Indian Geotechnical Conference 2019: IGC-2019 Volume III (pp. 717-726). Springer Singapore.
Bekkouche, S.R., & Benzerara, M., Zada, U., Muhammad, G., & Ali, Z. (2022). Use of Eco-friendly Materials in the Stabilization of Expansive Soils. Buildings, 12(10), 1770.
Chai, J., & Carter, J. P. (2011). Deformation analysis in soft ground improvement (Vol. 18). Springer Science & Business Media.
Chansoria, A., Yadav, R.K., Chansoria, A., & Yadav, R. (2016). Effect of quarry dust on engineering properties of black cotton soil. International Journal of Innovation Resource Science and Technology, 2(11), 715-718.
Deng, C., Liu, J., Nie, X., Li, Z., Liu, Y., Xiao, H., ... & Xiao, L. (2021). How trade-offs between ecological construction and urbanization expansion affect ecosystem services. Ecological Indicators, 122, 107253.
Deshpande, S.S., & Puranik, M.M. (2017). Effect of Fly Ash and Polypropylene on the Engineering Properties of Black Cotton Soil. SSRG International Journal of Civil Engineering (SSRG-IJCE), 4, 52-55.
Fondjo, A.A., Theron, E., & Ray, R.P. (2021). Stabilization of expansive soils using mechanical and chemical methods: a comprehensive review. Civil Engineering Architechture, 9, 1295-308.
Huang, Y., Chen, Y., Wang, S., Wu, M., & Wang, W. (2022). Effects of freeze–thaw cycles on volume change behavior and mechanical properties of expansive clay with different degrees of compaction. International Journal of Geomechanics, 22(5), 04022050.
Hussein, A., Ali, A., & Al-Taie, A.J. (2019). A review on stabilization of expansive soil using different methods. Journal of Geotechnical Engineering, 6(3), 32-40.
Indiramma, P., Sudharani, C., & Needhidasan, S. (2020). Utilizing fly ash and lime to stabilize the expansive soil and sustain a pollution-free environment–An experimental study. Materials Today: Proceedings, 22, 694-700.
Karthick. J., Thulasiram, R., Rajesh, S., Kumar, M.S., Thinakaranraj, M., & Vijayaram, M. (2018). A study on soil stabilization using fly ash. Nanoscience and Nanotechnology, 2(2).
Kaushal, V., & Guleria, S.P. (2015). Geotechnical investigation of black cotton soils. International Journal of Advances in Engineering Sciences, 5(2), 15-22.
Li, L., Xin, H. X., Xiaofeng, C., Xi, C., & Qian, H. (2021, August). Research on key technology of soil erosion control of transmission line project in Hilly Area. In IOP Conference Series: Earth and Environmental Science (Vol. 831, No. 1, p. 012007). IOP Publishing.
Malik, V., & Priyadarshee, A. (2018). Compaction and swelling behavior of black cotton soil mixed with different non-cementitious materials. International Journal of Geotechnical Engineering, 12(4), 413-419.
Modak, P.R., Nangare, P.B., Nagrale, S.D., Nalawade, R.D., & Chavhan, V.S. (2012). Stabilization of black cotton soil using admixtures. International Journal of Engineering and Innovative Technology, 1(5), 1-3.
More, S.K., Kumbhar, S.S., & Asha, P. (2021, July). Effect of Water Content on Shear Strength of Black Cotton Soil. In IOP Conference Series: Soil and Environmental Science (Vol. 822, No. 1, p. 012052). IOP Publishing.
Murmu, A.L., Dhole, N., & Patel, A. (2020). Stabilization of black cotton soil for subgrade application using fly ash geopolymer. Road Materials and Pavement Design, 21(3), 867-885.
Naik, C., & Chandrashekhar, A.S. (2000). Geotechnical Characteristics of Black Cotton Soil Mixed with Fly Ash: An Experimental Evaluation. IOSR Journal of Mechanical and Civil Engineering, 50-54.
Naseem, A.K.A., Damgir, R.M., & Hake, S.L. (2014). Effect of fly ash and rbi grade 81 on black cotton soil as a subgrade for flexible pavements. International Journal of Innovations in Engineering and Technology, 4(1), 124-130.
Pandian, N.S., & Krishna, K.C. (2003). The pozzolanic effect of fly ash on black cotton soil's California bearing ratio behavior. Journal of Testing and evaluation, 31.
Patidar, A., & Mahiyar, H. (2014). An experimental study on stabilization of Black Cotton Soil using HDPE wastage fibers, stone dust, and lime. International Journal of Advanced Scientific and Technical Research, 6(4), 90-98.
Pei, P., Zhao, Y., Ni, P., & Mei, G. (2020). A protective measure for expansive soil slopes based on moisture content control. Engineering Geology, 269, 105527.
Petry, T.M., & Little, D.N. (2002). Review of stabilization of clays and expansive soils in pavements and lightly loaded structures—history, practice, and future. Journal of Materials in civil engineering, 14(6), 447-460.
Rajput, S.S., & Yadav, R.K. (2015). Effect of fly ash on geotechnical characteristics of black cotton soil. International Journal for Innovative Research in Science and Technology, 2(3), 9-13.
Ramlakhan, B., Kumar, S.A., & Arora, T.R. (2013). Effect of lime and fly ash on engineering properties of black cotton soil. International Journal of Emerging Technology and Advanced Engineering, 3(11), 535-541.
Sachin, D., Mujeeb, A., & Sowmya, N.J. (2016). Effect of coconut coir fibers on black cotton soil blended with fly ash. Int. Journal of Engineering and Technical Research, 5(10), 505-08.
Seco, A., Ramírez, F., Miqueleiz, L., & García, B. (2011). Stabilization of expansive soils for use in construction. Applied Clay Science, 51(3), 348-352.
Singh, V., Jain, R., Singh, V., & Jain, R. (2015). Effect of cement kiln dust (CKD) on engineering properties of black cotton soil. International Journal for Innovative Research in Science & Technology, 1(12), 86-90.
Sivapullaiah, P.V., Prashanth, J.P., & Sridharan, A. (1996). Effect of fly ash on the index properties of black cotton soil. Soils and foundations, 36(1), 97-103.
Sridharan, A., Prashanth, J.P., & Sivapullaiah, P.V. (1997). Effect of fly ash on the unconfined compressive strength of black cotton soil. Proceedings of the Institution of Civil Engineers-Ground Improvement, 1(3), 169-175.
Thakur, Y., Sangma, B.B.D., Pyngrope, N.M., Prajapati, P., & Prajapati. S. (2020). Effect of Marble Dust On Index Properties of Black Cotton Soil. International Journal of Research in Engineering, Science, and Management, 3(7), 216-219.
Yu, X., Qian, C., & Jiang, J. (2019). Desert sand cemented by bio-magnesium ammonium phosphate cement and its microscopic properties. Construction and Building Materials, 200, 116-123.
Zhang, S., Sheng, D., Zhao, G., Niu, F., & He, Z. (2016). Analysis of frost heave mechanisms in a high-speed railway embankment. Canadian Geotechnical Journal, 53(3), 520-529.
Ambekar, M.S., & Shahane, H.A. (2021). Laboratory Investigation of Black Cotton Soil—Fly Ash—Steel Slag Mixes. In Proceedings of the Indian Geotechnical Conference 2019: IGC-2019 Volume III (pp. 717-726). Springer Singapore.
Bekkouche, S.R., & Benzerara, M., Zada, U., Muhammad, G., & Ali, Z. (2022). Use of Eco-friendly Materials in the Stabilization of Expansive Soils. Buildings, 12(10), 1770.
Chai, J., & Carter, J. P. (2011). Deformation analysis in soft ground improvement (Vol. 18). Springer Science & Business Media.
Chansoria, A., Yadav, R.K., Chansoria, A., & Yadav, R. (2016). Effect of quarry dust on engineering properties of black cotton soil. International Journal of Innovation Resource Science and Technology, 2(11), 715-718.
Deng, C., Liu, J., Nie, X., Li, Z., Liu, Y., Xiao, H., ... & Xiao, L. (2021). How trade-offs between ecological construction and urbanization expansion affect ecosystem services. Ecological Indicators, 122, 107253.
Deshpande, S.S., & Puranik, M.M. (2017). Effect of Fly Ash and Polypropylene on the Engineering Properties of Black Cotton Soil. SSRG International Journal of Civil Engineering (SSRG-IJCE), 4, 52-55.
Fondjo, A.A., Theron, E., & Ray, R.P. (2021). Stabilization of expansive soils using mechanical and chemical methods: a comprehensive review. Civil Engineering Architechture, 9, 1295-308.
Huang, Y., Chen, Y., Wang, S., Wu, M., & Wang, W. (2022). Effects of freeze–thaw cycles on volume change behavior and mechanical properties of expansive clay with different degrees of compaction. International Journal of Geomechanics, 22(5), 04022050.
Hussein, A., Ali, A., & Al-Taie, A.J. (2019). A review on stabilization of expansive soil using different methods. Journal of Geotechnical Engineering, 6(3), 32-40.
Indiramma, P., Sudharani, C., & Needhidasan, S. (2020). Utilizing fly ash and lime to stabilize the expansive soil and sustain a pollution-free environment–An experimental study. Materials Today: Proceedings, 22, 694-700.
Karthick. J., Thulasiram, R., Rajesh, S., Kumar, M.S., Thinakaranraj, M., & Vijayaram, M. (2018). A study on soil stabilization using fly ash. Nanoscience and Nanotechnology, 2(2).
Kaushal, V., & Guleria, S.P. (2015). Geotechnical investigation of black cotton soils. International Journal of Advances in Engineering Sciences, 5(2), 15-22.
Li, L., Xin, H. X., Xiaofeng, C., Xi, C., & Qian, H. (2021, August). Research on key technology of soil erosion control of transmission line project in Hilly Area. In IOP Conference Series: Earth and Environmental Science (Vol. 831, No. 1, p. 012007). IOP Publishing.
Malik, V., & Priyadarshee, A. (2018). Compaction and swelling behavior of black cotton soil mixed with different non-cementitious materials. International Journal of Geotechnical Engineering, 12(4), 413-419.
Modak, P.R., Nangare, P.B., Nagrale, S.D., Nalawade, R.D., & Chavhan, V.S. (2012). Stabilization of black cotton soil using admixtures. International Journal of Engineering and Innovative Technology, 1(5), 1-3.
More, S.K., Kumbhar, S.S., & Asha, P. (2021, July). Effect of Water Content on Shear Strength of Black Cotton Soil. In IOP Conference Series: Soil and Environmental Science (Vol. 822, No. 1, p. 012052). IOP Publishing.
Murmu, A.L., Dhole, N., & Patel, A. (2020). Stabilization of black cotton soil for subgrade application using fly ash geopolymer. Road Materials and Pavement Design, 21(3), 867-885.
Naik, C., & Chandrashekhar, A.S. (2000). Geotechnical Characteristics of Black Cotton Soil Mixed with Fly Ash: An Experimental Evaluation. IOSR Journal of Mechanical and Civil Engineering, 50-54.
Naseem, A.K.A., Damgir, R.M., & Hake, S.L. (2014). Effect of fly ash and rbi grade 81 on black cotton soil as a subgrade for flexible pavements. International Journal of Innovations in Engineering and Technology, 4(1), 124-130.
Pandian, N.S., & Krishna, K.C. (2003). The pozzolanic effect of fly ash on black cotton soil's California bearing ratio behavior. Journal of Testing and evaluation, 31.
Patidar, A., & Mahiyar, H. (2014). An experimental study on stabilization of Black Cotton Soil using HDPE wastage fibers, stone dust, and lime. International Journal of Advanced Scientific and Technical Research, 6(4), 90-98.
Pei, P., Zhao, Y., Ni, P., & Mei, G. (2020). A protective measure for expansive soil slopes based on moisture content control. Engineering Geology, 269, 105527.
Petry, T.M., & Little, D.N. (2002). Review of stabilization of clays and expansive soils in pavements and lightly loaded structures—history, practice, and future. Journal of Materials in civil engineering, 14(6), 447-460.
Rajput, S.S., & Yadav, R.K. (2015). Effect of fly ash on geotechnical characteristics of black cotton soil. International Journal for Innovative Research in Science and Technology, 2(3), 9-13.
Ramlakhan, B., Kumar, S.A., & Arora, T.R. (2013). Effect of lime and fly ash on engineering properties of black cotton soil. International Journal of Emerging Technology and Advanced Engineering, 3(11), 535-541.
Sachin, D., Mujeeb, A., & Sowmya, N.J. (2016). Effect of coconut coir fibers on black cotton soil blended with fly ash. Int. Journal of Engineering and Technical Research, 5(10), 505-08.
Seco, A., Ramírez, F., Miqueleiz, L., & García, B. (2011). Stabilization of expansive soils for use in construction. Applied Clay Science, 51(3), 348-352.
Singh, V., Jain, R., Singh, V., & Jain, R. (2015). Effect of cement kiln dust (CKD) on engineering properties of black cotton soil. International Journal for Innovative Research in Science & Technology, 1(12), 86-90.
Sivapullaiah, P.V., Prashanth, J.P., & Sridharan, A. (1996). Effect of fly ash on the index properties of black cotton soil. Soils and foundations, 36(1), 97-103.
Sridharan, A., Prashanth, J.P., & Sivapullaiah, P.V. (1997). Effect of fly ash on the unconfined compressive strength of black cotton soil. Proceedings of the Institution of Civil Engineers-Ground Improvement, 1(3), 169-175.
Thakur, Y., Sangma, B.B.D., Pyngrope, N.M., Prajapati, P., & Prajapati. S. (2020). Effect of Marble Dust On Index Properties of Black Cotton Soil. International Journal of Research in Engineering, Science, and Management, 3(7), 216-219.
Yu, X., Qian, C., & Jiang, J. (2019). Desert sand cemented by bio-magnesium ammonium phosphate cement and its microscopic properties. Construction and Building Materials, 200, 116-123.
Zhang, S., Sheng, D., Zhao, G., Niu, F., & He, Z. (2016). Analysis of frost heave mechanisms in a high-speed railway embankment. Canadian Geotechnical Journal, 53(3), 520-529.