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УЛУЧШЕНИЕ СТРОИТЕЛЬНЫХ СВОЙСТВ НАБУХАЮЩИХ ГРУНТОВ ШЛАКОМ Treatment of expansive soils with slag: A review study

Mustafa Al-saedi, Ayad Salih Sabbar

Аннотация


В обзоре освещены результаты исследований по улучшению свойств набухающих грунтов различными типами шлака, который является побочным продуктом производства чугуна и стали. Рассмотрено влияние смешивания шлака с другими добавками, такими как портландцемент и известь.


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Литература


Krohn, J.P. and J.E. Slosson. Assessment of expansive soils in the United States. in Expansive Soils. 1980. ASCE.

Sharma, A.K. and P. Sivapullaiah, Ground granulated blast furnace slag amended fly ash as an expansive soil stabilizer. Soils and Foundations, 2016. 56(2): p. 205-212.

Jones, L. and I. Jefferson, Expansive soils, ICE manual of geotechnical engineering. ICE Publishing, London, 2012: p. 413-441.

Chen, F.H., Foundations on expansive soils. 1975, Amsterdam:: Elsevier Scientific Pub. Co.

Das, B.M. and K. Sobhan, Principles of geotechnical engineering. 2014: Cengage learning.

Mishra, A.K., S. Dhawan, and S.M. Rao, Analysis of swelling and shrinkage behavior of compacted clays. Geotechnical and Geological Engineering, 2008. 26(3): p. 289-298.

Dixit, M., Damage mechanism in problematic soils. International Journal of Civil Engineering and Technololgy 2016. 7(5): p. 232-241.

Nalbantoğlu, Z., Effectiveness of class C fly ash as an expansive soil stabilizer. Construction and Building Materials, 2004. 18(6): p. 377-381.

Nalbantoglu, Z. and E. Gucbilmez, Improvement of calcareous expansive soils in semi-arid environments. Journal of arid environments, 2001. 47(4): p. 453-463.

Holtz, R.D., W.D. Kovacs, and T.C. Sheahan, An introduction to geotechnical engineering. Vol. 733. 1981: Prentice-Hall Englewood Cliffs, NJ.

Chen, A.J., J.S. Zhang, and H.B. Zou. Experimental Study on CBR Swelling Characteristics of Remolded Expansive Soil. in Advanced Materials Research. 2011. Trans Tech Publ.

Muntohar, A.S., Prediction and classification of expansive clay soils, in Expansive Soils. 2006, CRC Press. p. 37-48.

Snethen, D.R., L.D. Johnson, and D.M. Patrick, An evaluation of expedient methodology for identification of potentially expansive soils. 1977, United States. Federal HIghway Administration.

Holtz, W.G. and H.J. Gibbs, Engineering Properties of Expansive Clays. Transactions of the American Society of Civil Engineers, 1956. 121(1): p. 641-663.

Indian Standard IS:1498, Classification and identification of soils for general engineering purposes (first revision), in Bureau of Indian Standards, . 1970: New Delhi.

Petry, T.M. and D.N. Little, Review of stabilization of clays and expansive soils in pavements and lightly loaded structures—history, practice, and future. Journal of materials in civil engineering, 2002. 14(6): p. 447-460.

James, J. and P.K. Pandian, Effect of micro ceramic dust on the plasticity and swell index of lime stabilized expansive soil. International Journal of Applied Engineering Research, 2015. 10(42): p. 30647-30650.

James, J. and P.K. Pandian, Development of early strength of lime stabilized expansive soil: effect of red mud and egg shell ash. Acta Technica Corviniensis-Bulletin of Engineering, 2016. 9(1): p. 93.

Sabat, A.K. and S. Pati, A review of literature on stabilization of expansive soil using solid wastes. Electronic Journal of Geotechnical Engineering, 2014. 19(Bund U).

Yadu, L. and R. Tripathi, Effects of granulated blast furnace slag in the engineering behaviour of stabilized soft soil. Procedia Engineering, 2013. 51: p. 125-131.

Tiza, M. and V.T. Iorver, A review of literature on effect of agricultural solid wastes on stabilization of expansive soil. International journal for innovative research in multidisciplinary field, 2016. 2(7): p. 121-132.

Al-Rawas, A.A., et al., A comparative evaluation of various additives used in the stabilization of expansive soils. Geotechnical Testing Journal, 2002. 25(2): p. 199-209.

Akinwumi, I., Utilization of steel slag for stabilization of a lateritic soil. 2013: LAP Lambert Academic Publishing.

Zumrawi, M.M. and F.O. Khalill, Experimental study of steel slag used as aggregate in asphalt mixture. American Journal of Construction and Building Materials, 2017. 2(1): p. 26-32.

Yildirim, I.Z. and M. Prezzi, Chemical, mineralogical, and morphological properties of steel slag. Advances in Civil Engineering, 2011. 2011.

Veith, G., Essay competition: Green, ground and great: soil stabilization with slag. Building Research & Information, 2000. 28(1): p. 70-72.

Yi, Y., M. Liska, and A. Al-Tabbaa, Properties of two model soils stabilized with different blends and contents of GGBS, MgO, lime, and PC. Journal of Materials in Civil Engineering, 2013. 26(2): p. 267-274.

Ouf, M.E.-S.A.R., Stabilisation of clay subgrade soils using ground granulated blastfurnace slag. 2001, University of Leeds.

Matsuda, H., et al. Application of granulated blast furnace slag to the earthquake resistant earth structure as a geo-material. in Proceedings of the 14th World Conference on Earthquake Engineering. 2008.

Narendra, K. and A. Prasad, Effect of ground granulated blast furnace slag on expansive soils under static loading. VFSTR Journal of STEM 2017. 3(1): p. 61-65.

Chand, A.M., et al., Behavior of black cotton soil with addition of copper slag and steel slag. International Research Journal of Engineering and Technology (IRJET), 2017. 4(1).

More, S., et al., Stabilization of Black Cotton Soil by Using Steel Slag. International Journal of Innovative Research in Science, Engineering and Technology, 2018. 7(5).

Patil, B.M., Effect of Steel Slag on CBR Value of Black Cotton Soil. International Research Journal of Engineering and Technology (IRJET), 2018. 5(5).

Shalabi, F.I., I.M. Asi, and H.Y. Qasrawi, Effect of by-product steel slag on the engineering properties of clay soils. Journal of King Saud University-Engineering Sciences, 2017. 29(4): p. 394-399.

Chandra, J.V. and P.M. Lavanya, Effect of Granulated Blast Furnace Slag in the Stabilization of Expansive Soil for the Pavement Sub-Grades. International Research Journal of Engineering and Technology, 2017. 4(5): p. 1735-1739.

Oormila, T. and T. Preethi, Effect of stabilization using flyash and GGBS in soil characteristics. International Journal of Engineering Trends and Technology, 2014. 11(6): p. 284-289.

Thombre, T.P. and S.S. Koranne, Stabilization of Black Cotton Soil by Using Steel Slag Powder. 2018.

Rawat, A. and R. Jain, Effect of blast furnace slag on index properties of black cotton soil. International Research Journal of Engineering and Technology (IRJET), 2017. 4(1).

Darwish, G. and A.P. Tangri, Effects of Ground Granulated Blast Furnace Slag and Lime on the Strength and Durability of Clayey Soil. International Journal of Engineering and Advanced Technology, 2019. 8(5): p. 920-926.


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