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The present investigation delved into the performance of cement stabilized soil amended with sugarcane press mud (PM), an organic waste residue from the sugar industry. An expansive soil was stabilized using 3% and 8% ordinary Portland cement (OPC) and modified with 1%, 3% and 5% PM. Cylindrical samples of dimensions 38 mm diameter and 76 mm height were cast and cured for 7, 14 and 21 days for all combinations considered. After the designated curing periods, the specimens were strained axially until failure to determine the strength of the samples. Samples were also subjected to alternate cycles of wetting and drying and the resistance to loss in weight was determined. The results of the investigation revealed that PM can be considered as a strength accelerator due to enhancement in early strength of the samples at 7 days of curing but beneficial strength gain could not be sustained over extended curing periods considered. However, 1% and 3% PM modified specimens were more resistant to weight loss when compared to pure cement stabilized specimens. Based on the results of the investigation, PM can be considered as a potential auxiliary additive to cement stabilized soil for improving the durability performance of the soil.
Czasopismo
Rocznik
Tom
Strony
138--151
Opis fizyczny
Bibliogr. 38 poz., tab., wykr.
Twórcy
autor
- Sri Sivasubramaniya Nadar College of Engineering, Chennai, India
autor
- Sri Sivasubramaniya Nadar College of Engineering, Chennai, India
- Sri Sivasubramaniya Nadar College of Engineering, Chennai, India
autor
- Sri Sivasubramaniya Nadar College of Engineering, Chennai, India
- Sri Sivasubramaniya Nadar College of Engineering, Chennai, India
autor
- Sri Sivasubramaniya Nadar College of Engineering, Chennai, India
Bibliografia
- 1. James, J and Pandian, PK 2015. Soil Stabilization as an Avenue for Reuse of Solid Wastes: A Review. Acta Tech Napocensis Civ Eng Arch 58, 50–76.
- 2. James, J and Pandian, PK 2016. Industrial Wastes as Auxiliary Additives to Cement / Lime Stabilization of Soils. Adv Civ Eng 2016, 1–17.
- 3. Sabat, A and Pati, S 2014. A Review of Literature on Stabilization of Expansive Soil Using Solid Wastes. Electron J Geotech Eng 19, 6251–6267.
- 4. Yadav, RL and Solomon, S 2006. Potential of developing sugarcane by product based industries in India. Sugar Tech 8, 104–111.
- 5. Solomon, S 2011. Sugarcane By-Products Based Industries in India. Sugar Tech 13, 408–416.
- 6. Chaudhery, PK 2011. Report of the Working Group on Cement Industry for XII Five Year Plan (2012-17), New Delhi, India.
- 7. Li, H, Xu, J, Wu, J, Xu, W and Xu, Y 2013. Influence of sugar filter mud on formation of portland cement clinker. J Wuhan Univ Technol Sci Ed 28, 746–750.
- 8. Li, H, Xu, W, Yang, X and Wu, J 2014. Preparation of Portland cement with sugar filter mud as lime-based raw material. J Clean Prod 66, 107–112.
- 9. James, J and Pandian, PK 2014. A Study on the Early UCC Strength of Stabilized Soil Admixed with Industrial Waste Materials. Int J Earth Sci Eng 07, 1055–1063.
- 10. James, J and Pandian, PK 2016. Geoenvironmental application of sugarcane press mud in lime stabilisation of an expansive soil: a preliminary report. Aust J Civ Eng 14, 114–122.
- 11. Moghadam, BK, Jamili, T, Nadian, H and Shahbazi, E 2015. The influence of sugarcane mulch on sand dune stabilization in Khuzestan, the southwest of Iran Article history. Iran Agric Res 34, 71–80.
- 12. Parthiban, D, Juluru, S, Kumar, RS, Shahad, TRB and Premachandran, UK 2019. Post Stabilization Performance of Lime Stabilized Soil Admixed with Press Mud. Int J Recent Technol Eng 8, 9198–9202.
- 13. Mansoor, AM, Visagai, P, Sumeha, PS, Swathi, K and Sowmiya, R 2017. Utilization of Sugar Mill Waste in Manufacturing of Bricks. Int J Eng Res Technol 5, 1–5.
- 14. Kumar, S and Garg, P 2019. Experimental Study on Strength Improvement of Subgrade Using Press Mud and Granite Dust. J Emerg Technolgies Innov Res 6, 449–453.
- 15. James, J 2020. Sugarcane press mud modification of expansive soil stabilized at optimum lime content: Strength, mineralogy and microstructural investigation. J Rock Mech Geotech Eng 12, 395–402.
- 16. Biffi, C and Janani, V 2018. Influence of sugarcane press mud on the strength characteristics of clayey soil. J Adv Res Dyn Control Syst 10, 1023–1029.
- 17. Saini, J, Soni, DK and Mandal, AK 2019. Enhancing load bearing capacity of alkaline soil with agricultural and industrial waste by the stabilization process. Evol Intell.
- 18. James, J and Pandian, PK 2018. Chemical, Mineral and Microstructural Characterization of Solid Wastes for use as Auxiliary Additives in Soil Stabilization. J Solid Waste Technol Manag 44, 270–280.
- 19. Saleh-e-In, MM, Yeasmin, S, Paul, BK, Ahsan, M, Rahman, MZ and Roy, SK 2012. Chemical Studies on Press Mud : A Sugar Industries Waste in Bangladesh. Sugar Tech 14, 109–118.
- 20. Tremblay, H, Duchesne, J, Locat, J and Leroueil, S 2002. Influence of the nature of organic compounds on fine soil stabilization with cement. Can Geotech J 39, 535–546.
- 21. BIS 1983. IS 2720 Methods of Test For Soils:Part 1 - Preparation of Dry Soil Sample for Various Tests, India.
- 22. BIS 1970. IS 1498 Classification and Identification of Soils for General Engineering Purposes, India.
- 23. BIS 1980. IS 2720 Methods of Test for Soils Part 3:Determination of Specific Gravity/Section 1 Fine Grained Soils, India.
- 24. BIS 1985. IS 2720 Methods of Test for Soils:Part 5 Determination of Liquid and Plastic Limit, India.
- 25. BIS 1972. IS 2720 Methods of Test for Soils:Part 6 Determination of Shrinkage Factors, India.
- 26. BIS 1980. IS 2720 Methods of Test for Soils:Part 7 Determination of Water Content-Dry Density Relation Using Light Compaction, India.
- 27. BIS 1991. IS 2720 Methods of Test for Soils:Part 10 - Determination of Unconfined Compressive Strength, India.
- 28. BIS 1977. IS 2720 Methods of Test for Soils:Part 40 Determination of Free Swell Index of Soils, India.
- 29. Gupta N, Tripathi S, Balomajumder C 2011. Characterization of pressmud : A sugar industry waste. Fuel 90, 389–394.
- 30. Feedipedia - A programme by INRA, CIRAD, AFZ and FAO, Sugarcane press mud, Last updated 2015, Accessed on 2015.
- 31. Literature Review: Stabilised Sub-Bases for Heavily Trafficked Roads, Last updated 2003, Accessed on 2003.
- 32. James, J, Pandian, PK, Deepika, K, Venkatesh, JM, Manikandan, V and Manikumaran, P 2016. Cement Stabilized Soil Blocks Admixed with Sugarcane Bagasse Ash. J Eng 2016, 1–9.
- 33. James, J 2019. Strength benefit of sawdust/wood ash amendment in cement stabilization of an expansive soil. Rev Fac Ing 28, 44–61.
- 34. Sridharan, A and Sivapullaiah, PV 2005. Mini compaction test apparatus for fine grained soils. Geotech Test J 28, 240–246.
- 35. Wild, S, Kinuthia, JM, Jones, GI and Higgins, DD 1998. Effects of partial substitution of lime with ground granulated blast furnace slag (GGBS) on the strength properties of lime-stabilised sulphate-bearing clay soils. Eng Geol 51, 37–53.
- 36. Bagheri, Y, Ahmad, F and Ismail, MAM 2014. Strength and mechanical behavior of soil–cement–lime–rice husk ash (soil–CLR) mixture. Mater Struct 47, 55–66.
- 37. James, J and Pandian, PK 2018. Bagasse Ash as an Auxiliary Additive to Lime Stabilization of an Expansive Soil: Strength and Microstructural Investigation. Adv Civ Eng 2018, 1-16.
- 38. Harichane, K, Ghrici, M and Kenai, S 2010. Effect of the combination of lime and natural pozzolana on the comdurability of clayey soils. Electron J Geotech Eng 15, 1194–1210.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d3c32aca-5d2e-4fb3-8ada-8b2b68dd89c3