International Journal of Application or Innovation in Engineering & Management (IJAI (IJAIE AIEM) Web Site: www.ijaiem.org Email: editor@ijaiem.org, editorijaiem@gmail.com ISSN 2319 - 4847 Special Issue for National Conference On Recent Advances in Technology and Management for Integrated Growth 2013 (RATMIG 2013) Stabilization of black cotton soil by Fly Ash Ashish Mehta1, Kanak Parate2 and B. S. Ruprai3 Ashish Mehta1 1 Assistant professor, GNIEM,Nagpur. Ashishmehta_ngp@yahoo.com Kanak Parate2 Assistant professor, GNIEM,Nagpur. kanakparate@gmail.com B.S.Ruprai3 Assistant professor, GNIEM,Nagpur. balbirr@rediffmail.com ABSTRACT In India about 51.8 million hectares of the land area are covered with Expansive soils (black cotton soil). The Black cotton soils are very hard when dry, but lose its strength completely when in wet condition. Expansive soils are a worldwide problem that poses several challenges for civil Engineers. Various methods are adapted to improve the engineering characteristics of expansive soils. The problematic soils are either removed and replaced by good and better quality material or treated using additive. The present paper deals with the properties of expansive soils of Maharashtra, India at various locations. In this study, black cotton was stabilized using fly ash (obtained from koradi thermal power plant). Expansive soils were stabilized with various proportion of fly ash i.e. at 0,10,20 30, 40 & 50% . Fly ash posses no plasticity. Plasticity index of clay fly ash mixes decreases with increase in fly ash content. Thus addition of fly ash makes expansive soil less plastic and increases its workability by colloidal reaction and changing its grain size. The CBR values of clay with fly ash mixes, tested under unsoaked & soaked conditions & there results were observed, with analysis of results it is found that the fly ash has a good potential to be used as an additive for improving the engineering properties of expansive soils. Keywords: Expansive soil, fly ash, compaction characteristics, CBR value. 1. INTRODUCTION In India about 51.8 million hectares of the land area are covered with Expansive soils (black cotton soil). . The Black cotton soils are very hard when dry, but lose its strength completely when in wet condition. Expansive soils are a worldwide problem that poses several challenges for civil Engineers.various methods are adapted to improve the engineering characteristics of expansive soils. The problematic soils are either removed and replaced by good and better quality material or treated using additive. The stabilization of the problematic soils is very important for many of the geotechnical engineering applications such as pavement structures, roadways, building foundations, channel and reservoir linings, irrigation systems, water lines, and sewer lines to avoid damage due to settle of soft soil or to the swelling action of expansive soil. Generally, the stabilization concept can be dated 5000 years ago. Treated earth roads were used in ancient Mesopotamia and Egypt, and that the Greek and Roman used soil-lime mixtures [1]. The first experiments on soil stabilization were achieved in the USA with sand/clay mixtures around 1906. In the 20th century, especially in the thirties, the soil stabilization relevant to road construction was applied in Europe [2] The pavement soil qualities will be improved by thoroughly mixing International Journal of Application or Innovation in Engineering & Management (IJAI (IJAIE AIEM) Web Site: www.ijaiem.org Email: editor@ijaiem.org, editorijaiem@gmail.com ISSN 2319 - 4847 Special Issue for National Conference On Recent Advances in Technology and Management for Integrated Growth 2013 (RATMIG 2013) and compacting with additives include Portland cement, fly ash, bitumen, and combinations of any of the additives [4]. The type of the additive and the amount required are dependent upon the soil classification and the degree of improvement desired [5]. Numerous investigators,([6], [7], [8], [9] & [10], have studied the influence of lime, cement, lime-cement, lime-flyash, lime –ricehusk- ash and cement – fly ash mixes on soil properties, mostly focusing on the strength aspects to study their suitability for road bases and subbasess. As lime and cement are binding materials, the strength of soil-additive mixtures increases provided the soil is reactive with them. However, for large-scale field use, the problems of soil pulverization and mixing of additives with soil have been reported by several investigators ([6],[7],[8],[9],[10]). 2. MATERIALS AND METHODS Black cotton soils are inorganic clays of medium to high compressibility and form a major soil group in India. They are characterized by high shrinkage and swelling properties. This Black cotton soils occurs mostly in the central and western parts and covers approximately 20% of the total area of India. Because of its high swelling and shrinkage characteristics, the Black cotton soil (BC soils) has been a challenge to the highway engineers. 2.1 BLACK COTTON SOIL Geotechnical properties of black cotton soil are given in Table 1 Table 1: Properties of expansive soil Colour Specific Gravity Liquid limit (%) Plastic limit (%) Shrinkage limit (%) OMC (%) MDD (g/cc) Black 2.65 40- 60 15 - 25 8 - 15 20-30 1.4-1.6 Free swell index (%) 50 to 60 Swelling pressure (kg/cm2) 4-6 2.2 FLY ASH Fly ash additive in soil, fly ash is use due to • Fly ash is costless and abundantly available all over the country. • As fly ash is a by-product of thermal power plants, land area required for its disposition is a great problem in a densely populated country like India. • Utilization of fly ash solves the problem of air and water pollution. Table 2: Properties of fly ash Colour Specific Gravity Plasticity OMC (%) at MDD (g/cc) Cohesion (kN/m2) Angle of internal friction Compression index Cc Permeability (cm/sec) Coefficient of uniformity Grey 1.90 – 2.55 Non plastic 38.0 – 18.0 0.9 – 1.6 Negligible 300 – 400 0.05 – 0.4 8 x 10-6 – 7 x 10-4 3.1 – 10.7 International Journal of Application or Innovation in Engineering & Management (IJAI (IJAIE AIEM) Web Site: www.ijaiem.org Email: editor@ijaiem.org, editorijaiem@gmail.com ISSN 2319 - 4847 Special Issue for National Conference On Recent Advances in Technology and Management for Integrated Growth 2013 (RATMIG 2013) 3. TEST PROGRAMME Several tests has been conducted to observed geotechnical properties of black soil like i) Specific Gravity ii) Atterberg limit tests In case of flexible pavement construction bottom most layer is soil subgrade. It is desire that soil subgrade should carry loads without large deformations which finally results in failure of pavements. For economic design, locally available soil should use as soil subgrade. It is tedious job for civil engineer to provided flexible pavement on black soil due to swelling shrinkage nature of soil. As for soil Subgrade normally locally available soil are used, soil improvement will be required. Now a days various techniques are available to stabilized soil. So, as part of soil stabilization fly ash is used in varying percent as 10,20,30,40 & 50%, and effect of fly ash on water content density relationship & CBR value will be observed. 4. OBSERVATION & RESULTS 4.1 EFFECT OF COMPACTION Effect of fly ash on geotechnical properties of soil are Particular Table 3: Properties of soil-fly ash mix CBR ( soaked) OMC (%) MDD(N/m3) (%) CBR (unsoaked)(%) B. c soil 20.4 14.7 3.1 6.89 B. c soil+10% fly ash 29.17 14.20 2.52 12.78 B. c soil+20% fly ash 22.19 14.97 2.0 22.90 B. c soil+30% fly ash 26.19 14.4 1.89 6.98 B. c soil+40% fly ash 27.1 13.9 2.49 7.68 B. c soil+50% fly ash 24.16 13.6 2.35 7.61 Water content density relation 90.00 80.00 70.00 60.00 Dry Density50.00 (KN/m3) 40.00 30.00 20.00 10.00 0.00 b.c soil +50% fly ash b.c soil + 40% fly ash b.c + 30% fly ash 15.5 16.9 22.8 28.4 36.8 moistur content (w%) Figure 1: Water content density relationship for soil fly ash mix International Journal of Application or Innovation in Engineering & Management (IJAI (IJAIE AIEM) Web Site: www.ijaiem.org Email: editor@ijaiem.org, editorijaiem@gmail.com ISSN 2319 - 4847 Special Issue for National Conference On Recent Advances in Technology and Management for Integrated Growth 2013 (RATMIG 2013) Effect of fly ash % on CBR Value 30 25 20 CBR (%) 15 unsoaked CBR test 10 soaked cbr test 5 0 0 10 20 30 40 50 Fly ash (%) Figure 2: Relationship between CBR value & soil fly ash mix With following results it is observed that, the unsoaked CBR value is higher with 20% Fly ash compared to other mixes. Comparatively the dry density with 20% fly ash is higher than the other percentages of fly ash. So it may be reported that fly ash has good potential for use in geotechnical applications. The relatively low unit weight of fly ash makes it well suited for placement over soft or low bearing strength soils. Its low specific gravity, freely draining nature, ease of compaction, insensitiveness to changes in moisture content, good frictional properties, etc. can be gainfully exploited in the construction of embankments, roads, reclamation of low-lying areas, fill behind retaining structures, etc. REFERENCE [1] O. C. McDowell, “Stabilization with lime, lime-fly ash, and other lime reactive materials”, High Ress Board, Vol 231, pp. 60-61, 1959. [2] A. Kezdi, “Stabilized Earth Roads”. Amsterdam: Elsevier Scientific Publishing Company, 1979. [3] T. S. Nagaraj, and N. Miura. “Soil Clay Behaviour, Analysis and Assessment”, Brook Field, Rotterdam: AA. Belkema, 2001. [4] “Chemical and Mechanical Stabilization of Subgrades and Flexible Pavement Sections”, July 1998. TTN Tensar Technical Note BR 10, 1998 [5] U. S. Army, U. S. Navy, and U. S. AirForce, “Soil Stabilization for Pavements”, In University Press of the Pacific. Honolulu, Hawaii, 2005. [6] Mc Dowell, C. (1959). “Stabilization of Soils with Lime, Lime-fly ash and other Lime reactive minerals”, HRB, Bulletin No. 231. [7] Ramana Murthy, V. (1998). “Study on swell pressure and method of controlling swell of expansive soil”, Ph.D. Thesis, Kakatiya university, REC, Warangal. [8] Ramana Sastry,M.V.B. (1989). “Strengthening Subgrades of Roads in Deltaic Areas of Andhra Pradesh”, Proc of IGC-89, Visakhapatnam, India Vol.1, pp 181-184. International Journal of Application or Innovation in Engineering & Management (IJAI (IJAIE AIEM) Web Site: www.ijaiem.org Email: editor@ijaiem.org, editorijaiem@gmail.com ISSN 2319 - 4847 Special Issue for National Conference On Recent Advances in Technology and Management for Integrated Growth 2013 (RATMIG 2013) [9] M. Jayakumar and Lau Chee Sing, “Experimental Studies on Treated Sub-base Soil with Fly Ash and Cement for Sustainable Design Recommendations”, International Journal of Engineering and Applied Sciences 6 2012. [10] VenkaraMuthyalu, K. Ramu and G.V.R. Prasada Raju , “Study On Performance of Chemically Stabilized Expansive Soil” International Journal of Advances in Engineering & Technology, Jan 2012. AUTHORS Er. Ashish A. Mehta has obtained M. Tech in Geotechnical Engineering from Nagpur University in 2009. At present he is working as Assistant Professor in Civil Engineering Department in Guru Nanak Institute of Engineering and Management Nagpur. His areas of interest are soil liquefaction, deep foundation and soil structure interaction. Er. Kanak N. Parate is M.Tech in Structural Engineering. He is working as Assistant Professor in Civil Engineering Department in Guru Nanak Institute of Engineering and Management Nagpur. His areas of interest are soil structure interaction and earthquake engineering.