Influence of Different Materials to Improve the Stabilization of Black Cotton Soil

IJIRST International Journal for Innovative Research in Science & Technology Volume 4 Issue 3 August 2017 ISSN (online): 2349-6010 Influence of Different Materials to Improve the Stabilization of Black Cotton Soil Maheswari.S Assistant Professor Department of Civil Engineering Vi Institute of Technology, Sirukundram-603108, India Iyappan.A.P Assistant Professor Department of Civil Engineering Vi Institute of Technology, Sirukundram-603108, India Srikanthan.L Assistant Professor Department of Civil Engineering Vi Institute of Technology, Sirukundram-603108, India Pearlin.C.P Student Department of Civil Engineering Vi Institute of Technology, Sirukundram-603108, India Pavithra.C Student Department of Civil Engineering Vi Institute of Technology, Sirukundram-603108, India Abstract The black cotton soil is known as expansive type of soil which expands suddenly and starts swelling when it comes in contact with moisture. Due to this property, the strength and other properties of Black cotton soil is very poor. To improve its properties, it is necessary to stabilize the Black cotton soil by using different stabilizers. Expansive type of soil shows unpredictable behaviour with different kind of stabilizers. Soil stabilization is a process to treat a soil to maintain, alter or improve the performance of soil. In this project, the potential of burnt brick dust, crushed powdered glass, cement dust, are added as stabilizing additives in varying percentages (0%, 10% and 15%). The evaluation involves the determination of Particle size distribution (Determination of grain size by sieve analysis), the atterberg s limits determination (Liquid Limit, plastic Limit and Plasticity Index), specific gravity & Proctor compaction test (Determination of Optimum moisture content and Maximum dry density) of black cotton soil in its natural state (0% addition of stabilizing additives) as well as when mixed with varying proportion of additives such as burnt brick dust, crushed powdered glass, cement dust, (10% and 15%). The experimental result shows that for various additions of stabilizing additives (10% and 15%) with black cotton soil the Maximum dry density (MDD) of black cotton soil is improving and optimum moisture (OMC) content of black cotton soil is decreasing when compared black cotton soil in its natural state (0% addition of stabilizing additives). The atterberg s limit values are also decreasing for various additions of stabilizing agents (10% and 20%) with black cotton soil when compared black cotton soil in its natural state. Keywords: Black Cotton Soil, Soil Stabilization Techniques, Additives for Stabilization I. INTRODUCTION Black cotton soil is often unsuitable for construction due to their poor engineering properties. Black Cotton soil approximately covers about 30% of the land area in India. These soils are predominant in states of Andhra Pradesh, Western Madhya Pradesh, Gujarat, Maharashtra, Northern Karnataka, Tamil Nadu and some parts of Southern Uttar Pradesh. Black cotton soil is also called regur soil, because its enrichment in soil nutrients. They are very fertile and black in color. Black cotton soils are expansive (soil that is prone to large volume changes swelling and shrinking) in nature. Expansive soil is commonly known as Black Cotton Soil because of the color and their stability for growing cotton. In black cotton soil deep crack is formed in dry seasons and swells in wet season. When water comes into contact with expansive soil (Absorption of water by black cotton soil), its volume increases and when water is evaporated from expansive soil, its volume decrease and soil shrinks. This shrinkage can remove support from buildings or other structures and result in damaging subsidence. This produces a cycle of shrinkage and swelling that places repetitive stress on structures. Hence, black cotton soil retains moisture and become stick when wet. This property of retaining moisture and releasing it when required during dry periods is very useful for the crops. Soil Stabilization or Soil Improvement is a technique to improve soil properties. Soil Improvement is done by different techniques like mechanical method and additive method. Depending upon the site conditions and other factors influencing, the type of technique is generally chosen. Basically, Mechanical method is very costly. Materials used for stabilization are recycled or waste materials from various industries. To overcome these drawbacks associated with black cotton soil, soil improvement also known as soil stabilization is done for black cotton soil by mixing black cotton soil with different additives (Non-hazardous industrial waste). All rights reserved by www.ijirst.org 128

II. GENERAL PROPERTIES Following tables shows the general properties of all materials used in this project. Table 1 Physical Properties of black cotton soil S.NO PROPERTY VALUE IS CODE REFERRED 1 Specific Gravity, G 2.60 to 2.75 IS 2720 (part III) 1964 2 Grain size (<75μ) 70 to 100% IS 2720 (part IV) 1985 3 2μFraction 20 to 60 % IS 2720 (part IV) 1985 4 Atterberg s limit - Liquid limit 50-120 % IS 2720 (Part V) 1985 5 Atterberg s limit - Plastic limit 20-60 % IS 2720 (Part V) 1985 6 Maximum Dry Density (γd) - MDD 1300 to 1800 kg/m 3 IS 2720 (part VIII)1980 7 Optimum moisture content (OMC) 20-35% IS: 2720(Part VIII)1983 8 Free swell Index 40 to 180 % IS 2720 (part XV) 1977 9 Swelling Pressure 50 to 800kN/m 2 IS 2720 (part XV) 1977 10 C.B.R Test 1.2 to 4.0 % IS 2720 (part XVI) Table 2 Chemical properties of black cotton soil S.NO PROPERTY RANGE 1 ph value >7 (Alkaline) 2 Organic content 0.4 to 2.4% 3 Caco3 5 to 15% 4 Sio2 50 to 55% 5 Sio2, Al2O3 3 to 5% 6 Montmorillinite Mineral 30 to 50% Table 3 Properties of crushed powdered glass S.NO PROPERTY RANGE 1 Compression resistance 800-1000 MPa 2 Density 2500kg/m 3 3 Modulus of elasticity 70000Mpa 4 Hardness 5.5 Mohrs Hardness 5 Bending strength 45Mpa 6 Density 2.52 Table 4 Properties of cement dust - As per test conducted at NSIC Certificate S..No. 15837 24/8/12, Rajkot [12] S.NO PROPERTY OF CEMENT DUST % By weight 1 Silicon Dioxide, SiO2 18.5 2 Aluminum Oxide, Al2O3 13.5 3 Iron Oxide, Fe2O3 0.62 4 Calcium Oxide, CaO 14.02 5 Magnesium Oxide, MgO 0.84 6 Percentage Finer (%) 94.33 7 Specific gravity 2.86 Table 5 Properties of Lime powder S.NO PROPERTY OF LIME POWDER % By weight 1 Silicon Dioxide, SiO2 4 2 Aluminum Oxide, Al2O3 1.21 3 Iron Oxide, Fe2O3 1.82 4 Calcium Oxide, CaO 40.24 5 Magnesium Oxide, MgO 0.16 Materials Used: Black Cotton Soil Burnt Brick Dust III. EXPERIMENTAL STUDY All rights reserved by www.ijirst.org 129

Crushed Powdered Glass Cement Dust Lime Powder Fig. 1: Black cotton soil Fig. 2: Burnt brick dust Fig. 3: crushed glass Fig. 4: Cement dust Fig. 5: Lime powder 1) First, various soil test (Determination of grain size by sieve analysis), the atterberg s limits determination (Liquid Limit, plastic Limit and Plasticity Index), specific gravity & Proctor compaction test (Determination of Optimum moisture content and maximum dry density) is carried out experimentally only for black cotton soil alone. 2) Then the same test is conducted for black cotton soil by adding various percentages of additives such as burnt brick dust, crushed powdered glass, cement dust and (10% and 15%) Testing of Black Cotton Soil: Various tests were conducted on the collected black cotton soil. The testing of Black cotton soil was done according to IS specifications. The amount of black cotton soil taken for testing black cotton soil is mentioned in table 6 and the test value of Black cotton soil is shown in the table 7. Table 6 Details of black cotton soil taken for test S.NO Name of the test Amount of black cotton soil sample taken 1 Specific gravity 200 grams 2 Liquid Limit 120 grams 3 Plastic Limit 20 grams 4 Standard Proctor Compaction test 2 kg Table 7 Experimental Test value of black cotton soil S.NO Name of the test Value of the test 1 Grain size (<75 μ) 90% 2 Specific gravity 2.7 3 Standard proctor compaction test a) Optimum Moisture Content (OMC) b) Maximum Dry Density (MDD) 25% All rights reserved by www.ijirst.org 130

Fineness test value for various additives: Fineness % for Lime powder 10% Fineness % for burnt brick dust 8% Fineness % for crushed glass powder 5% Fineness % for cement dust - 10% 4 Atterberg s Limit a) Determination of Liquid limit b) Determination of plastic limit c) Flow index (IF) d) Plasticity index (IP) e) Toughness index (IT) Testing of Black cotton soil by adding 10% of various additives: Influence of Different Materials to Improve the Stabilization of Black Cotton Soil 1.687g/cm 3 58% 25% 3.32% 33% 9.9% The same test procedure as shown in table 7 is conducted for black cotton soil by adding 10% percentages of burnt brick dust, crushed powdered glass, cement dust and. Table 8 shows the amount of 10% additives materials added to black cotton soil for improving stabilization of black cotton soil. Table 8 Details of 10% additives added to black cotton soil S.NO Materials Used Name of the test 1 2 3 4 Specific gravity % Used 10% Liquid Limit 10% Plastic limit 10% Standard proctor compaction test 10% Weight of additives materials added to black cotton soil (10/100) 200grams = 20 grams (10/100) 120grams = 12 grams (10/100) 20grams = 2.0 grams (10/100) 2kg = 200 grams The following tables shows the experimental test result for various additives with 10% proportions Table 9 Liquid Limit Values for 10% additives S.NO VARIOUS ADDITIVES LIQUID LIMIT VALUE FOR 10% 1 Black cotton soil + 10% burnt brick dust 34% 2 Black cotton soil + 10% cement dust 34% 3 Black cotton soil + 10% 32% 4 Black cotton soil + 10% crushed powdered glass 29% Table 10 Plastic Limit Values for 10% additives S.NO VARIOUS ADDITIVES PLASTIC LIMIT VALUE FOR 10% 1 Black cotton soil + 10% burnt brick dust 13% 2 Black cotton soil + 10% cement dust 19% 3 Black cotton soil + 10% 26% 4 Black cotton soil + 10% crushed powdered glass 15% Table 11 Plasticity Index Values for 10% additives S.NO VARIOUS ADDITIVES PLASTICITY INDEX VALUE FOR 10% 1 Black cotton soil + 10% burnt brick dust 21% 2 Black cotton soil + 10% cement dust 15% 3 Black cotton soil + 10% 6% 4 Black cotton soil + 10% crushed powdered glass 14% Table 12 Optimum Moisture content Values for 10% additives S.NO VARIOUS ADDITIVES OPTIMUM MOISTURE CONTENT FOR 10% 1 Black cotton soil + 10% burnt brick dust 9% 2 Black cotton soil + 10% cement dust 18% 3 Black cotton soil + 10% 28% All rights reserved by www.ijirst.org 131

4 Black cotton soil + 10% crushed powdered glass 25% Table 13 Maximum Dry Density Values for 10% additives S.NO VARIOUS ADDITIVES MAXIMUM DRY DENSITY VALUE FOR 10% 1 Black cotton soil + 10% burnt brick dust 2.31 g/cm 3 2 Black cotton soil + 10% cement dust 2.80 g/cm 3 3 Black cotton soil + 10% 1.636 g/cm 3 4 Black cotton soil + 10% crushed powdered glass 1.687 g/cm 3 Table 14 Flow Index (IF) Values for 10% additives S.NO VARIOUS ADDITIVES FLOW INDEX VALUE FOR 10% 1 Black cotton soil + 10% burnt brick dust 3.32% 2 Black cotton soil + 10% cement dust 1.43% 3 Black cotton soil + 10% 1.43% 4 Black cotton soil + 10% crushed powdered glass 6% Table 15 Toughness Index (IF) Values for 10% additives S.NO VARIOUS ADDITIVES TOUGHNESS INDEX VALUE FOR 10% 1 Black cotton soil + 10% burnt brick dust 6.33% 2 Black cotton soil + 10% cement dust 10.49% 3 Black cotton soil + 10% 4.20% 4 Black cotton soil + 10% crushed powdered glass 2% Testing of Black cotton soil by adding 15% of various additives: The same test procedure as shown in table 6 is conducted for black cotton soil by adding 15% percentages of burnt brick dust, crushed powdered glass, cement dust and. Table 16 shows the amount of 15% additives materials added to black cotton soil for improving stabilization of black cotton soil. Table 16 Details of 15% additives added to black cotton soil S.NO Materials Used Name of the test 1 2 3 4 Specific gravity % Used 15% Liquid Limit 15% Plastic limit 15% Standard proctor compaction test 15% Weight of additives materials added to black cotton soil (15/100) 200grams = 30 grams (15/100) 120grams = 18 grams (15/100) 20grams = 3.0 grams (15/100) 2kg = 300 grams The following tables shows the experimental test result for various additives with 15% Proportions Table 17 Liquid Limit Values for 15% additives S.NO VARIOUS ADDITIVES LIQUID LIMIT VALUE FOR 15% 1 Black cotton soil + 15% burnt brick dust 36% 2 Black cotton soil + 15% cement dust 29% 3 Black cotton soil + 15% 30% 4 Black cotton soil + 15% crushed powdered glass 30% Table 18 Plastic Limit Values for 15% additives S.NO VARIOUS ADDITIVES PLASTIC LIMIT VALUE FOR 15% 1 Black cotton soil + 15% burnt brick dust 17% 2 Black cotton soil + 15% cement dust 18% 3 Black cotton soil + 15% 23% 4 Black cotton soil + 15% crushed powdered glass 18% Table 19 Plasticity Index Values for 15% additives S.NO VARIOUS ADDITIVES PLASTICITY INDEX VALUE FOR 15% 1 Black cotton soil + 15% burnt brick dust 19% 2 Black cotton soil + 15% cement dust 11% All rights reserved by www.ijirst.org 132

3 Black cotton soil + 15% 7% 4 Black cotton soil + 15% crushed powdered glass 12% Table 20 Optimum Moisture content Values for 15% additives S.NO VARIOUS ADDITIVES OPTIMUM MOISTURE CONTENT FOR 15% 1 Black cotton soil + 15% burnt brick dust 12% 2 Black cotton soil + 15% cement dust 19% 3 Black cotton soil + 15% 31% 4 Black cotton soil + 15% crushed powdered glass 22% Table 21 Maximum Dry Density Values for 15% additives S.NO VARIOUS ADDITIVES MAXIMUM DRY DENSITY VALUE FOR 15% 1 Black cotton soil + 15% burnt brick dust 2.31 g/cm 3 2 Black cotton soil + 15% cement dust 2.31 g/cm 3 3 Black cotton soil + 15% 2.36 g/cm 3 4 Black cotton soil + 15% crushed powdered glass 2.31 g/cm 3 Table 22 Flow Index (IF) Values for 15% additives S.NO VARIOUS ADDITIVES FLOW INDEX VALUE FOR 15% 1 Black cotton soil + 15% burnt brick dust 3.32% 2 Black cotton soil + 15% cement dust 10.48% 3 Black cotton soil + 15% 23% 4 Black cotton soil + 15% crushed powdered glass 23% Table 23 Toughness Index (IF) Values for 15% additives S.NO VARIOUS ADDITIVES TOUGHNESS INDEX VALUE FOR 15% 1 Black cotton soil + 15% burnt brick dust 6% 2 Black cotton soil + 15% cement dust 1.05% 3 Black cotton soil + 15% 0.30% 4 Black cotton soil + 15% crushed powdered glass 0.52% Result Comparison of Black cotton soil by adding 10% of various additives: The experimental test value of black cotton soil and addition of various 10% additives is plotted in graph format to compare the variations with black cotton soil in its natural state. The following figure shows the result comparison of black cotton soil by adding 10% of various additives. Fig. 6: Graphical representation of Liquid Limit for Black cotton soil + 10% addition of various additives All rights reserved by www.ijirst.org 133

Fig. 7: Graphical representation of plastic Limit for Black cotton soil + 10% addition of various additives Fig. 8: Graphical representation of plasticity index for Black cotton soil + 10% addition of various additives Fig. 9: Graphical representation of Optimum Moisture Content (OMC) for Black cotton soil + 10% addition of various additives All rights reserved by www.ijirst.org 134

Fig. 10: Graphical representation of Maximum Dry Density (MDD) for Black cotton soil + 10% addition of various additives Fig. 11: Graphical representation of Flow Index values for Black cotton soil + 10% addition of various additives Fig. 12: Graphical representation of Toughness Index values for Black cotton soil + 10% addition of various additives All rights reserved by www.ijirst.org 135

Result Comparison of Black cotton soil by adding 15% of various additives: Influence of Different Materials to Improve the Stabilization of Black Cotton Soil The experimental test value of black cotton soil and addition of various 15% additives is plotted in graph format to compare the variations with black cotton soil in its natural state. The following figure shows the result comparison of black cotton soil by adding 15 % of various additives. Fig. 13: Graphical representation of Liquid Limit for Black cotton soil + 15% addition of various additives Fig. 14: Graphical representation of Plastic Limit for Black cotton soil + 15% addition of various additives Fig. 15: Graphical representation of Plasticity Index for Black cotton soil + 15% addition of various additives All rights reserved by www.ijirst.org 136

Fig. 16: Graphical representation of Optimum Moisture Content (OMC) for Black cotton soil + 15% addition of various additives Fig. 17: Graphical representation of Maximum Dry Density (MDD) for Black cotton soil + 15% addition of various additives Fig. 18: Graphical representation of Flow Index values for Black cotton soil + 15% addition of various additives All rights reserved by www.ijirst.org 137

Fig. 19: Graphical representation of Toughness Index values for Black cotton soil + 15% addition of various additives IV. CONCLUSION Based on the experimental study of SCC, following conclusions were drawn: 1) Addition of burnt brick dust, crushed powdered glass, cement dust, in Black Cotton Soil improves the properties of black cotton soil 2) The combinations of various additives shows that individually they are weak to produce good result but use in black cotton soil with various proportion increases the black cotton soil properties 3) The addition of various additives in black cotton soil gives best result in the proportions 10% and 15% when compared to black cotton soil in its natural state 4) For various additions of stabilizing additives (10% and 15%) with black cotton soil the Maximum dry density (MDD) of black cotton soil is improving and optimum moisture (OMC) content of black cotton soil is decreasing when compared black cotton soil in its natural state (0% addition of stabilizing additives). 5) The atterberg s limit values are also decreasing for various additions of stabilizing agents (10% and 20%) with black cotton soil when compared black cotton soil in its natural state (0% addition of stabilizing additives). REFERENCES [1] Bairwa.R.L and Saxena.A..K, Effect of lime and fly ash on engineering properties of black cotton International Journal of Emerging Technology and Advanced Engineering,Vol. 3 Issue 11, 2013 [2] Devidovic.N and Prolovic.V Waste Glass additive to clay material in sub grade and embankment of Road Pavement Architecture and Civil Engineering Vol. 10, Nov 2012. [3] Dutta. R. K. and Sarda V. K., CBR behavior of waste plastic strip reinforced fly ash overlying saturated clay Turkish Journal of Engineering, Vol. 5, Issue 1, pp 181-192, 2007. [4] Hassan.W. Strength characteristic of soft soli reinforced with coir fiber University of Malaysia Phang, conference paper December 2012. [5] IRC SP 58 Guidelines for use of Fly ash in Road Embankment [6] IS: 2720 (part III)-1964 Methods of Test for soil Determination of the specific gravity of soil. [7] IS: 2720 (part IV)-1965 Methods of Test for soil Determination of Grain size analysis by sieving (Dry analysis). [8] IS: 2720 (Part V)-1985 Methods of Test for soil Determination of liquid limit of soil using Casasgrande Apparatus. [9] IS methods of tests for aggregates for concrete IS 2386: (Part III), 1963 Bureau of Indian Standards, New Delhi. [10] IS-2720 (Part V) 1965 Methods of Test for soil Determination of plastic limit of soil. [11] IS-2720 (part VIII) 1980 Methods of Test for soil Determination of optimum moisture content & maximum dry density of soil by Standard Proctor Test (light Compaction). All rights reserved by www.ijirst.org 138