SlideShare a Scribd company logo

Soil Stabilization By Using Fly Ash

IOSR Journals
IOSR Journals

This document discusses a study on stabilizing red soil in the Tirupur district of Tamil Nadu, India using fly ash. Laboratory tests were conducted on soil samples with varying percentages of fly ash addition (0-9%). Test results showed that 6% fly ash addition produced the highest improvements in engineering properties like CBR, UCS and bearing capacity. Specifically, CBR increased from 3.1 to 4.82 and bearing capacity increased from 10 kg/mm2 to 35 kg/mm2 with 6% fly ash. This allows for a reduction in required pavement thickness from 12 inches to 8.5 inches for an 'A' type traffic classification, saving on construction costs. The study concludes that fly ash is effective

Engineering
1 of 7
Download to read offline
IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) e-ISSN: 2278-1684,p-ISSN: 2320-334X, Volume 10, Issue 6 (Jan. 2014), PP 20-26 www.iosrjournals.org www.iosrjournals.org 20 | Page Soil Stabilization By Using Fly Ash Karthik.S1 , Ashok kumar.E2 , Gowtham.P 2 , Elango.G2 , Gokul.D2 , Thangaraj.S2 Assistant Professor, Department of Civil engineering, Jay Shriram Group of Institutions, Avinashipalayam, Tirupur, Tamilnadu, India. Under graduate students, Department of Civil engineering, Jay Shriram Group of Institutions, Avinashipalayam, Tirupur, Tamilnadu, India Abstract: Soil is a peculiar material. Some waste materials such Fly Ash, rice husk ash, pond ash may use to make the soil to be stable. Addition of such materials will increase the physical as well as chemical properties of the soil. Some expecting properties to be improved are CBR value, shear strength, liquidity index, plasticity index, unconfined compressive strength and bearing capacity etc. The objective of this study was to evaluate the effect of Fly Ash derived from combustion of sub-bituminous coal at electric power plants in stabilization of soft fine-grained red soils. California bearing ratio (CBR) and other strength property tests were conducted on soil. The soil is in range of plasticity, with plasticity indices ranging between 25 and 30. Tests were conducted on soils and soil–Fly Ash mixtures prepared at optimum water content of 9% .Addition of Fly Ash resulted in appreciable increases in the CBR of the soil. For water contents 9% wet of optimum, CBRs of the soils are found in varying percentage such that 3,5,6and 9.We will found optimum CBR value of the soil is 6%.Increment of CBR value is used to reduce the thickness of the pavement. And increasing the bearing capacity of soil. I. Introduction Aim of this research is to stabilize the locally available red soil around tirupur district. The stabilization is done for the following reasons. Soil stabilisation is widely used in connection with road, pavement and foundation construction. It improves the engineering properties of the soil, e.g:  Strength - to increase the strength and bearing capacity,  Volume stability - to control the swell-shrink characteristics caused by moisture changes,  Durability - to increase the resistance to erosion, weathering or traffic loading.  To reduce the pavement thickness as well as cost. According to the selected sight the traffic type is guessed as „A‟. Pavement thickness according to the CBR values are estimated and compared to expose the economic impact of soil stabilization by using Fly Ash. II. Literature Review Fly Ash by itself has little cementatious value but in the presence of moisture it reacts chemically and forms cementatious compounds and attributes to the improvement of strength and compressibility characteristics of soils. It has a long history of use as an engineering material and has been successfully employed in geotechnical applications. Erdal Cokca (2001): Effect of Fly Ash on expansive soil was studied by Erdal Cokca,FLY ASH consists of often hollow spheres of silicon, aluminium and iron oxides and unoxidized carbon. There 1 Research Scholar,eshwari_28@yahoo.co.in 2 Assistant Professor, robinson@iitm.ac.in 3. Professor, srgandhi@iitm.ac.in Indian Institute of Technology Madras, Chennai-36 .Fly Ash India 2005, New Delhi Fly Ash Utilization Programme (FAUP), TIFAC, DST, New Delhi – 110016 are two major classes of Fly Ash, class C and class F. The former is produced from burning anthracite or bituminous coal and the latter is produced from burning lignite and sub bituminous coal. Both the classes of Fly Ash are puzzolans, which are defined as siliceous and aluminous materials. Thus Fly Ash can provide an array of divalent and trivalent cations (Ca2+,Al3+,Fe3+etc) under ionized conditions that can promote flocculation of dispersed clay particles. Thus expansive soils can be potentially stabilized effectively by cation exchange using Fly Ash. He carried out investigations using Soma Fly Ash and Tuncbilek Fly Ash and added it to expansive soil at 0-25%. Specimens with Fly Ash were cured for 7days and 28 days after which they were subjected to Oedometer free swell tests. And his experimental findings confirmed that the plasticity index, activity and swelling potential of the samples decreased with increasing percent stabilizer and curing time and the optimum content of Fly Ash in decreasing the swell potential was found to be 20%. The changes in the physical properties and swelling potential is a result of additional silt size particles to some extent and due to chemical reactions that cause immediate flocculation of clay particles and the time dependent puzzolanic and self hardening properties of Fly Ash and he concluded that both high –calcium and low calcium class C Fly Ashes can be recommended as effective stabilizing agents for improvement for improvement of expansive soils.
Soil Stabilization By Using Fly Ash www.iosrjournals.org 21 | Page S.Bhuvaneshwari and S.R. Gandhi: A study was carried out by S.Bhuvaneshwari and S.R. Gandhi on the effect of engineering properties of expansive soil through an experimental programme. Infrastructure projects such as highways, railways, water reservoirs, reclamation etc. requires earth material in very large quantity. In urban areas, borrow earth is not easily available which has to be hauled from a long distance. Quite often, large areas are covered with highly plastic and expansive soil, which is not suitable for such purpose. Extensive laboratory / field trials have been carried out by various researchers and have shown promising results for application of such expansive soil after stabilization with additives such as sand, silt, lime, Fly Ash, etc. As Fly Ash is freely available, for projects in the vicinity of a Thermal Power Plants, it can be used for stabilization of expansive soils for various uses. The present paper describes a study carried out to check the improvements in the properties of expansive soil with Fly Ash in varying percentages. Both laboratory trials and field tests have been carried out and results are reported in this paper. One of the major difficulties in field application is thorough mixing of the two materials (expansive soil and Fly Ash) in required proportion to form a homogeneous mass. The paper describes a method adopted for placing these materials in layers of required thickness and operating a “Disc Harrow”. A trial embankment of 30m length by 6m width by 0.6m high was successfully constructed and the in-situ tests carried out proved its suitability for construction of embankment, ash dykes, filling low-laying areas, etc. Pandian et.al. (2002). Studied the effect of two types of Fly Ashes Raichur Fly Ash (Class F) and Neyveli Fly Ash (Class C) on the CBR characteristics of the black cotton soil. The Fly Ash content was increased from 0 to 100%. Generally the CBR/strength is contributed by its cohesion and friction. The CBR of BC soil, which consists of predominantly of finer particles, is contributed by cohesion. The CBR of Fly Ash, which consists predominantly of coarser particles, is contributed by its frictional component. The low CBR of BC soil is attributed to the inherent low strength, which is due to the dominance of clay fraction. The addition of Fly Ash to BC soil increases the CBR of the mix up to the first optimum level due to the frictional resistance from Fly Ash in addition to the cohesion from BC soil. Further addition of Fly Ash beyond the optimum level causes a decrease up to 60% and then up to the second optimum level there is an increase. Thus the variation of CBR of Fly Ash-BC soil mixes can be attributed to the relative contribution of frictional or cohesive resistance from Fly Ash or BC soil, respectively. In Neyveli Fly Ash also there is an increase of strength with the increase in the Fly Ash content, here there will be additional puzzolonic reaction forming cementitious compounds resulting in good binding between BC soil and Fly Ash particles Phanikumar and Sharma (2004): A similar study was carried out by Phanikumar and Sharma and the effect of Fly Ash on engineering properties of expansive soil through an experimental programme. The effect on parameters like free swell index (FSI), swell potential, swelling pressure, plasticity, compaction, strength and hydraulic conductivity of expansive soil was studied. The ash blended expansive soil with FLY ASH contents of 0, 5, 10,15 and 20% on a dry weight basis and they inferred that increase in FLY ASH content reduces plasticity characteristics and the FSI was reduced by about 50% by the addition of 20% Fly Ash. The hydraulic conductivity of expansive soils mixed with Fly Ash decreases with an increase in Fly Ash content, due to the increase in maximum dry unit weight with an increase in Fly Ash content. When the Fly Ash content increases there is a decrease in the optimum moisture content and the maximum dry unit weight increases. The effect of Fly Ash is akin to the increased compactive effort. Hence the expansive soil is rendered more stable. The untrained shear strength of the expansive soil blended with Fly Ash increases with the increase in the ash content. The following laboratory tests were carried out as per IS: 2720.The test were carried out on both normal soil and stabilized soil. 1. Specific gravity test 2. Grain size analysis 3. Atterbegs limits 4. Proctor compaction test 5. California Bearing Ratio value (CBR) test 6. Un Confined Compressive strength (UCC) test 7. Direct shear test 8. North Dakota test After removing impurities like vegetation, stones etc. the soil was mixed with Fly Ash in varying proportion by volume. The Mixing was thoroughly carried out manually and the tests were conducted as per standard procedures.
Soil Stabilization By Using Fly Ash www.iosrjournals.org 22 | Page Analysis of lab tests: Atterberg’s limits The liquid limit of the soil with varying percentage of Fly Ash is given in table 1 and fig 1 Table 1: LIQUID LIMIT VALUES FOR SOIL WITH FLY ASH % OF FLY ASH LIQUID LIMIT (%) 0 32 3 30 5 25 6 27 9 23 Fig 1: LIQUID LIMIT DISTRIBUTION CURVE FOR FLY ASH The plastic limit of the soil with varying percentage of Fly Ash is given in table 2 and fig 2 Table 2: PLASTIC LIMIT VALUES FOR FLY ASH % OF FLY ASH PLASTIC LIMIT (%) 0 23.37 3 25 5 13.7 6 18 9 14 Fig 2: PLASTIC LIMIT DISTRIBUTION CURVE FOR FLY ASH Specific gravity The specific gravity of the soil with varying percentage of Fly Ash is given in table 3 and fig 3 S
Soil Stabilization By Using Fly Ash www.iosrjournals.org 23 | Page Table 3: SPECIFIC GRAVITY VALUES FOR FLY ASH % OF FLY ASH SPECIFIC GRAVITY 0 2.7 3 2.6 5 2.8 6 2.7 9 2.7 Fig 3. SPECIFIC GRAVITY CURVE FOR SOIL WITH FLY ASH Proctor compaction test The OMC of the soil with varying percentage of Fly Ash is given in table 3 and fig 3 Table 3: OMC VALUES FOR FLY ASH % Of Fly Ash O.M.C (%) 0 8.9 3 9 5 8.2 6 10.2 9 9.3 Fig3: OMC CURVE FOR FLY ASH Maximum dry density The maximum dry density of the soil with varying percentage of Fly Ash is given in table 4 and fig 4 Table 4: MAXIMUM DRY DENSITY VALUES FOR FLY ASH % Of Fly Ash Maximum dry density *10^3 (Kg/m3) 0 2.11 3 2.07 5 2.31 6 2.35 9 2.21
Soil Stabilization By Using Fly Ash www.iosrjournals.org 24 | Page Fig 4: MDD CURVE FOR FLY ASH CBR- California Bearing Ratio The CBR of the soil with varying percentage of Fly Ash is given in table 5 and fig5 Table 5 CBR VALUES at 2.5mm deflection % Of Fly Ash CBR VALUE@ 2.5mm 0 2.08 3 1.56 5 1.51 6 3.75 9 2.13 Fig 5 CBR CURVE FOR FLY ASH Table 6: CBR VALUES at 5mm deflection % Of Fly Ash CBR VALUE@ 5mm 0 3.1 3 2.9 5 3.12 6 4.82 9 3.03 Fig 6. CBR CURVE FOR FLY ASH
Soil Stabilization By Using Fly Ash www.iosrjournals.org 25 | Page Unconfined compression test The UCC of the soil with varying percentage of Fly Ash is given in table 7 and fig 7 Table7: UCC VALUES FOR FLY ASH % Of Fly Ash UCC (N/cm2) 0 3.881840 3 4.100000 5 4.440923 6 8.881850 9 4.885015 Fig 7. UCC CURVE FOR FLY ASH North Dakota value test The North Dakota of the soil with varying percentage of Fly Ash is given in table 9 and fig 9 Table8: NORTH DOKOTA VALUES FOR FLY ASH % of Fly Ash Bearing capacity (kg/mm2) 0 10.93 3 8.75 5 17.2 6 35.06 9 12.27 Fig 8. NORTH DOKOTA CURVE FOR FLY ASH III. Conclusions: Based on the data accumulated from above research following conclusions have been made.  The borrowed red soil has bearing capacity of 10 kg/mm2 .  The stabilized red soil with 6 percentage of Fly Ash achieves bearing capacity of 35kg/mm2  The CBR value of borrowed red soil is 3.1. From design curvein „A‟ type traffic, pavement thickness for corresflying soil is 12 inches.  CBR value of stabilized soil is 4.82. Pavement thickness corresflying to this value is8.5inches.
Soil Stabilization By Using Fly Ash www.iosrjournals.org 26 | Page Acknowledgement The authors would like to express an acknowledgement to the Faculty of R.GOPINATH Head of Civil Engineering and management of jay shri ram groups of institutions tirupur, for providing the facilities such as the geotechnical laboratory and advanced geotechnical laboratory to accomplish this study. The author also wishes to acknowledge cooperation given by laboratory technician from Faculty of Civil Engineering, jay shri ram groups of instutions, tirupur to complete this study. References: [1]. Chen, F. H. (1988), “Foundations on expansive soils”, Chen & Associates, Elsevier Publications, U.S.A. [2]. Erdal Cokca (2001) “Use Of Class C Fly Ashes for the Stabilization – of an Expansive Soil” Journal of Geotechnical and Geo environmental Engineering Vol. 127, July, pp. 568-573. [3]. Eldon J. Yoder(1957), “Principles of Soil Stabilization”,JHRPPublicationIndiana. [4]. Pradip D. Jadhao and Nagarnaik, P.B (2008), Influence of Polypropylene Fibres on Engineering Behavior of Soil – Fly Ash Mixtures for Road Construction, Electronic Journal of Geotechnical Engineering, Vol. 13, Bund.C, pp. 1-11. [5]. 1.American Society for Testing and Materials, ASTM C618 (2008) Specification for Fly Ash and Raw or Calcined Natural Pozzolanic for Use as a Mineral Admixture in Portland Cement Concrete. Annual Book of ASTM Standards, ASTM, Philadelphia, USA.

Recommended

soil stabilization report presentation
soil stabilization report presentationsoil stabilization report presentation
soil stabilization report presentationSahil rana
 
Fly ash stablization ppt
Fly ash stablization pptFly ash stablization ppt
Fly ash stablization pptVikrant Sharma
 
SOIL STABILIZATION USING FLY ASH
SOIL STABILIZATION USING FLY ASHSOIL STABILIZATION USING FLY ASH
SOIL STABILIZATION USING FLY ASHHariKrishnan P A
 
STABILIZATION OF BLACK COTTON SOIL
STABILIZATION OF BLACK COTTON SOILSTABILIZATION OF BLACK COTTON SOIL
STABILIZATION OF BLACK COTTON SOILGAGAN BM
 
Soil stabilization
Soil stabilizationSoil stabilization
Soil stabilizationSyeda Nusrath Fathima
 
Gel space ratio
Gel space ratioGel space ratio
Gel space ratioFayaz Ahamed A P
 
Effect of expansive soils on buildings and its prevention
Effect of expansive soils on buildings and its preventionEffect of expansive soils on buildings and its prevention
Effect of expansive soils on buildings and its preventionSailish Cephas
 
GEOSYNTHETICS
GEOSYNTHETICSGEOSYNTHETICS
GEOSYNTHETICSAmjad Ansari
 

Recommended

soil stabilization report presentation
soil stabilization report presentationsoil stabilization report presentation
soil stabilization report presentationSahil rana
 
Fly ash stablization ppt
Fly ash stablization pptFly ash stablization ppt
Fly ash stablization pptVikrant Sharma
 
SOIL STABILIZATION USING FLY ASH
SOIL STABILIZATION USING FLY ASHSOIL STABILIZATION USING FLY ASH
SOIL STABILIZATION USING FLY ASHHariKrishnan P A
 
STABILIZATION OF BLACK COTTON SOIL
STABILIZATION OF BLACK COTTON SOILSTABILIZATION OF BLACK COTTON SOIL
STABILIZATION OF BLACK COTTON SOILGAGAN BM
 
Soil stabilization
Soil stabilizationSoil stabilization
Soil stabilizationSyeda Nusrath Fathima
 
Gel space ratio
Gel space ratioGel space ratio
Gel space ratioFayaz Ahamed A P
 
Effect of expansive soils on buildings and its prevention
Effect of expansive soils on buildings and its preventionEffect of expansive soils on buildings and its prevention
Effect of expansive soils on buildings and its preventionSailish Cephas
 
GEOSYNTHETICS
GEOSYNTHETICSGEOSYNTHETICS
GEOSYNTHETICSAmjad Ansari
 
project report on pwd work.....
project report on pwd work.....project report on pwd work.....
project report on pwd work.....Thakur Sankhyan
 
Concrete mineral admixtures
Concrete mineral admixturesConcrete mineral admixtures
Concrete mineral admixturesiindhu567
 
Stabilization of soft soil with granulated blast furnace slag and fly ash
Stabilization of soft soil with granulated blast furnace slag and fly ashStabilization of soft soil with granulated blast furnace slag and fly ash
Stabilization of soft soil with granulated blast furnace slag and fly asheSAT Publishing House
 
5. stabilization.ppt
5. stabilization.ppt5. stabilization.ppt
5. stabilization.pptSivaRamaKrishnaUppul
 
Soil stabilisation
Soil stabilisation Soil stabilisation
Soil stabilisation pradip dangar
 
Grouting
Grouting Grouting
Grouting Chaitanya Raval
 
Atterberg limits
Atterberg limitsAtterberg limits
Atterberg limitsFaizan Tanoli
 
07 101+ ground improvement techniques
07 101+ ground improvement techniques07 101+ ground improvement techniques
07 101+ ground improvement techniquesAHMED NADIM JILANI
 
Stabilization of black cotton soil ppt
Stabilization of black cotton soil pptStabilization of black cotton soil ppt
Stabilization of black cotton soil pptZAKIRMIR4
 
Fibre Reinforced concrete
Fibre Reinforced concreteFibre Reinforced concrete
Fibre Reinforced concreteSairamdevaraj
 
Fibre Reinforced Soil
Fibre Reinforced SoilFibre Reinforced Soil
Fibre Reinforced SoilAnniruth Kannan
 
GGBS PPT
GGBS PPTGGBS PPT
GGBS PPTDibyajyoti Sarma
 
Reinforced earth walls
Reinforced earth wallsReinforced earth walls
Reinforced earth wallsRaju Sabarish
 
Bearing capacity of soil
Bearing capacity of soilBearing capacity of soil
Bearing capacity of soiltirath prajapati
 
Bituminous mix design.pptx
Bituminous mix design.pptxBituminous mix design.pptx
Bituminous mix design.pptxASHIKBELLARY
 
Overview of Soil Stabilization :Cement / Lime :PPT
Overview of Soil Stabilization :Cement / Lime :PPTOverview of Soil Stabilization :Cement / Lime :PPT
Overview of Soil Stabilization :Cement / Lime :PPTAniket Pateriya
 
Soil Stabilisation
Soil StabilisationSoil Stabilisation
Soil StabilisationArbaz Kazi
 
Plastic as a soil stabilizer by yashwanth sagar
Plastic as a soil stabilizer by yashwanth sagarPlastic as a soil stabilizer by yashwanth sagar
Plastic as a soil stabilizer by yashwanth sagaryashwanth9611
 
Grouting
GroutingGrouting
GroutingBhalchandra Tankkar
 
Special concrete
Special concreteSpecial concrete
Special concreteDr V Kannan B.E., M.E., PhD
 
E012463336
E012463336E012463336
E012463336IOSR Journals
 
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...Shakerqaidi
 

More Related Content

What's hot

project report on pwd work.....
project report on pwd work.....project report on pwd work.....
project report on pwd work.....Thakur Sankhyan
 
Concrete mineral admixtures
Concrete mineral admixturesConcrete mineral admixtures
Concrete mineral admixturesiindhu567
 
Stabilization of soft soil with granulated blast furnace slag and fly ash
Stabilization of soft soil with granulated blast furnace slag and fly ashStabilization of soft soil with granulated blast furnace slag and fly ash
Stabilization of soft soil with granulated blast furnace slag and fly asheSAT Publishing House
 
07 101+ ground improvement techniques
07 101+ ground improvement techniques07 101+ ground improvement techniques
07 101+ ground improvement techniquesAHMED NADIM JILANI
 
Stabilization of black cotton soil ppt
Stabilization of black cotton soil pptStabilization of black cotton soil ppt
Stabilization of black cotton soil pptZAKIRMIR4
 
Fibre Reinforced concrete
Fibre Reinforced concreteFibre Reinforced concrete
Fibre Reinforced concreteSairamdevaraj
 
Reinforced earth walls
Reinforced earth wallsReinforced earth walls
Reinforced earth wallsRaju Sabarish
 
Bituminous mix design.pptx
Bituminous mix design.pptxBituminous mix design.pptx
Bituminous mix design.pptxASHIKBELLARY
 
Overview of Soil Stabilization :Cement / Lime :PPT
Overview of Soil Stabilization :Cement / Lime :PPTOverview of Soil Stabilization :Cement / Lime :PPT
Overview of Soil Stabilization :Cement / Lime :PPTAniket Pateriya
 
Soil Stabilisation
Soil StabilisationSoil Stabilisation
Soil StabilisationArbaz Kazi
 
Plastic as a soil stabilizer by yashwanth sagar
Plastic as a soil stabilizer by yashwanth sagarPlastic as a soil stabilizer by yashwanth sagar
Plastic as a soil stabilizer by yashwanth sagaryashwanth9611
 

What's hot (20)

project report on pwd work.....
project report on pwd work.....project report on pwd work.....
project report on pwd work.....
 
Concrete mineral admixtures
Concrete mineral admixturesConcrete mineral admixtures
Concrete mineral admixtures
 
Stabilization of soft soil with granulated blast furnace slag and fly ash
Stabilization of soft soil with granulated blast furnace slag and fly ashStabilization of soft soil with granulated blast furnace slag and fly ash
Stabilization of soft soil with granulated blast furnace slag and fly ash
 
5. stabilization.ppt
5. stabilization.ppt5. stabilization.ppt
5. stabilization.ppt
 
Soil stabilisation
Soil stabilisation Soil stabilisation
Soil stabilisation
 
Grouting
Grouting Grouting
Grouting
 
Atterberg limits
Atterberg limitsAtterberg limits
Atterberg limits
 
07 101+ ground improvement techniques
07 101+ ground improvement techniques07 101+ ground improvement techniques
07 101+ ground improvement techniques
 
Stabilization of black cotton soil ppt
Stabilization of black cotton soil pptStabilization of black cotton soil ppt
Stabilization of black cotton soil ppt
 
Fibre Reinforced concrete
Fibre Reinforced concreteFibre Reinforced concrete
Fibre Reinforced concrete
 
Fibre Reinforced Soil
Fibre Reinforced SoilFibre Reinforced Soil
Fibre Reinforced Soil
 
GGBS PPT
GGBS PPTGGBS PPT
GGBS PPT
 
Reinforced earth walls
Reinforced earth wallsReinforced earth walls
Reinforced earth walls
 
Bearing capacity of soil
Bearing capacity of soilBearing capacity of soil
Bearing capacity of soil
 
Bituminous mix design.pptx
Bituminous mix design.pptxBituminous mix design.pptx
Bituminous mix design.pptx
 
Overview of Soil Stabilization :Cement / Lime :PPT
Overview of Soil Stabilization :Cement / Lime :PPTOverview of Soil Stabilization :Cement / Lime :PPT
Overview of Soil Stabilization :Cement / Lime :PPT
 
Soil Stabilisation
Soil StabilisationSoil Stabilisation
Soil Stabilisation
 
Plastic as a soil stabilizer by yashwanth sagar
Plastic as a soil stabilizer by yashwanth sagarPlastic as a soil stabilizer by yashwanth sagar
Plastic as a soil stabilizer by yashwanth sagar
 
Grouting
GroutingGrouting
Grouting
 
Special concrete
Special concreteSpecial concrete
Special concrete
 

Similar to Soil Stabilization By Using Fly Ash

Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...Shakerqaidi
 
Performance evaluation of locally available soil mixed with Fly ash and rando...
Performance evaluation of locally available soil mixed with Fly ash and rando...Performance evaluation of locally available soil mixed with Fly ash and rando...
Performance evaluation of locally available soil mixed with Fly ash and rando...IOSR Journals
 
Btech project report template 1 (only theoretical review)
Btech project report template 1 (only theoretical review)Btech project report template 1 (only theoretical review)
Btech project report template 1 (only theoretical review)Abhishek kumar
 
Btech Project report template-1 (2) (2)
Btech Project report template-1 (2) (2)Btech Project report template-1 (2) (2)
Btech Project report template-1 (2) (2)Abhishek kumar
 
Effect of pH and Curing Time Behaviour on Strength Properties of Soils
Effect of pH and Curing Time Behaviour on Strength Properties of SoilsEffect of pH and Curing Time Behaviour on Strength Properties of Soils
Effect of pH and Curing Time Behaviour on Strength Properties of SoilsIRJET Journal
 
IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...
IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...
IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...IRJET Journal
 
Stabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly Ash
Stabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly AshStabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly Ash
Stabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly AshEditorIJAERD
 
Study on Effect of Fly Ash on Strength Characteristics of Black Cotton Soil
Study on Effect of Fly Ash on Strength Characteristics of Black Cotton SoilStudy on Effect of Fly Ash on Strength Characteristics of Black Cotton Soil
Study on Effect of Fly Ash on Strength Characteristics of Black Cotton SoilIRJET Journal
 
Stabilization of Natural Soil with Sand and Cement
Stabilization of Natural Soil with Sand and CementStabilization of Natural Soil with Sand and Cement
Stabilization of Natural Soil with Sand and CementIJSRD
 
Coal Ashes In Geo-technical Engineering Practice-Beneficial Aspects
Coal Ashes In Geo-technical Engineering Practice-Beneficial AspectsCoal Ashes In Geo-technical Engineering Practice-Beneficial Aspects
Coal Ashes In Geo-technical Engineering Practice-Beneficial AspectsSandeep Jaiswal
 
IRJET- Stabilisation of Clayey Soil by using Lignosulfonate
IRJET- Stabilisation of Clayey Soil by using LignosulfonateIRJET- Stabilisation of Clayey Soil by using Lignosulfonate
IRJET- Stabilisation of Clayey Soil by using LignosulfonateIRJET Journal
 
Strength Behaviour of Expansive Soil Treated with Tile Waste
Strength Behaviour of Expansive Soil Treated with Tile WasteStrength Behaviour of Expansive Soil Treated with Tile Waste
Strength Behaviour of Expansive Soil Treated with Tile WasteIJERD Editor
 
IRJET- Effect of Lime (Content & Duration) on Strength of Cohesive Soil
IRJET- Effect of Lime (Content & Duration) on Strength of Cohesive SoilIRJET- Effect of Lime (Content & Duration) on Strength of Cohesive Soil
IRJET- Effect of Lime (Content & Duration) on Strength of Cohesive SoilIRJET Journal
 

Similar to Soil Stabilization By Using Fly Ash (20)

E012463336
E012463336E012463336
E012463336
 
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
Stabilization of Soft Soil by a Sustainable Binder Comprises Ground Granulate...
 
I044045563
I044045563I044045563
I044045563
 
Performance evaluation of locally available soil mixed with Fly ash and rando...
Performance evaluation of locally available soil mixed with Fly ash and rando...Performance evaluation of locally available soil mixed with Fly ash and rando...
Performance evaluation of locally available soil mixed with Fly ash and rando...
 
IJEAS0406002.pdf
IJEAS0406002.pdfIJEAS0406002.pdf
IJEAS0406002.pdf
 
Btech project report template 1 (only theoretical review)
Btech project report template 1 (only theoretical review)Btech project report template 1 (only theoretical review)
Btech project report template 1 (only theoretical review)
 
Btech Project report template-1 (2) (2)
Btech Project report template-1 (2) (2)Btech Project report template-1 (2) (2)
Btech Project report template-1 (2) (2)
 
UNCONFINED COMPRESSIVE STRENGTH TEST OF A FLY ASH STABILIZED SANDY SOIL
UNCONFINED COMPRESSIVE STRENGTH TEST OF A FLY ASH STABILIZED SANDY SOILUNCONFINED COMPRESSIVE STRENGTH TEST OF A FLY ASH STABILIZED SANDY SOIL
UNCONFINED COMPRESSIVE STRENGTH TEST OF A FLY ASH STABILIZED SANDY SOIL
 
Ref#35.pdf
Ref#35.pdfRef#35.pdf
Ref#35.pdf
 
Effect of pH and Curing Time Behaviour on Strength Properties of Soils
Effect of pH and Curing Time Behaviour on Strength Properties of SoilsEffect of pH and Curing Time Behaviour on Strength Properties of Soils
Effect of pH and Curing Time Behaviour on Strength Properties of Soils
 
IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...
IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...
IRJET- A Review on the Combined Effect of Lime, Flyash and Geosynthetic R...
 
Stabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly Ash
Stabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly AshStabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly Ash
Stabilization of Expansive Soil Subgrade Using Recycled Carpet Waste and Fly Ash
 
Study on Effect of Fly Ash on Strength Characteristics of Black Cotton Soil
Study on Effect of Fly Ash on Strength Characteristics of Black Cotton SoilStudy on Effect of Fly Ash on Strength Characteristics of Black Cotton Soil
Study on Effect of Fly Ash on Strength Characteristics of Black Cotton Soil
 
Stabilization of Natural Soil with Sand and Cement
Stabilization of Natural Soil with Sand and CementStabilization of Natural Soil with Sand and Cement
Stabilization of Natural Soil with Sand and Cement
 
Coal Ashes In Geo-technical Engineering Practice-Beneficial Aspects
Coal Ashes In Geo-technical Engineering Practice-Beneficial AspectsCoal Ashes In Geo-technical Engineering Practice-Beneficial Aspects
Coal Ashes In Geo-technical Engineering Practice-Beneficial Aspects
 
H012425361
H012425361H012425361
H012425361
 
IRJET- Stabilisation of Clayey Soil by using Lignosulfonate
IRJET- Stabilisation of Clayey Soil by using LignosulfonateIRJET- Stabilisation of Clayey Soil by using Lignosulfonate
IRJET- Stabilisation of Clayey Soil by using Lignosulfonate
 
A1302030107
A1302030107A1302030107
A1302030107
 
Strength Behaviour of Expansive Soil Treated with Tile Waste
Strength Behaviour of Expansive Soil Treated with Tile WasteStrength Behaviour of Expansive Soil Treated with Tile Waste
Strength Behaviour of Expansive Soil Treated with Tile Waste
 
IRJET- Effect of Lime (Content & Duration) on Strength of Cohesive Soil
IRJET- Effect of Lime (Content & Duration) on Strength of Cohesive SoilIRJET- Effect of Lime (Content & Duration) on Strength of Cohesive Soil
IRJET- Effect of Lime (Content & Duration) on Strength of Cohesive Soil
 

More from IOSR Journals

More from IOSR Journals (20)

A011140104
A011140104A011140104
A011140104
 
M0111397100
M0111397100M0111397100
M0111397100
 
L011138596
L011138596L011138596
L011138596
 
K011138084
K011138084K011138084
K011138084
 
J011137479
J011137479J011137479
J011137479
 
I011136673
I011136673I011136673
I011136673
 
G011134454
G011134454G011134454
G011134454
 
H011135565
H011135565H011135565
H011135565
 
F011134043
F011134043F011134043
F011134043
 
E011133639
E011133639E011133639
E011133639
 
D011132635
D011132635D011132635
D011132635
 
C011131925
C011131925C011131925
C011131925
 
B011130918
B011130918B011130918
B011130918
 
A011130108
A011130108A011130108
A011130108
 
I011125160
I011125160I011125160
I011125160
 
H011124050
H011124050H011124050
H011124050
 
G011123539
G011123539G011123539
G011123539
 
F011123134
F011123134F011123134
F011123134
 
E011122530
E011122530E011122530
E011122530
 
D011121524
D011121524D011121524
D011121524
 

Recently uploaded

Architect Hassan Khalil Portfolio for 2024
Architect Hassan Khalil Portfolio for 2024Architect Hassan Khalil Portfolio for 2024
Architect Hassan Khalil Portfolio for 2024hassan khalil
 
OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...
OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...
OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...Soham Mondal
 
Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.eptoze12
 
VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130
VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130
VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130Suhani Kapoor
 
Current Transformer Drawing and GTP for MSETCL
Current Transformer Drawing and GTP for MSETCLCurrent Transformer Drawing and GTP for MSETCL
Current Transformer Drawing and GTP for MSETCLDeelipZope
 
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfCCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfAsst.prof M.Gokilavani
 
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile serviceCall Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile servicerehmti665
 
What are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptxWhat are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptxwendy cai
 
VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...
VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...
VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...VICTOR MAESTRE RAMIREZ
 
Heart Disease Prediction using machine learning.pptx
Heart Disease Prediction using machine learning.pptxHeart Disease Prediction using machine learning.pptx
Heart Disease Prediction using machine learning.pptxPoojaBan
 
APPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICS
APPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICSAPPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICS
APPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICSKurinjimalarL3
 
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerAnamika Sarkar
 
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVHARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVRajaP95
 
Gurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort service
Gurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort serviceGurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort service
Gurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort servicejennyeacort
 
microprocessor 8085 and its interfacing
microprocessor 8085 and its interfacingmicroprocessor 8085 and its interfacing
microprocessor 8085 and its interfacingjaychoudhary37
 
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...Dr.Costas Sachpazis
 
power system scada applications and uses
power system scada applications and usespower system scada applications and uses
power system scada applications and usesDevarapalliHaritha
 
Artificial-Intelligence-in-Electronics (K).pptx
Artificial-Intelligence-in-Electronics (K).pptxArtificial-Intelligence-in-Electronics (K).pptx
Artificial-Intelligence-in-Electronics (K).pptxbritheesh05
 

Recently uploaded (20)

Architect Hassan Khalil Portfolio for 2024
Architect Hassan Khalil Portfolio for 2024Architect Hassan Khalil Portfolio for 2024
Architect Hassan Khalil Portfolio for 2024
 
OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...
OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...
OSVC_Meta-Data based Simulation Automation to overcome Verification Challenge...
 
Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.
 
VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130
VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130
VIP Call Girls Service Kondapur Hyderabad Call +91-8250192130
 
Current Transformer Drawing and GTP for MSETCL
Current Transformer Drawing and GTP for MSETCLCurrent Transformer Drawing and GTP for MSETCL
Current Transformer Drawing and GTP for MSETCL
 
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdfCCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
CCS355 Neural Network & Deep Learning Unit II Notes with Question bank .pdf
 
Call Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile serviceCall Girls Delhi {Jodhpur} 9711199012 high profile service
Call Girls Delhi {Jodhpur} 9711199012 high profile service
 
What are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptxWhat are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptx
 
VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...
VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...
VICTOR MAESTRE RAMIREZ - Planetary Defender on NASA's Double Asteroid Redirec...
 
🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...
🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...
🔝9953056974🔝!!-YOUNG call girls in Rajendra Nagar Escort rvice Shot 2000 nigh...
 
Heart Disease Prediction using machine learning.pptx
Heart Disease Prediction using machine learning.pptxHeart Disease Prediction using machine learning.pptx
Heart Disease Prediction using machine learning.pptx
 
APPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICS
APPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICSAPPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICS
APPLICATIONS-AC/DC DRIVES-OPERATING CHARACTERISTICS
 
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned Tube Exchanger
 
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVHARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
 
Gurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort service
Gurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort serviceGurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort service
Gurgaon ✡️9711147426✨Call In girls Gurgaon Sector 51 escort service
 
microprocessor 8085 and its interfacing
microprocessor 8085 and its interfacingmicroprocessor 8085 and its interfacing
microprocessor 8085 and its interfacing
 
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
Sheet Pile Wall Design and Construction: A Practical Guide for Civil Engineer...
 
power system scada applications and uses
power system scada applications and usespower system scada applications and uses
power system scada applications and uses
 
Artificial-Intelligence-in-Electronics (K).pptx
Artificial-Intelligence-in-Electronics (K).pptxArtificial-Intelligence-in-Electronics (K).pptx
Artificial-Intelligence-in-Electronics (K).pptx
 
9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf
9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf
9953056974 Call Girls In South Ex, Escorts (Delhi) NCR.pdf
 

Soil Stabilization By Using Fly Ash

  • 1. IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) e-ISSN: 2278-1684,p-ISSN: 2320-334X, Volume 10, Issue 6 (Jan. 2014), PP 20-26 www.iosrjournals.org www.iosrjournals.org 20 | Page Soil Stabilization By Using Fly Ash Karthik.S1 , Ashok kumar.E2 , Gowtham.P 2 , Elango.G2 , Gokul.D2 , Thangaraj.S2 Assistant Professor, Department of Civil engineering, Jay Shriram Group of Institutions, Avinashipalayam, Tirupur, Tamilnadu, India. Under graduate students, Department of Civil engineering, Jay Shriram Group of Institutions, Avinashipalayam, Tirupur, Tamilnadu, India Abstract: Soil is a peculiar material. Some waste materials such Fly Ash, rice husk ash, pond ash may use to make the soil to be stable. Addition of such materials will increase the physical as well as chemical properties of the soil. Some expecting properties to be improved are CBR value, shear strength, liquidity index, plasticity index, unconfined compressive strength and bearing capacity etc. The objective of this study was to evaluate the effect of Fly Ash derived from combustion of sub-bituminous coal at electric power plants in stabilization of soft fine-grained red soils. California bearing ratio (CBR) and other strength property tests were conducted on soil. The soil is in range of plasticity, with plasticity indices ranging between 25 and 30. Tests were conducted on soils and soil–Fly Ash mixtures prepared at optimum water content of 9% .Addition of Fly Ash resulted in appreciable increases in the CBR of the soil. For water contents 9% wet of optimum, CBRs of the soils are found in varying percentage such that 3,5,6and 9.We will found optimum CBR value of the soil is 6%.Increment of CBR value is used to reduce the thickness of the pavement. And increasing the bearing capacity of soil. I. Introduction Aim of this research is to stabilize the locally available red soil around tirupur district. The stabilization is done for the following reasons. Soil stabilisation is widely used in connection with road, pavement and foundation construction. It improves the engineering properties of the soil, e.g:  Strength - to increase the strength and bearing capacity,  Volume stability - to control the swell-shrink characteristics caused by moisture changes,  Durability - to increase the resistance to erosion, weathering or traffic loading.  To reduce the pavement thickness as well as cost. According to the selected sight the traffic type is guessed as „A‟. Pavement thickness according to the CBR values are estimated and compared to expose the economic impact of soil stabilization by using Fly Ash. II. Literature Review Fly Ash by itself has little cementatious value but in the presence of moisture it reacts chemically and forms cementatious compounds and attributes to the improvement of strength and compressibility characteristics of soils. It has a long history of use as an engineering material and has been successfully employed in geotechnical applications. Erdal Cokca (2001): Effect of Fly Ash on expansive soil was studied by Erdal Cokca,FLY ASH consists of often hollow spheres of silicon, aluminium and iron oxides and unoxidized carbon. There 1 Research Scholar,eshwari_28@yahoo.co.in 2 Assistant Professor, robinson@iitm.ac.in 3. Professor, srgandhi@iitm.ac.in Indian Institute of Technology Madras, Chennai-36 .Fly Ash India 2005, New Delhi Fly Ash Utilization Programme (FAUP), TIFAC, DST, New Delhi – 110016 are two major classes of Fly Ash, class C and class F. The former is produced from burning anthracite or bituminous coal and the latter is produced from burning lignite and sub bituminous coal. Both the classes of Fly Ash are puzzolans, which are defined as siliceous and aluminous materials. Thus Fly Ash can provide an array of divalent and trivalent cations (Ca2+,Al3+,Fe3+etc) under ionized conditions that can promote flocculation of dispersed clay particles. Thus expansive soils can be potentially stabilized effectively by cation exchange using Fly Ash. He carried out investigations using Soma Fly Ash and Tuncbilek Fly Ash and added it to expansive soil at 0-25%. Specimens with Fly Ash were cured for 7days and 28 days after which they were subjected to Oedometer free swell tests. And his experimental findings confirmed that the plasticity index, activity and swelling potential of the samples decreased with increasing percent stabilizer and curing time and the optimum content of Fly Ash in decreasing the swell potential was found to be 20%. The changes in the physical properties and swelling potential is a result of additional silt size particles to some extent and due to chemical reactions that cause immediate flocculation of clay particles and the time dependent puzzolanic and self hardening properties of Fly Ash and he concluded that both high –calcium and low calcium class C Fly Ashes can be recommended as effective stabilizing agents for improvement for improvement of expansive soils.
  • 2. Soil Stabilization By Using Fly Ash www.iosrjournals.org 21 | Page S.Bhuvaneshwari and S.R. Gandhi: A study was carried out by S.Bhuvaneshwari and S.R. Gandhi on the effect of engineering properties of expansive soil through an experimental programme. Infrastructure projects such as highways, railways, water reservoirs, reclamation etc. requires earth material in very large quantity. In urban areas, borrow earth is not easily available which has to be hauled from a long distance. Quite often, large areas are covered with highly plastic and expansive soil, which is not suitable for such purpose. Extensive laboratory / field trials have been carried out by various researchers and have shown promising results for application of such expansive soil after stabilization with additives such as sand, silt, lime, Fly Ash, etc. As Fly Ash is freely available, for projects in the vicinity of a Thermal Power Plants, it can be used for stabilization of expansive soils for various uses. The present paper describes a study carried out to check the improvements in the properties of expansive soil with Fly Ash in varying percentages. Both laboratory trials and field tests have been carried out and results are reported in this paper. One of the major difficulties in field application is thorough mixing of the two materials (expansive soil and Fly Ash) in required proportion to form a homogeneous mass. The paper describes a method adopted for placing these materials in layers of required thickness and operating a “Disc Harrow”. A trial embankment of 30m length by 6m width by 0.6m high was successfully constructed and the in-situ tests carried out proved its suitability for construction of embankment, ash dykes, filling low-laying areas, etc. Pandian et.al. (2002). Studied the effect of two types of Fly Ashes Raichur Fly Ash (Class F) and Neyveli Fly Ash (Class C) on the CBR characteristics of the black cotton soil. The Fly Ash content was increased from 0 to 100%. Generally the CBR/strength is contributed by its cohesion and friction. The CBR of BC soil, which consists of predominantly of finer particles, is contributed by cohesion. The CBR of Fly Ash, which consists predominantly of coarser particles, is contributed by its frictional component. The low CBR of BC soil is attributed to the inherent low strength, which is due to the dominance of clay fraction. The addition of Fly Ash to BC soil increases the CBR of the mix up to the first optimum level due to the frictional resistance from Fly Ash in addition to the cohesion from BC soil. Further addition of Fly Ash beyond the optimum level causes a decrease up to 60% and then up to the second optimum level there is an increase. Thus the variation of CBR of Fly Ash-BC soil mixes can be attributed to the relative contribution of frictional or cohesive resistance from Fly Ash or BC soil, respectively. In Neyveli Fly Ash also there is an increase of strength with the increase in the Fly Ash content, here there will be additional puzzolonic reaction forming cementitious compounds resulting in good binding between BC soil and Fly Ash particles Phanikumar and Sharma (2004): A similar study was carried out by Phanikumar and Sharma and the effect of Fly Ash on engineering properties of expansive soil through an experimental programme. The effect on parameters like free swell index (FSI), swell potential, swelling pressure, plasticity, compaction, strength and hydraulic conductivity of expansive soil was studied. The ash blended expansive soil with FLY ASH contents of 0, 5, 10,15 and 20% on a dry weight basis and they inferred that increase in FLY ASH content reduces plasticity characteristics and the FSI was reduced by about 50% by the addition of 20% Fly Ash. The hydraulic conductivity of expansive soils mixed with Fly Ash decreases with an increase in Fly Ash content, due to the increase in maximum dry unit weight with an increase in Fly Ash content. When the Fly Ash content increases there is a decrease in the optimum moisture content and the maximum dry unit weight increases. The effect of Fly Ash is akin to the increased compactive effort. Hence the expansive soil is rendered more stable. The untrained shear strength of the expansive soil blended with Fly Ash increases with the increase in the ash content. The following laboratory tests were carried out as per IS: 2720.The test were carried out on both normal soil and stabilized soil. 1. Specific gravity test 2. Grain size analysis 3. Atterbegs limits 4. Proctor compaction test 5. California Bearing Ratio value (CBR) test 6. Un Confined Compressive strength (UCC) test 7. Direct shear test 8. North Dakota test After removing impurities like vegetation, stones etc. the soil was mixed with Fly Ash in varying proportion by volume. The Mixing was thoroughly carried out manually and the tests were conducted as per standard procedures.
  • 3. Soil Stabilization By Using Fly Ash www.iosrjournals.org 22 | Page Analysis of lab tests: Atterberg’s limits The liquid limit of the soil with varying percentage of Fly Ash is given in table 1 and fig 1 Table 1: LIQUID LIMIT VALUES FOR SOIL WITH FLY ASH % OF FLY ASH LIQUID LIMIT (%) 0 32 3 30 5 25 6 27 9 23 Fig 1: LIQUID LIMIT DISTRIBUTION CURVE FOR FLY ASH The plastic limit of the soil with varying percentage of Fly Ash is given in table 2 and fig 2 Table 2: PLASTIC LIMIT VALUES FOR FLY ASH % OF FLY ASH PLASTIC LIMIT (%) 0 23.37 3 25 5 13.7 6 18 9 14 Fig 2: PLASTIC LIMIT DISTRIBUTION CURVE FOR FLY ASH Specific gravity The specific gravity of the soil with varying percentage of Fly Ash is given in table 3 and fig 3 S
  • 4. Soil Stabilization By Using Fly Ash www.iosrjournals.org 23 | Page Table 3: SPECIFIC GRAVITY VALUES FOR FLY ASH % OF FLY ASH SPECIFIC GRAVITY 0 2.7 3 2.6 5 2.8 6 2.7 9 2.7 Fig 3. SPECIFIC GRAVITY CURVE FOR SOIL WITH FLY ASH Proctor compaction test The OMC of the soil with varying percentage of Fly Ash is given in table 3 and fig 3 Table 3: OMC VALUES FOR FLY ASH % Of Fly Ash O.M.C (%) 0 8.9 3 9 5 8.2 6 10.2 9 9.3 Fig3: OMC CURVE FOR FLY ASH Maximum dry density The maximum dry density of the soil with varying percentage of Fly Ash is given in table 4 and fig 4 Table 4: MAXIMUM DRY DENSITY VALUES FOR FLY ASH % Of Fly Ash Maximum dry density *10^3 (Kg/m3) 0 2.11 3 2.07 5 2.31 6 2.35 9 2.21
  • 5. Soil Stabilization By Using Fly Ash www.iosrjournals.org 24 | Page Fig 4: MDD CURVE FOR FLY ASH CBR- California Bearing Ratio The CBR of the soil with varying percentage of Fly Ash is given in table 5 and fig5 Table 5 CBR VALUES at 2.5mm deflection % Of Fly Ash CBR VALUE@ 2.5mm 0 2.08 3 1.56 5 1.51 6 3.75 9 2.13 Fig 5 CBR CURVE FOR FLY ASH Table 6: CBR VALUES at 5mm deflection % Of Fly Ash CBR VALUE@ 5mm 0 3.1 3 2.9 5 3.12 6 4.82 9 3.03 Fig 6. CBR CURVE FOR FLY ASH
  • 6. Soil Stabilization By Using Fly Ash www.iosrjournals.org 25 | Page Unconfined compression test The UCC of the soil with varying percentage of Fly Ash is given in table 7 and fig 7 Table7: UCC VALUES FOR FLY ASH % Of Fly Ash UCC (N/cm2) 0 3.881840 3 4.100000 5 4.440923 6 8.881850 9 4.885015 Fig 7. UCC CURVE FOR FLY ASH North Dakota value test The North Dakota of the soil with varying percentage of Fly Ash is given in table 9 and fig 9 Table8: NORTH DOKOTA VALUES FOR FLY ASH % of Fly Ash Bearing capacity (kg/mm2) 0 10.93 3 8.75 5 17.2 6 35.06 9 12.27 Fig 8. NORTH DOKOTA CURVE FOR FLY ASH III. Conclusions: Based on the data accumulated from above research following conclusions have been made.  The borrowed red soil has bearing capacity of 10 kg/mm2 .  The stabilized red soil with 6 percentage of Fly Ash achieves bearing capacity of 35kg/mm2  The CBR value of borrowed red soil is 3.1. From design curvein „A‟ type traffic, pavement thickness for corresflying soil is 12 inches.  CBR value of stabilized soil is 4.82. Pavement thickness corresflying to this value is8.5inches.
  • 7. Soil Stabilization By Using Fly Ash www.iosrjournals.org 26 | Page Acknowledgement The authors would like to express an acknowledgement to the Faculty of R.GOPINATH Head of Civil Engineering and management of jay shri ram groups of institutions tirupur, for providing the facilities such as the geotechnical laboratory and advanced geotechnical laboratory to accomplish this study. The author also wishes to acknowledge cooperation given by laboratory technician from Faculty of Civil Engineering, jay shri ram groups of instutions, tirupur to complete this study. References: [1]. Chen, F. H. (1988), “Foundations on expansive soils”, Chen & Associates, Elsevier Publications, U.S.A. [2]. Erdal Cokca (2001) “Use Of Class C Fly Ashes for the Stabilization – of an Expansive Soil” Journal of Geotechnical and Geo environmental Engineering Vol. 127, July, pp. 568-573. [3]. Eldon J. Yoder(1957), “Principles of Soil Stabilization”,JHRPPublicationIndiana. [4]. Pradip D. Jadhao and Nagarnaik, P.B (2008), Influence of Polypropylene Fibres on Engineering Behavior of Soil – Fly Ash Mixtures for Road Construction, Electronic Journal of Geotechnical Engineering, Vol. 13, Bund.C, pp. 1-11. [5]. 1.American Society for Testing and Materials, ASTM C618 (2008) Specification for Fly Ash and Raw or Calcined Natural Pozzolanic for Use as a Mineral Admixture in Portland Cement Concrete. Annual Book of ASTM Standards, ASTM, Philadelphia, USA.