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International Journal of Civil Engineering and CIVIL ENGINEERING AND6308 INTERNATIONAL JOURNAL OF Technology (IJCIET), ISSN 0976 – (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME TECHNOLOGY (IJCIET) ISSN 0976 – 6308 (Print) ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December, pp. 82-88 © IAEME: www.iaeme.com/ijciet.asp Journal Impact Factor (2013): 5.3277 (Calculated by GISI) www.jifactor.com IJCIET ©IAEME PERFORMANCE OF FLY-ASH INTERLOCKING BRICK R. K. Watile1, 1,2 S. K. Deshmukh2, D.W. Gawatre3 Department of Civil Engineering, C.O.E. &T., Akola (MS), India. 444104 3 Department of Civil Engineering, S.A.E., Pune (MS),411048 ABSTRACT Interlocking bricks are one of the alternatives for the conventional burnt clay brick. This paper gives the results of an experimental investigation in which the compressive strength, water absorption and density were investigated by using varying percentage of fly ash, stone dust, sand with different mix proportion. The experimental results compared with that ordinary brunt clay brick. The results indicate that these bricks are slighter higher in weight, durable in aggressive environments and have sufficient strength for their use in building construction. Key Words: Interlocking Bricks, Fly ash, Compressive Strength, Water Absorption, Density. 1. INTRODUCTION In a tropical country like India the burnt clay brick is the most basic building material for construction of houses. It is reported that the requirement of bricks for construction activity amounts to be more than 140 billion numbers annually [1]. The cost of dwellings of the residences is increasing due to several energy inputs in making building materials. However, the cost of energy input is very high and so it is reflected in the cost of bricks. Sometimes bricks manufactured in open kiln by using locally available soil don’t confirm to these requirements. It is, therefore, desirable to add some more ingredients to produce good quality bricks. The wasted materials like fly ash, lime, gypsum and few other material produce by industries are utilized for making bricks to reduce cost of construction. Much experimental research carried out for producing good quality brick with reduction of cost using industrial waste [2]. At present in India, about 206 coals based thermal power plants are producing about 160 million tons of fly ash every year [3]. With the increase in demand of power energy and coal being the major source of energy, more and more thermal power plants are expected to be commissioned in near future. The estimates prepared by Ministry of Power as well as Planning Commissions up to the year 2031-32 indicate that generation of fly ash during the year 2031-32 would be around 900 million tons per year [4]. The Government of India took policies 82
International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME initiative for utilization and disposal of fly ash [5]. This advocates the use of fly ash as the supplementary material to soil by reducing the consumption of soil in brick manufacturing towards efforts of maintaining ecological balance through sustainable development of natural resources. The dry stacked stabilized interlocking block masonry replaces the conventional burnt clay brick and mortar construction masonry. The use of interlocking bricks masonry has gained rapid popularity in many foreign countries as an alternative to conventional bricks for sustainable housing [6].Interlocking block masonry by Hydraform (or by others) is one such building system which almost full fills all such requirements of being a sustainable masonry [7-8]. As per IS code bricks are designated based on their average compressive strength [9-10]. Indian masonry design standard does not deal with dry interlocking block masonry, hence does not prescribe the design values for this masonry like basic compressive, tensile and shear stress However the same code recognizes some other types of masonry and recommends that a prism test of different masonry may be done and these values may be accepted for designing the masonry [11].After survey it was found that the interlocking bricks in central India made with locally available raw materials have the density around 25 to 30 kN/m3 & avg. comp. strength is 2-4 MPa. Due to this high weight & low compressive strength it is not possible to use this bricks in multistoried building. Density can be reducing with increase in compressive strength through experiment which may provide the best solution for such type of bricks. 2. EXPERIMENTAL PROGRAMME 2.1 Material For casting of interlocking bricks locally available raw materials like fly ash, stone dust, and sand were used. 2.1.1 Fly Ash The fly ash was collected in dry state and the chemical characteristics of the fly ash are given in Table 1. Table 1 Constituents Percentage Silica 69.1% SiO2 44.9% to 47.6% Al2O3 21.9% to 24.3% Fe2O3 2.1% to 3.5% CaO 0.85% to 1.2% MgO 0.20% to 0.60% Sulphur as SO3 1.2% Loss of ignition 3.4% 2.1.2 Fine Aggregate Sand i.e., fine aggregate obtained locally from nearest river passing through 4.75 IS sieve having fineness modulus (F.M)-2.61 and confirming to zone-III as per IS: 383-1970 [12] was clean and free from impurities. Its various physical properties are enlisted in Table 2. 83
International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME Table 2 Properties Value obtained Specific Gravity (%) 2.48 Water Absorption (%) 1.05 Bulking of Sand (%) 26.84% Free Moisture (%) 1.00% Bulk Density at Loose State (kg/m3) 1500 2.1.3 Stone dust In this present work powder form stone dust used in moderate quantity for preparing the bricks. Because of its finer size it is possible to retain proper shape of the bricks particularly maintaining the edges and corners. 2.1.4 Cement Ordinary Portland cement were used satisfying all the IS requirements was used in making the bricks [13]. 2.1.5 Water Ordinary tap water was used for both mixing the constituents of the bricks as well as for the curing of bricks. 2.2 Process operation 2.2.1 Casting of interlocking bricks For casting the Cement and other constituents were used randomly in varying proportions of 1:10, 1:11 and 1:12. In order to establish the feasibility of producing a binder that can impart adequate strength, three specimen bricks were casted for each mix proportions given in Table 3. A pan mixer and hydraulic machine used for casting the bricks. Before casting the bricks, mixer was properly cleaned. Cement and stone dust were added in dry state, mixed thoroughly and then clean potable water was added to get a mix of desired workability. The mix so prepared for the bricks was then poured in hydraulic machine and bricks were then taken out of it and kept over level surface under the shed for drying purpose. The blocks have geometric size of 230mmx100mmx75mm. This machine produces solid blocks of laterite composition mainly and stabilized with cement material. 2.2.2 Curing The green bricks were allowed for surface dry for one day. After gaining sufficient strength they were submerged in water for different ages. 2.2.3 Testing The casted bricks were taken out from water one day prior to the testing and were tested for compressive strength after 14, 28 and 90 days and water absorption test as per IS 1077-1957 Code. 84
International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME 2.2.3.1 Compressive Strength Test Procedure Compressive strength test should be done in compression testing machine. Blocks should be placed between the jaws and load should be applied gradually. Precaution should be taken such that load should be applied to the flanged portion of the blocks. For this cement mortar of proportion 1:3 are placed on top flange as well as at bed and gradual load is applied over the complete area till the failure occurs and not the maximum load at failure. The load at failure shall be the maximum load at which the specimen fails to produces any further increase is the indicator reading on compression testing machine. The test report shall be given below: Compressive strength = Maximum load at failure Avg. area at bed face The compressive strength of any individual block shall not fall below the minimum average compressive strength by more than 20% as per IS 1725-1982 [14]. 2.2.3.2 Water Absorption Test Bricks have pores in them. Due to porosity, the dry bricks when come into contact with water absorb water through these pores. Smaller the porosity; lesser is the absorption. Formula to calculate water absorbed by the bricks, using following formula: [(w2- w1) / w1] x100 2.2.3.3 Density After 90 days of casting, these bricks were dried to a constant mass in an oven at 105°. They were cooled to room temperature and their density was obtained by dividing the mass of a brick by its overall volume. The shrinkage of the bricks was not measured. It may be relevant to mention that the cracks were not visible on these bricks with naked eye after 90 days of casting. Ratio Mix Designation Table 3 Constituent materials (Percentage) 45 35 20 M2 55 25 20 60 20 20 M4 50 40 20 M5 55 35 20 M6 60 30 20 M7 1:12 Sand M3 1:11 Stone dust M1 1:10 Fly Ash 60 45 20 M8 65 40 20 M9 70 35 20 85
International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME 3. EXPERIMENTAL RESULTS AND DISCUSSIONS The experimental results are presented in Figs. 1 to 5. Figs. 1 to 3 show the compressive strength for mix ratio 1:10, 1:11, and 1:12 of bricks with increasing percentage of Fly ash and a constant sand content of 20 respectively. Fig 4 and Fig 5 shows the percentage of water absorption for mix proportions and density respectively for all mix proportion. Mix 1:11 10 Avg. Compressive Strength Avg. Compressive Strength Mix 1:10 8 6 4 14 Days 2 28 Days 0 90 Days 40 45 50 55 60 12 10 8 6 4 2 0 60 7 6 5 4 3 2 1 0 14 Days 28 Days 12 10 8 6 70 Mix 1:10 4 Mix 1:11 2 Mix 1:12 0 90 Days 75 40 45 50 55 60 65 70 75 Percentage of Fly Ash % Fly Ash Fig 3. Compressive Strength for Mix 1:12 Fig 4. Water absorption 25.5 Density kN per Cub.M. 65 14 % Water Absorption Avg. Compressive Strength 55 Fig 2. Compressive Strength for Mix 1:11 Mix 1:12 65 90 Days 50 Percentage of Fly Ash Fig 1. Compressive Strength for Mix 1:10 60 28 Days 45 Percentage of Fly Ash 55 14 Days 25 24.5 24 23.5 Mix 1:10 23 Mix 1:11 22.5 Mix 1:12 22 21.5 40 45 50 55 60 65 70 % Fly Ash Fig 5. Density 86 75
International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME Figs. 1, 2 shows that the compressive strength of interlocking brick initially increases with the increase in fly ash content but fig.3 after attaining a maximum value it start decreasing with the further addition of fly ash. Fig 4 shows the water absorption of interlocking bricks. It is observed that in general, the water absorption of bricks increases with the increase in fly ash content replacing stone dust. On comparing interlocking bricks with ordinary burnt clay bricks it is observed that water absorption of interlocking bricks in the present investigation was obtained in between 6.42 to 12.4 percent whereas the water absorption of ordinary bricks shall not be more than 20 percent by weight. Density of interlocking bricks is shown in Fig. 5. It is observed that the water absorption and density are closely related to each other. The density of interlocking bricks was found to be 7.5 to 25 percent higher than that of the ordinary burnt clay bricks. 4. CONCLUSIONS Based on the experimental investigation reported in this paper, following conclusions are drawn: 1. 2. 3. 4. Strength of interlocking bricks with increasing fly ash increases with the age. All mix proportions gives satisfactory higher values of compressive strength. At some mix ratio 1:11 gives the higher compressive strength greater than 10 N/mm2. Interlocking bricks with cheaply available fly ash in large proportion have sufficient strength for their use in low cost housing, non-load bearing construction and in regions where good quality burnt clay bricks are not available. 5. Water absorption of interlocking bricks is found to be in the range of 6.42 to 12.4 percent, whereas the water absorption for ordinary burnt clay bricks should not be more than 20 percent. The water absorption of interlocking bricks increases with the increased fly ash content. 6. The density of interlocking bricks was found to be 7.5 to 25 percent higher than that of the ordinary burnt clay bricks. Interlocking bricks require no skilled labour and can be moulded in any shape and size depending on the requirements. These bricks have better tolerances and no efflorescence as compared to conventional bricks. A number of other benefits also be ascribed for the prospect of interlocking bricks which includes no consumption of mortars, better efficiency in laying and low cost of finishing. It is further needed to develop the awareness among users, professionals and financial supporters for using these waste materials for solving the housing problems in addition to balance economy and achieve energy conservation. For reducing the density of bricks more experimentation requires with different wasted material for considering economy and use for multistoried building. 5. REFERENCES 1. 2. 3. 4. Model Project Report, Punjab State Council for Science & Technology, June 2010. Aeslina Abdul Kadir, Abbas Mohajerani, “Brick: An Excellent Building Material For Recycling Wastes- A Review”, International Conference On Environmental Management And Engineering (EME 2011), July2011, Canada A.K. Jain, “Fly Ash Utilization in Indian Cement Industry: Current Status and Future Prospects”, Indian Concrete Institute, An Electronic Bulletin, Vol. 2, Issue 2, Feb.2011. R&D Proposals, Department of Science & Technology, Ministry of Science & Technology, Government of India, December, 2012. 87
International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. Sharda Dhadse, Pramila Kumari, L.J.Bhagia, “Fly Ash Characterization, Utilization And Government Initiatives In India- A Review”, Journal Of Scientific And Industrial Research, Vol. 67, January 2008, Pp.11-18 Simion Hosea Kintingu, Design Of Interlocking Bricks For Enhanced Wall Construction Flexibility, Alignment Accuracy And Load Bearing, Ph.D. Thesis, The University of Warwick, School of Engineering, May 2009 Bansal Deepak, Interlocking dry stacked masonry, 8th International Masonry Conference 2010 in Dresden. Y. M. D. Adedeji and G. Fa, “Sustainable housing provision: preference for the use of interlocking masonry in housing delivery in Nigeria”, Journal of Environmental Research and Management Vol. 3(1). pp. 009-016, January, 2012. BIS, Common Burnt Clay Building Bricks- Specification: Fifth Revision IS 1077:1992. BIS, Burnt Clay Fly Ash Building Bricks Specification, I.S. Code 13757:1993. BIS, Code Of Practice For Structural Use Of Unreinforced Masonry, Third Revision IS 1905:1987 BIS, Specification For Coarse And Fine Aggregates From Natural Sources For Concrete: Second Revision IS: 383:1970. BIS, Specification for 53 Grade Ordinary Portland cement IS: 12269 -1987. BIS, Specification For Soil Based Blocks Used In General Construction: Fifth Revision IS 1725-1982. P.A. Ganeshwaran, Suji and S. Deepashri, “Evaluation of Mechanical Properties of Self Compacting Concrete with Manufactured Sand and Fly Ash” International Journal of Civil Engineering & Technology (IJCIET), Volume 3, Issue 2, 2012, pp. 60 - 69, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. Ghassan Subhi Jameel, “Study the Effect of Addition of Wast Plastic on Compressive and Tensile Strengths of Structural Lightweight Concrete Containing Broken Bricks as Acoarse Aggregate”, International Journal of Civil Engineering & Technology (IJCIET), Volume 4, Issue 2, 2013, pp. 415 - 432, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. Rushabh A. Shah And Jayeshkumar R. Pitroda, “Assessment of Sorptivity and Water Absorption of Mortar with Partial Replacement of Cement by Fly Ash (Class-F)”, International Journal of Civil Engineering & Technology (IJCIET), Volume 4, Issue 5, 2013, pp. 15 - 21, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. Nagendra Prasad.K, Manohara Reddy.R, Chandra.B and Harsha Vardhan Reddy.M, “Compression Behaviour of Natural Soils”, International Journal of Civil Engineering & Technology (IJCIET), Volume 4, Issue 3, 2013, pp. 80 - 91, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. C.Freeda Christy, R.Mercy Shanthi and D.Tensing, “Bond Strength of the Brick Masonry”, International Journal of Civil Engineering & Technology (IJCIET), Volume 3, Issue 2, 2012, pp. 380 - 386, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. S.K.Agrawal, R.K.Watile, P.V.Mohata and S.C.Makwana, “Utilization of Textile Apparel Waste in Clay Brick”, International Journal of Advanced Research in Engineering & Technology (IJARET), Volume 4, Issue 7, 2013, pp. 48 - 52, ISSN Print: 0976-6480, ISSN Online: 0976-6499. 88

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  • 1. International Journal of Civil Engineering and CIVIL ENGINEERING AND6308 INTERNATIONAL JOURNAL OF Technology (IJCIET), ISSN 0976 – (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME TECHNOLOGY (IJCIET) ISSN 0976 – 6308 (Print) ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December, pp. 82-88 © IAEME: www.iaeme.com/ijciet.asp Journal Impact Factor (2013): 5.3277 (Calculated by GISI) www.jifactor.com IJCIET ©IAEME PERFORMANCE OF FLY-ASH INTERLOCKING BRICK R. K. Watile1, 1,2 S. K. Deshmukh2, D.W. Gawatre3 Department of Civil Engineering, C.O.E. &T., Akola (MS), India. 444104 3 Department of Civil Engineering, S.A.E., Pune (MS),411048 ABSTRACT Interlocking bricks are one of the alternatives for the conventional burnt clay brick. This paper gives the results of an experimental investigation in which the compressive strength, water absorption and density were investigated by using varying percentage of fly ash, stone dust, sand with different mix proportion. The experimental results compared with that ordinary brunt clay brick. The results indicate that these bricks are slighter higher in weight, durable in aggressive environments and have sufficient strength for their use in building construction. Key Words: Interlocking Bricks, Fly ash, Compressive Strength, Water Absorption, Density. 1. INTRODUCTION In a tropical country like India the burnt clay brick is the most basic building material for construction of houses. It is reported that the requirement of bricks for construction activity amounts to be more than 140 billion numbers annually [1]. The cost of dwellings of the residences is increasing due to several energy inputs in making building materials. However, the cost of energy input is very high and so it is reflected in the cost of bricks. Sometimes bricks manufactured in open kiln by using locally available soil don’t confirm to these requirements. It is, therefore, desirable to add some more ingredients to produce good quality bricks. The wasted materials like fly ash, lime, gypsum and few other material produce by industries are utilized for making bricks to reduce cost of construction. Much experimental research carried out for producing good quality brick with reduction of cost using industrial waste [2]. At present in India, about 206 coals based thermal power plants are producing about 160 million tons of fly ash every year [3]. With the increase in demand of power energy and coal being the major source of energy, more and more thermal power plants are expected to be commissioned in near future. The estimates prepared by Ministry of Power as well as Planning Commissions up to the year 2031-32 indicate that generation of fly ash during the year 2031-32 would be around 900 million tons per year [4]. The Government of India took policies 82
  • 2. International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME initiative for utilization and disposal of fly ash [5]. This advocates the use of fly ash as the supplementary material to soil by reducing the consumption of soil in brick manufacturing towards efforts of maintaining ecological balance through sustainable development of natural resources. The dry stacked stabilized interlocking block masonry replaces the conventional burnt clay brick and mortar construction masonry. The use of interlocking bricks masonry has gained rapid popularity in many foreign countries as an alternative to conventional bricks for sustainable housing [6].Interlocking block masonry by Hydraform (or by others) is one such building system which almost full fills all such requirements of being a sustainable masonry [7-8]. As per IS code bricks are designated based on their average compressive strength [9-10]. Indian masonry design standard does not deal with dry interlocking block masonry, hence does not prescribe the design values for this masonry like basic compressive, tensile and shear stress However the same code recognizes some other types of masonry and recommends that a prism test of different masonry may be done and these values may be accepted for designing the masonry [11].After survey it was found that the interlocking bricks in central India made with locally available raw materials have the density around 25 to 30 kN/m3 & avg. comp. strength is 2-4 MPa. Due to this high weight & low compressive strength it is not possible to use this bricks in multistoried building. Density can be reducing with increase in compressive strength through experiment which may provide the best solution for such type of bricks. 2. EXPERIMENTAL PROGRAMME 2.1 Material For casting of interlocking bricks locally available raw materials like fly ash, stone dust, and sand were used. 2.1.1 Fly Ash The fly ash was collected in dry state and the chemical characteristics of the fly ash are given in Table 1. Table 1 Constituents Percentage Silica 69.1% SiO2 44.9% to 47.6% Al2O3 21.9% to 24.3% Fe2O3 2.1% to 3.5% CaO 0.85% to 1.2% MgO 0.20% to 0.60% Sulphur as SO3 1.2% Loss of ignition 3.4% 2.1.2 Fine Aggregate Sand i.e., fine aggregate obtained locally from nearest river passing through 4.75 IS sieve having fineness modulus (F.M)-2.61 and confirming to zone-III as per IS: 383-1970 [12] was clean and free from impurities. Its various physical properties are enlisted in Table 2. 83
  • 3. International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME Table 2 Properties Value obtained Specific Gravity (%) 2.48 Water Absorption (%) 1.05 Bulking of Sand (%) 26.84% Free Moisture (%) 1.00% Bulk Density at Loose State (kg/m3) 1500 2.1.3 Stone dust In this present work powder form stone dust used in moderate quantity for preparing the bricks. Because of its finer size it is possible to retain proper shape of the bricks particularly maintaining the edges and corners. 2.1.4 Cement Ordinary Portland cement were used satisfying all the IS requirements was used in making the bricks [13]. 2.1.5 Water Ordinary tap water was used for both mixing the constituents of the bricks as well as for the curing of bricks. 2.2 Process operation 2.2.1 Casting of interlocking bricks For casting the Cement and other constituents were used randomly in varying proportions of 1:10, 1:11 and 1:12. In order to establish the feasibility of producing a binder that can impart adequate strength, three specimen bricks were casted for each mix proportions given in Table 3. A pan mixer and hydraulic machine used for casting the bricks. Before casting the bricks, mixer was properly cleaned. Cement and stone dust were added in dry state, mixed thoroughly and then clean potable water was added to get a mix of desired workability. The mix so prepared for the bricks was then poured in hydraulic machine and bricks were then taken out of it and kept over level surface under the shed for drying purpose. The blocks have geometric size of 230mmx100mmx75mm. This machine produces solid blocks of laterite composition mainly and stabilized with cement material. 2.2.2 Curing The green bricks were allowed for surface dry for one day. After gaining sufficient strength they were submerged in water for different ages. 2.2.3 Testing The casted bricks were taken out from water one day prior to the testing and were tested for compressive strength after 14, 28 and 90 days and water absorption test as per IS 1077-1957 Code. 84
  • 4. International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME 2.2.3.1 Compressive Strength Test Procedure Compressive strength test should be done in compression testing machine. Blocks should be placed between the jaws and load should be applied gradually. Precaution should be taken such that load should be applied to the flanged portion of the blocks. For this cement mortar of proportion 1:3 are placed on top flange as well as at bed and gradual load is applied over the complete area till the failure occurs and not the maximum load at failure. The load at failure shall be the maximum load at which the specimen fails to produces any further increase is the indicator reading on compression testing machine. The test report shall be given below: Compressive strength = Maximum load at failure Avg. area at bed face The compressive strength of any individual block shall not fall below the minimum average compressive strength by more than 20% as per IS 1725-1982 [14]. 2.2.3.2 Water Absorption Test Bricks have pores in them. Due to porosity, the dry bricks when come into contact with water absorb water through these pores. Smaller the porosity; lesser is the absorption. Formula to calculate water absorbed by the bricks, using following formula: [(w2- w1) / w1] x100 2.2.3.3 Density After 90 days of casting, these bricks were dried to a constant mass in an oven at 105°. They were cooled to room temperature and their density was obtained by dividing the mass of a brick by its overall volume. The shrinkage of the bricks was not measured. It may be relevant to mention that the cracks were not visible on these bricks with naked eye after 90 days of casting. Ratio Mix Designation Table 3 Constituent materials (Percentage) 45 35 20 M2 55 25 20 60 20 20 M4 50 40 20 M5 55 35 20 M6 60 30 20 M7 1:12 Sand M3 1:11 Stone dust M1 1:10 Fly Ash 60 45 20 M8 65 40 20 M9 70 35 20 85
  • 5. International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME 3. EXPERIMENTAL RESULTS AND DISCUSSIONS The experimental results are presented in Figs. 1 to 5. Figs. 1 to 3 show the compressive strength for mix ratio 1:10, 1:11, and 1:12 of bricks with increasing percentage of Fly ash and a constant sand content of 20 respectively. Fig 4 and Fig 5 shows the percentage of water absorption for mix proportions and density respectively for all mix proportion. Mix 1:11 10 Avg. Compressive Strength Avg. Compressive Strength Mix 1:10 8 6 4 14 Days 2 28 Days 0 90 Days 40 45 50 55 60 12 10 8 6 4 2 0 60 7 6 5 4 3 2 1 0 14 Days 28 Days 12 10 8 6 70 Mix 1:10 4 Mix 1:11 2 Mix 1:12 0 90 Days 75 40 45 50 55 60 65 70 75 Percentage of Fly Ash % Fly Ash Fig 3. Compressive Strength for Mix 1:12 Fig 4. Water absorption 25.5 Density kN per Cub.M. 65 14 % Water Absorption Avg. Compressive Strength 55 Fig 2. Compressive Strength for Mix 1:11 Mix 1:12 65 90 Days 50 Percentage of Fly Ash Fig 1. Compressive Strength for Mix 1:10 60 28 Days 45 Percentage of Fly Ash 55 14 Days 25 24.5 24 23.5 Mix 1:10 23 Mix 1:11 22.5 Mix 1:12 22 21.5 40 45 50 55 60 65 70 % Fly Ash Fig 5. Density 86 75
  • 6. International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME Figs. 1, 2 shows that the compressive strength of interlocking brick initially increases with the increase in fly ash content but fig.3 after attaining a maximum value it start decreasing with the further addition of fly ash. Fig 4 shows the water absorption of interlocking bricks. It is observed that in general, the water absorption of bricks increases with the increase in fly ash content replacing stone dust. On comparing interlocking bricks with ordinary burnt clay bricks it is observed that water absorption of interlocking bricks in the present investigation was obtained in between 6.42 to 12.4 percent whereas the water absorption of ordinary bricks shall not be more than 20 percent by weight. Density of interlocking bricks is shown in Fig. 5. It is observed that the water absorption and density are closely related to each other. The density of interlocking bricks was found to be 7.5 to 25 percent higher than that of the ordinary burnt clay bricks. 4. CONCLUSIONS Based on the experimental investigation reported in this paper, following conclusions are drawn: 1. 2. 3. 4. Strength of interlocking bricks with increasing fly ash increases with the age. All mix proportions gives satisfactory higher values of compressive strength. At some mix ratio 1:11 gives the higher compressive strength greater than 10 N/mm2. Interlocking bricks with cheaply available fly ash in large proportion have sufficient strength for their use in low cost housing, non-load bearing construction and in regions where good quality burnt clay bricks are not available. 5. Water absorption of interlocking bricks is found to be in the range of 6.42 to 12.4 percent, whereas the water absorption for ordinary burnt clay bricks should not be more than 20 percent. The water absorption of interlocking bricks increases with the increased fly ash content. 6. The density of interlocking bricks was found to be 7.5 to 25 percent higher than that of the ordinary burnt clay bricks. Interlocking bricks require no skilled labour and can be moulded in any shape and size depending on the requirements. These bricks have better tolerances and no efflorescence as compared to conventional bricks. A number of other benefits also be ascribed for the prospect of interlocking bricks which includes no consumption of mortars, better efficiency in laying and low cost of finishing. It is further needed to develop the awareness among users, professionals and financial supporters for using these waste materials for solving the housing problems in addition to balance economy and achieve energy conservation. For reducing the density of bricks more experimentation requires with different wasted material for considering economy and use for multistoried building. 5. REFERENCES 1. 2. 3. 4. Model Project Report, Punjab State Council for Science & Technology, June 2010. Aeslina Abdul Kadir, Abbas Mohajerani, “Brick: An Excellent Building Material For Recycling Wastes- A Review”, International Conference On Environmental Management And Engineering (EME 2011), July2011, Canada A.K. Jain, “Fly Ash Utilization in Indian Cement Industry: Current Status and Future Prospects”, Indian Concrete Institute, An Electronic Bulletin, Vol. 2, Issue 2, Feb.2011. R&D Proposals, Department of Science & Technology, Ministry of Science & Technology, Government of India, December, 2012. 87
  • 7. International Journal of Civil Engineering and Technology (IJCIET), ISSN 0976 – 6308 (Print), ISSN 0976 – 6316(Online) Volume 4, Issue 6, November – December (2013), © IAEME 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. Sharda Dhadse, Pramila Kumari, L.J.Bhagia, “Fly Ash Characterization, Utilization And Government Initiatives In India- A Review”, Journal Of Scientific And Industrial Research, Vol. 67, January 2008, Pp.11-18 Simion Hosea Kintingu, Design Of Interlocking Bricks For Enhanced Wall Construction Flexibility, Alignment Accuracy And Load Bearing, Ph.D. Thesis, The University of Warwick, School of Engineering, May 2009 Bansal Deepak, Interlocking dry stacked masonry, 8th International Masonry Conference 2010 in Dresden. Y. M. D. Adedeji and G. Fa, “Sustainable housing provision: preference for the use of interlocking masonry in housing delivery in Nigeria”, Journal of Environmental Research and Management Vol. 3(1). pp. 009-016, January, 2012. BIS, Common Burnt Clay Building Bricks- Specification: Fifth Revision IS 1077:1992. BIS, Burnt Clay Fly Ash Building Bricks Specification, I.S. Code 13757:1993. BIS, Code Of Practice For Structural Use Of Unreinforced Masonry, Third Revision IS 1905:1987 BIS, Specification For Coarse And Fine Aggregates From Natural Sources For Concrete: Second Revision IS: 383:1970. BIS, Specification for 53 Grade Ordinary Portland cement IS: 12269 -1987. BIS, Specification For Soil Based Blocks Used In General Construction: Fifth Revision IS 1725-1982. P.A. Ganeshwaran, Suji and S. Deepashri, “Evaluation of Mechanical Properties of Self Compacting Concrete with Manufactured Sand and Fly Ash” International Journal of Civil Engineering & Technology (IJCIET), Volume 3, Issue 2, 2012, pp. 60 - 69, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. Ghassan Subhi Jameel, “Study the Effect of Addition of Wast Plastic on Compressive and Tensile Strengths of Structural Lightweight Concrete Containing Broken Bricks as Acoarse Aggregate”, International Journal of Civil Engineering & Technology (IJCIET), Volume 4, Issue 2, 2013, pp. 415 - 432, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. Rushabh A. Shah And Jayeshkumar R. Pitroda, “Assessment of Sorptivity and Water Absorption of Mortar with Partial Replacement of Cement by Fly Ash (Class-F)”, International Journal of Civil Engineering & Technology (IJCIET), Volume 4, Issue 5, 2013, pp. 15 - 21, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. Nagendra Prasad.K, Manohara Reddy.R, Chandra.B and Harsha Vardhan Reddy.M, “Compression Behaviour of Natural Soils”, International Journal of Civil Engineering & Technology (IJCIET), Volume 4, Issue 3, 2013, pp. 80 - 91, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. C.Freeda Christy, R.Mercy Shanthi and D.Tensing, “Bond Strength of the Brick Masonry”, International Journal of Civil Engineering & Technology (IJCIET), Volume 3, Issue 2, 2012, pp. 380 - 386, ISSN Print: 0976 – 6308, ISSN Online: 0976 – 6316. S.K.Agrawal, R.K.Watile, P.V.Mohata and S.C.Makwana, “Utilization of Textile Apparel Waste in Clay Brick”, International Journal of Advanced Research in Engineering & Technology (IJARET), Volume 4, Issue 7, 2013, pp. 48 - 52, ISSN Print: 0976-6480, ISSN Online: 0976-6499. 88