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VISVESVARAYA TECHNOLOGICAL UNIVERSITY BELAGUM – 590018, KARNATAKA, INDIA C BYREGOWDA INSTITUTE OF TECHNOLOGY KOLAR -563101 KARNATAKA INDIA
DEPARTEMENT OF CIVIL ENGINEERING PROJECT PHASE 2: LABORATORY STUDY ON THE LIGHT WEIGHT CONCRETE BY PARTIAL REPLACEMENT OF COARSE AGGREGATES WITH CINDERS UNDER THE GUIDENCE OF: Er. BHARGAVA G Assistant Professor Department of civil Engineering PRESENTED BY: PAVITHRA R 1CK17CV050 NIVETHA RAJ B 1CK17CV048 NARAYANASWAMY K V 1CK18CV409 SHASHIDHARA T V : 1CK17CV060
LIGHT WEIGHT CONCRETE
 CONTENTS:  ABSTRACT  INTRODUCTION  OBJECTIVES  LITERATURE REVIEW  MATERIALS USED  METHODOLOGY  CONCLUSION  REFERENCE
 ABSTRACT:  With the advent of Industrial development and mass constructions in various parts of the world, the pollution levels as well as scarcity of construction materials have reached the peak level.  The main specialties of lightweight concrete are its low density and thermal conductivity.  Based on the literature, the main function for usage cinder material is to minimize the cost and it is reduced to disposal of waste material and it helps in reduction of dead load.  In the present study, an attempt has been made to replace both coarse and fine aggregate by lighter weight material to achieve concrete of lighter density.
 Light weight concrete has a lower Density and Higher porosity than normal concrete
 INTRODUCTION:  Light Weight Concrete is a Special Concrete Which Weighs Lighter than Conventional Concrete.  The strength of light weight concrete is generally less than conventional concrete and cannot be adopted for heavy load bearing work.  The advantages of lightweight concrete are its reduced mass and improved thermal and sound insulation properties, while maintaining adequate strength.  Density of conventional concrete varies from 2400-2500 Kg/m3. But the density of light weight concrete is in between 300-1900 Kg/m3
 OBJECTIVES:  To Conduct the Basic Test on Material of Concrete i.e. Cement, Fine Aggregate, Coarse Aggregate, Cinders,  To Mix Design M30 Grade Concrete as per code 10262:2019.  To Conduct Laboratory Test on Mechanical Properties of Light Weight Concrete (LWC) i.e. Compression test.  To analyze cost comparison between light weight concrete and conventional concrete.
 LITERATURE REVIEW:  Dr. V. Bhaskar Desai and Mr. A. Sathyam replaced the normal aggregate by cinder in 0, 25, 50, 75 and 100%. The various test results showed that compression, split tensile as well as flexural strength decrease continuously with increase in cinder content. However, up to 70 % replacement, the values were within the acceptable strength limits. N. Sivalinga Rao et. al explained the necessity of trial mixes in light weight concrete in the absence of accurate data of water absorption, moisture content etc. Their investigation projected 10% as optimum replacement of silica fume for cement with 40% cinder and 60 % natural aggregates. In addition to this it is also noted that there is a slight increase in the strength of based on the during period extension and the unit weight of the cinder concrete is varying from 1980 to 2000 Kg/m³ Further more it is also Noted That there is a Decrease in Density After Extended Curing Periods.
• P.S. Raghuprasad et al., as studied the coarse aggregates in the conventional solid concrete blocks were replaced partially with Cinder (12mm) and tested for compressive strength at the age of 3days, 7days and 21days. From the results of the investigation, it can be concluded that solid concrete block with 15% replacement of coarse aggregate by cinder records more strength than the conventional one. • Owens, P.L. et al., had stated that Light weight aggregate concrete was used for structural purposes since the 20th century. As per this study, the Light weight aggregate concrete is a material with low unit weight and often made with spherical aggregates. The density of structural Light weight aggregate concrete typically ranges from 1400 to 2000 kg/m³ compared with that of about 2400 kg/m³for normal weight aggregate concrete.
 MATERIALS USED:  Cement : 53 grade Ordinary Portland Cement  Blenders : Cinders,  Fine Aggregates : Manufactured sand  Coarse Aggregate : 20mm down size +12.5mm down size  Water : potable water
CINDERS:  Cinder is the material comes under the category light weight aggregate and it is a by product of steel, iron manufacturing industries.  Properties of cinders  Cinder aggregates possess high porosity and low density.  It is having high thermal insulation property.  It is having good fire resistant property.  It has good binding property with cement.
 METHODOLOGY:  The raw materials are firstly cleaned such that it should be free from impurities and then they are subjected to the Basic Tests Conducted on materials.  Tests on cement: Finess test, Consistency test, Setting time test, Soundness test, Specific Gravity.  Coarse Aggregate & Cinders: Crushing test, Abrasion test , Impact test, Shape test ( Flakiness, Index , Elongation Index, Angularity Number) Specific Gravity, Sieve Analysis, water Absorption.  Fine Aggregate & Saw Dust: Sieve Analysis, Bulcking of Sand, Specific Gravity.  Based on the appropriate water cement ratio the Mix Designs are obtained for M30 grade concrete as per the code IS 10262:2019 .For the obtained mix design the lightweight aggregates such as Cinder are partially replaced in place of conventional aggregates with various percentages.
CEMENT: (OPC 53 GRADE, IS 12269-1987) • OPC 53 grade cement as per IS 12269-1987 is used from mangala traders in hulimavu, Bangalore are used with a designed strength for 28 days being a minimum of 53Mpa or 530 kg/sq-cm. 53 grade opc provides high strength and durability to structure because of its optimum particle size distribution super crystallized structure. • TEST CONDUCTED AND OBTAINED RESULTS WITH THEIR STANDARD RESULTS OF CEMENT: (TABLE -1) TEST ON CEMENT OBTAINE D RESULTS STANDARD VALUE AS Per IS 8112:2013 1) specific gravity of the cement 3.142 <3.16 2) standard consistency of the cement 30% of water content 31%-34% 3) Initial setting time of cement 50 minutes >30 minutes
COARSE AGGREGATE : (20MM DOWN SIZE, IS 383-1970) The locally available crushed angular aggregate obtained from HMT layout Bangalore, Karnataka are used. Coarse aggregate of maximum size 20mm is used as coarse aggregate. The tests have been carried out as per the procedure given in IS 383-1970. all in aggregates. TEST CONDUCTED AND OBTAINED RESULTS OF COARSE AGGREGATE WITH THEIR STANDARD VALUES:(TABLE-2) TEST CONDUCTED ON COARSE AGGREGATE OBTAINED RESULTS STANDARD VALUE (IS 383:1970) 1) Fineness modulus 6.082% <10% 2) Specific gravity 2.65 2.5-3.0 3) Water absorption 0.4% <2% 4) Bulk density •Compact BD = 1.64gm/cm3 •Loose BD= 1.43gm/cm3 1.20-1.75 gm/cm3
FINE AGGREGATE : (M SAND, IS 383-1970) • The M sand is obtained from the HMT layout mallathahalli Bangalore, Karnataka . • This is mainly crushed fine aggregate produced from a hard granite stones by crushing. • The tests have been carried out as per the procedure given in IS 383-1970 table-3 • Well graded sand passing through 4.75mm was used as fine aggregate. TEST CONDUCTED ON FINE AGGREGATE OBTAINED RESULTS STANDARD VALUE (IS 383:1970) 1) Fineness modulus 3.57 <4.75 2) Specific gravity 2.63 <2.68 3) Bulk density • Compact BD = 1.50gm/cm3 • Loose BD = 1.33gm/cm3 1.20-1.75 gm/cm3
CINDERS  CINDERS of 20 mm down size Aggregate used. The tests have been carried out as per the procedure given in IS 383-1970. All in aggregates(Table-2).  TEST CONDUCTED AND OBTAINED RESULTS OF CINDERS AGGREGATE WITH THEIR STANDARD VALUES: Sl No Name of the Test values obtained 1 specific gravity 1.60 2 Fineness modules 5.776% 3 Water absorption 9.62%
CALCULATION OF MATERIALS FOR CASTING • Volume of cube: = Length x Breadth x Depth = 0.15 x 0.15 x 0.15 = 3.375 x 10-3 m3 • Volume of concrete required for 7 and 28 days ( 36 cubes) = (3.375 x 10-3 x 36) = 0.1215 m3 • Weight of concrete = volume of concrete x density of concrete = 0.1215 x 2400 = 291.6 kg • Taking 20% extra = (20/100 x 291.6) + 291.6 =349.9 kg • For proportion: 1: 0.75: 1.5 (M30) • Weight of cement = (1/ (1+0.75+1.5)) x 349.9 =107.66 kg • Weight of sand = 80.74 kg • Weight of coarse aggregate =161.50 kg • Water =w/c *cement • =0.45*107.66 =48.4 liters
VARIOUS MATERIALS REQUIRED FOR DIFFERENT % OF CINDERS REPLACEMENT WITH C.A  Mean target strength = 38.25 N/mm^2  w/c ratio =0.45 table: % of materials  Percentag es of cinders Cement in kg Fine aggregate in kg Coarse aggregate in kg Cinders in kg Water in lts 0% 107.67 80.75 161.50 0 48.4 20% 107.67 80.75 129.2 32.3 48.4 40% 107.67 80.75 96.9 64.6 48.4 60% 107.67 80.75 64.6 96.9 48.4 80% 107.67 80.75 32.3 129.2 48.4 100% 107.67 80.75 0 161.50 48.4
 Mix Preparation:-  The batching of all the ingredients was performed by weight.  The sand was air dried in the laboratory before mixing.  First the surface was damped with water then all the aggregates (Natural Coarse Aggregate, Fine Aggregate and cinders Aggregate) were spread on the surface area till the aggregates. After thorough mixing of aggregates cement was introduced on the ground surface and water were added slowly as per W/C ratio.  The concrete was mixed for approximately three minutes after the water was added. 20 PREPARATION, CASTING OF LIGHT WEIGHT CONCRETE:-
CASTING OF CONCRETE CUBES  Before casting cubes should be apply oil to inner surface of cube  Concrete is filled in cube By layer by layer.  Each layer compacted with 25 blows with tamping rod. 21
TEST ON FRESH CONCRETE (SLUMP TEST)  It is the most commonly used method to measure the consistency of concrete, which can be employed at site of work or laboratory.  It is not suitable method for very wet or very dry concrete.  The slump value is calculated by the difference between the height of the mould and the height of the container thoroughly after using.  If the pile topples sideways it indicates that the materials have not been uniformly distributed in the mould and test should be remade.
 TO DETERMINE MECHANICAL PROPERTIES OF LIGHT WEIGHT CONCRETE A. Test on fresh concrete:  slump test B. Test on hardened concrete:  Compression strength test: The cubes of 150x150x150mm are casted by varying the proportions of cinders M30 grade concrete mixes. The results obtained are tabulated for the curing period of 7 days,14 days, 28 days.  Compression test is carried out on various % of cubes. • Compressive strength=fc=ultimate load/cross sectional area  fc =P/A. • A=b*D in mm2 • Fc in Mpa • P in N  compressive strength for M30 is 32.86 for 28 days curing period and 7 days curing period compressive strength is 24.16
RESULTS Slump Test(mm)
 Compressive strength of concrete N/mm2
 COST ANALYSIS :  Cost Estimation Between Conventional Concrete and Light Weight Concrete is Carry Out.  As The Cinders Usually Obtained From Industrial Waste By- product they are cheaper than the normal aggregates used in conventional concrete Hence Light Weight Concrete would be quite Economical.  To Realize the low cost construction we have to implement light weight concrete first.  Due to lower handling, transportation and construction cost, the light weight concrete s ideally suited for the production of pre cast concrete elements and prefabricated concrete.
CONCLUSION  The cinder aggregates is no way inferior with the natural aggregates.  With 40% replacement of cinder and 60% of coarse aggregates the highest slump value is found .  The compressive strength of the concrete is more when 50% replacement of cinder and 50% of coarse aggregates.  Therefore with 40%replacement of cinder and 60% of coarse aggregate the better workability are obtained for the concrete mix.
 REFERANCES: 1. Dr.V.Bhaskar Desai , A.Satyam,’Some studies on strength properties of Light weight cinder aggregate concrete’, “volume 4 issue 2, feb 2014. 2. P.S.Raghuprasad, R.satish “Experimental investigations on solid concrete blocks with partial replacement of coarse aggregate with cinder aggregate”. 3. N.Siva lingaRao , V.Bhaskar Desai “Properties of light weight concrete with cinder and silica fume” , International journal of earth sciences and Engineering , vol 4, No.6, October 2011. 4. A text book of “concrete Technology” by M.S.Setty.
 CODES OF PRACTICE: 1. " Indian Standard Code of Practice for Plain and Reinforced concrete”, IS 456-2000, fourth revise, BIS, New Delhi. 2. " Indian Standard Methods of tests for aggregates” IS 2386- 1963, BIS , New Delhi. 3. -“Recommended guidelines for concrete mix design, ", IS10262-2019 BIS, New Delhi. 4. ” Handbook on concrete mixes, SP 23-1982, BIS, New Delhi.
Lightweight Concrete Title

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Lightweight Concrete Title

  • 1. VISVESVARAYA TECHNOLOGICAL UNIVERSITY BELAGUM – 590018, KARNATAKA, INDIA C BYREGOWDA INSTITUTE OF TECHNOLOGY KOLAR -563101 KARNATAKA INDIA
  • 2. DEPARTEMENT OF CIVIL ENGINEERING PROJECT PHASE 2: LABORATORY STUDY ON THE LIGHT WEIGHT CONCRETE BY PARTIAL REPLACEMENT OF COARSE AGGREGATES WITH CINDERS UNDER THE GUIDENCE OF: Er. BHARGAVA G Assistant Professor Department of civil Engineering PRESENTED BY: PAVITHRA R 1CK17CV050 NIVETHA RAJ B 1CK17CV048 NARAYANASWAMY K V 1CK18CV409 SHASHIDHARA T V : 1CK17CV060
  • 4.  CONTENTS:  ABSTRACT  INTRODUCTION  OBJECTIVES  LITERATURE REVIEW  MATERIALS USED  METHODOLOGY  CONCLUSION  REFERENCE
  • 5.  ABSTRACT:  With the advent of Industrial development and mass constructions in various parts of the world, the pollution levels as well as scarcity of construction materials have reached the peak level.  The main specialties of lightweight concrete are its low density and thermal conductivity.  Based on the literature, the main function for usage cinder material is to minimize the cost and it is reduced to disposal of waste material and it helps in reduction of dead load.  In the present study, an attempt has been made to replace both coarse and fine aggregate by lighter weight material to achieve concrete of lighter density.
  • 6.  Light weight concrete has a lower Density and Higher porosity than normal concrete
  • 7.  INTRODUCTION:  Light Weight Concrete is a Special Concrete Which Weighs Lighter than Conventional Concrete.  The strength of light weight concrete is generally less than conventional concrete and cannot be adopted for heavy load bearing work.  The advantages of lightweight concrete are its reduced mass and improved thermal and sound insulation properties, while maintaining adequate strength.  Density of conventional concrete varies from 2400-2500 Kg/m3. But the density of light weight concrete is in between 300-1900 Kg/m3
  • 8.  OBJECTIVES:  To Conduct the Basic Test on Material of Concrete i.e. Cement, Fine Aggregate, Coarse Aggregate, Cinders,  To Mix Design M30 Grade Concrete as per code 10262:2019.  To Conduct Laboratory Test on Mechanical Properties of Light Weight Concrete (LWC) i.e. Compression test.  To analyze cost comparison between light weight concrete and conventional concrete.
  • 9.  LITERATURE REVIEW:  Dr. V. Bhaskar Desai and Mr. A. Sathyam replaced the normal aggregate by cinder in 0, 25, 50, 75 and 100%. The various test results showed that compression, split tensile as well as flexural strength decrease continuously with increase in cinder content. However, up to 70 % replacement, the values were within the acceptable strength limits. N. Sivalinga Rao et. al explained the necessity of trial mixes in light weight concrete in the absence of accurate data of water absorption, moisture content etc. Their investigation projected 10% as optimum replacement of silica fume for cement with 40% cinder and 60 % natural aggregates. In addition to this it is also noted that there is a slight increase in the strength of based on the during period extension and the unit weight of the cinder concrete is varying from 1980 to 2000 Kg/m³ Further more it is also Noted That there is a Decrease in Density After Extended Curing Periods.
  • 10. • P.S. Raghuprasad et al., as studied the coarse aggregates in the conventional solid concrete blocks were replaced partially with Cinder (12mm) and tested for compressive strength at the age of 3days, 7days and 21days. From the results of the investigation, it can be concluded that solid concrete block with 15% replacement of coarse aggregate by cinder records more strength than the conventional one. • Owens, P.L. et al., had stated that Light weight aggregate concrete was used for structural purposes since the 20th century. As per this study, the Light weight aggregate concrete is a material with low unit weight and often made with spherical aggregates. The density of structural Light weight aggregate concrete typically ranges from 1400 to 2000 kg/m³ compared with that of about 2400 kg/m³for normal weight aggregate concrete.
  • 11.  MATERIALS USED:  Cement : 53 grade Ordinary Portland Cement  Blenders : Cinders,  Fine Aggregates : Manufactured sand  Coarse Aggregate : 20mm down size +12.5mm down size  Water : potable water
  • 12. CINDERS:  Cinder is the material comes under the category light weight aggregate and it is a by product of steel, iron manufacturing industries.  Properties of cinders  Cinder aggregates possess high porosity and low density.  It is having high thermal insulation property.  It is having good fire resistant property.  It has good binding property with cement.
  • 13.  METHODOLOGY:  The raw materials are firstly cleaned such that it should be free from impurities and then they are subjected to the Basic Tests Conducted on materials.  Tests on cement: Finess test, Consistency test, Setting time test, Soundness test, Specific Gravity.  Coarse Aggregate & Cinders: Crushing test, Abrasion test , Impact test, Shape test ( Flakiness, Index , Elongation Index, Angularity Number) Specific Gravity, Sieve Analysis, water Absorption.  Fine Aggregate & Saw Dust: Sieve Analysis, Bulcking of Sand, Specific Gravity.  Based on the appropriate water cement ratio the Mix Designs are obtained for M30 grade concrete as per the code IS 10262:2019 .For the obtained mix design the lightweight aggregates such as Cinder are partially replaced in place of conventional aggregates with various percentages.
  • 14. CEMENT: (OPC 53 GRADE, IS 12269-1987) • OPC 53 grade cement as per IS 12269-1987 is used from mangala traders in hulimavu, Bangalore are used with a designed strength for 28 days being a minimum of 53Mpa or 530 kg/sq-cm. 53 grade opc provides high strength and durability to structure because of its optimum particle size distribution super crystallized structure. • TEST CONDUCTED AND OBTAINED RESULTS WITH THEIR STANDARD RESULTS OF CEMENT: (TABLE -1) TEST ON CEMENT OBTAINE D RESULTS STANDARD VALUE AS Per IS 8112:2013 1) specific gravity of the cement 3.142 <3.16 2) standard consistency of the cement 30% of water content 31%-34% 3) Initial setting time of cement 50 minutes >30 minutes
  • 15. COARSE AGGREGATE : (20MM DOWN SIZE, IS 383-1970) The locally available crushed angular aggregate obtained from HMT layout Bangalore, Karnataka are used. Coarse aggregate of maximum size 20mm is used as coarse aggregate. The tests have been carried out as per the procedure given in IS 383-1970. all in aggregates. TEST CONDUCTED AND OBTAINED RESULTS OF COARSE AGGREGATE WITH THEIR STANDARD VALUES:(TABLE-2) TEST CONDUCTED ON COARSE AGGREGATE OBTAINED RESULTS STANDARD VALUE (IS 383:1970) 1) Fineness modulus 6.082% <10% 2) Specific gravity 2.65 2.5-3.0 3) Water absorption 0.4% <2% 4) Bulk density •Compact BD = 1.64gm/cm3 •Loose BD= 1.43gm/cm3 1.20-1.75 gm/cm3
  • 16. FINE AGGREGATE : (M SAND, IS 383-1970) • The M sand is obtained from the HMT layout mallathahalli Bangalore, Karnataka . • This is mainly crushed fine aggregate produced from a hard granite stones by crushing. • The tests have been carried out as per the procedure given in IS 383-1970 table-3 • Well graded sand passing through 4.75mm was used as fine aggregate. TEST CONDUCTED ON FINE AGGREGATE OBTAINED RESULTS STANDARD VALUE (IS 383:1970) 1) Fineness modulus 3.57 <4.75 2) Specific gravity 2.63 <2.68 3) Bulk density • Compact BD = 1.50gm/cm3 • Loose BD = 1.33gm/cm3 1.20-1.75 gm/cm3
  • 17. CINDERS  CINDERS of 20 mm down size Aggregate used. The tests have been carried out as per the procedure given in IS 383-1970. All in aggregates(Table-2).  TEST CONDUCTED AND OBTAINED RESULTS OF CINDERS AGGREGATE WITH THEIR STANDARD VALUES: Sl No Name of the Test values obtained 1 specific gravity 1.60 2 Fineness modules 5.776% 3 Water absorption 9.62%
  • 18. CALCULATION OF MATERIALS FOR CASTING • Volume of cube: = Length x Breadth x Depth = 0.15 x 0.15 x 0.15 = 3.375 x 10-3 m3 • Volume of concrete required for 7 and 28 days ( 36 cubes) = (3.375 x 10-3 x 36) = 0.1215 m3 • Weight of concrete = volume of concrete x density of concrete = 0.1215 x 2400 = 291.6 kg • Taking 20% extra = (20/100 x 291.6) + 291.6 =349.9 kg • For proportion: 1: 0.75: 1.5 (M30) • Weight of cement = (1/ (1+0.75+1.5)) x 349.9 =107.66 kg • Weight of sand = 80.74 kg • Weight of coarse aggregate =161.50 kg • Water =w/c *cement • =0.45*107.66 =48.4 liters
  • 19. VARIOUS MATERIALS REQUIRED FOR DIFFERENT % OF CINDERS REPLACEMENT WITH C.A  Mean target strength = 38.25 N/mm^2  w/c ratio =0.45 table: % of materials  Percentag es of cinders Cement in kg Fine aggregate in kg Coarse aggregate in kg Cinders in kg Water in lts 0% 107.67 80.75 161.50 0 48.4 20% 107.67 80.75 129.2 32.3 48.4 40% 107.67 80.75 96.9 64.6 48.4 60% 107.67 80.75 64.6 96.9 48.4 80% 107.67 80.75 32.3 129.2 48.4 100% 107.67 80.75 0 161.50 48.4
  • 20.  Mix Preparation:-  The batching of all the ingredients was performed by weight.  The sand was air dried in the laboratory before mixing.  First the surface was damped with water then all the aggregates (Natural Coarse Aggregate, Fine Aggregate and cinders Aggregate) were spread on the surface area till the aggregates. After thorough mixing of aggregates cement was introduced on the ground surface and water were added slowly as per W/C ratio.  The concrete was mixed for approximately three minutes after the water was added. 20 PREPARATION, CASTING OF LIGHT WEIGHT CONCRETE:-
  • 21. CASTING OF CONCRETE CUBES  Before casting cubes should be apply oil to inner surface of cube  Concrete is filled in cube By layer by layer.  Each layer compacted with 25 blows with tamping rod. 21
  • 22. TEST ON FRESH CONCRETE (SLUMP TEST)  It is the most commonly used method to measure the consistency of concrete, which can be employed at site of work or laboratory.  It is not suitable method for very wet or very dry concrete.  The slump value is calculated by the difference between the height of the mould and the height of the container thoroughly after using.  If the pile topples sideways it indicates that the materials have not been uniformly distributed in the mould and test should be remade.
  • 23.  TO DETERMINE MECHANICAL PROPERTIES OF LIGHT WEIGHT CONCRETE A. Test on fresh concrete:  slump test B. Test on hardened concrete:  Compression strength test: The cubes of 150x150x150mm are casted by varying the proportions of cinders M30 grade concrete mixes. The results obtained are tabulated for the curing period of 7 days,14 days, 28 days.  Compression test is carried out on various % of cubes. • Compressive strength=fc=ultimate load/cross sectional area  fc =P/A. • A=b*D in mm2 • Fc in Mpa • P in N  compressive strength for M30 is 32.86 for 28 days curing period and 7 days curing period compressive strength is 24.16
  • 25.  Compressive strength of concrete N/mm2
  • 26.  COST ANALYSIS :  Cost Estimation Between Conventional Concrete and Light Weight Concrete is Carry Out.  As The Cinders Usually Obtained From Industrial Waste By- product they are cheaper than the normal aggregates used in conventional concrete Hence Light Weight Concrete would be quite Economical.  To Realize the low cost construction we have to implement light weight concrete first.  Due to lower handling, transportation and construction cost, the light weight concrete s ideally suited for the production of pre cast concrete elements and prefabricated concrete.
  • 27. CONCLUSION  The cinder aggregates is no way inferior with the natural aggregates.  With 40% replacement of cinder and 60% of coarse aggregates the highest slump value is found .  The compressive strength of the concrete is more when 50% replacement of cinder and 50% of coarse aggregates.  Therefore with 40%replacement of cinder and 60% of coarse aggregate the better workability are obtained for the concrete mix.
  • 28.  REFERANCES: 1. Dr.V.Bhaskar Desai , A.Satyam,’Some studies on strength properties of Light weight cinder aggregate concrete’, “volume 4 issue 2, feb 2014. 2. P.S.Raghuprasad, R.satish “Experimental investigations on solid concrete blocks with partial replacement of coarse aggregate with cinder aggregate”. 3. N.Siva lingaRao , V.Bhaskar Desai “Properties of light weight concrete with cinder and silica fume” , International journal of earth sciences and Engineering , vol 4, No.6, October 2011. 4. A text book of “concrete Technology” by M.S.Setty.
  • 29.  CODES OF PRACTICE: 1. " Indian Standard Code of Practice for Plain and Reinforced concrete”, IS 456-2000, fourth revise, BIS, New Delhi. 2. " Indian Standard Methods of tests for aggregates” IS 2386- 1963, BIS , New Delhi. 3. -“Recommended guidelines for concrete mix design, ", IS10262-2019 BIS, New Delhi. 4. ” Handbook on concrete mixes, SP 23-1982, BIS, New Delhi.