29.08.2020· To solve the problem in effective manner steel slag and walnut shell is used in concrete by replacing natural aggregates. In this study, the replacement was done with fine aggregate by steel slag for different proportions of 0%, 10%, 20%, 30%, 40%&50% and coarse aggregate by walnut shell at constant proportion of 20%.
Partial Replacement Of Fine Aggregate Using Steel Slag 1Gaurav Desai, 2Prem Lohakare, 3 “Use of Iron Slag as Partial Replacement of Sand to Concrete”, International Journal of Science, Engineering and Technology Research (IJSETR), Volume 3, Issue 6, June 2014 1877ISSN: 2278 7798, pp 1877-1880. [2] V. Subathra Devi, B. K. Gnanavel,“ Properties of Concrete Manufactured using Steel
STEEL SLAG AS REPLACEMENT OF FINE AGGREGATE IN TERMS OF HIGH STRENGTH CONCRETE Anurag Jain *1, Sandeep Gupta*2 & Mayank Gupta*3 * Civil Engineering SIRTE, BHOPAL M.P. (INDIA) DOI: 10.5281/zenodo.1165760 ABSTRACT The Steel slag, a result of steel making, is delivered amid the detachment of molten steel from polluting influences in steel making heaters. This can be utilized as sand
The replacement of natural resources in the manufacture of cement and sand is the present issue in the present construction scenario. Copper slag and Ground Granulated Blast furnace Slag (GGBS) are industrial by-product materials produced from the process of manufacturing copper and iron. Use of Copper slag and GGBS does not only reduce the cost of construction but also helps to reduce the
investigation deals with usage of steel slag as a partial replacement coarse aggregate and M Sand to fine aggregate respectively. Initially the optimum percentage steel slag to be r eplaced is...
This paper reports the investigation carried out on concrete with partial replacement of fine aggregate by copper slag, Concretemixes, viz. Conventional concrete mixes with varying percentages of copper slag (10, 20, 30 and 40%) as fine aggregate replacement material were investigated.
According to this paper we investigates that the that possibility of utilizing granulated blast furnace slag (GGBS) in cement concrete as a sand substitute, for reducing the environmental problems related to the fine aggregate mining and waste disposal of slag.
The investigation is done to find out strength properties of M30 grade of concrete by partial replacement of cement with fly ash and fine aggregate with copper slag, to reduce the cost of the cement and in point of scarcity in sand.
Kothai and Malathy partially replace fine sand (SG=2.65) with fine steel slag (SG=2.95) in normal concrete and found increment of compressive strength at 5% to 10% when replacement
The results showed that replacing about 10%, 20%, 30% and 40% of steel slag aggregates by volume for M-sand will not do any harm to concrete and also it will not have any adverse effects on the strength and durability. Key Words:steel slag, partial replacement of fine aggregate 1.
The replacement of natural resources in the manufacture of cement and sand is the present issue in the present construction scenario. Copper slag and Ground Granulated Blast furnace Slag (GGBS) are industrial by-product materials produced from the process of manufacturing copper and iron. Use of Copper slag and GGBS does not only reduce the cost of construction but also helps to reduce the
Utilization of Copper Slag in M-Sand as Partial. investigation carried out on concrete with partial replacement of fine aggregate by copper slag, Concretemixes, viz. Conventional concrete mixes with varying percentages of copper slag (10, 20, 30 and 40%) as fine aggregate replacement material were investigated. The compressive strength test was
The present investigation deals with usage of steel slag as a partial replacement coarse aggregate and M-Sand to fine aggregate respectively. Initially the optimum percentage steel slag to be
is partial replaced by GGBS & fine aggregates partial replaced by Copper slag. • To conclude the optimum strength obtained by using the alternative materials with different percentage of replacement in concrete. • To conclude the strength of concrete when copper slag is blended with GGBS for mix proportion M30 grade concrete. As per IS 10262:2009. II. EXPERIMENTAL DETAILS AND
Experimental Investigation on Partial Replacement of Natural Fine Aggregate by Steel Slag and Natural Coarse Aggregate by Waste Limestone Aggregate in Cement Concrete Md Zeeshan1 Prof. Rohan S Gurav2 Prof. Brij Bhushan S3 Prof. Maneeth P D4 1M. Tech Student 2,3,4Assistant Professor 1,2,3,4Department of Construction Technology 1,2,3,4VTU Regional Center Gulbarga, Karnataka,
05.05.2013· REPLACEMENT OF STEEL SLAG AS COARSE AGGREGATE AND ECO SAND AS FINE AGGREGATE Ram M Partial replacement of fine aggregate by sea sand in GPCC Duration: 17:39. DINESH R 1,059 views.
To partially replace sand with Copper slag and cement GGBS in concrete as it directly influences economy in construction. To design and proportion the concrete mix for M25 grade concrete, As per the recommendation of IS:10262:2009. To find the Volume proportions of the concrete mixes by partially replacing Sand with Copper slag and cement GGBS in one phase. To check the variation of
Partial Replacement of Copper Slag as Fine Aggregate Ambrish E1, Dhavamani Doss S2 concrete with partial replacement of fine aggregate by copper slag with various percentages of 0%, 10%, 15% and 20%. The specimens were casted for 7days, 14 days and 28 days then tested. The results are presented above. V. REFERENCES [1] Al-Jabri, K. and Makoto Hisada. “Copper slag as sand replacement
Study on Strength of High Performance Concrete by Partial Replacement . of Fine Aggregate by Copper Slag. J.Vengadesh Marshall Raman. 1, R.Rajesh. 2, P.Sabari Velswaran. 3 . 1 . R&D Coordinator, 2,3 . Student, Department of Civil Engineering Mailam Engineering College, Mailam, Villupuram District, Tamil Nadu 604 304, India. ABSTRACT . The present experimental work
To overcome from this crisis, partial replacement of natural sand with quarry sand is economic alternative. Use of quarry dust in concrete increases the strength characteristics. INTERNATIONAL JOURNAL OF CURRENT ENGINEERING AND SCIENTIFIC RESEARCH (IJCESR) ISSN (PRINT): 2393-8374, (ONLINE): 2394-0697, VOLUME-6, ISSUE-3, 2019 434 1.2GROUND GRANULATED BLAST FURNACE SLAG
To partially replace sand with Copper slag and cement GGBS in concrete as it directly influences economy in construction. To design and proportion the concrete mix for M25 grade concrete, As per the recommendation of IS:10262:2009. To find the Volume proportions of the concrete mixes by partially replacing Sand with Copper slag and cement GGBS in one phase. To check the variation of
Partial Replacement of Copper Slag as Fine Aggregate. concrete with partial replacement of fine aggregate by copper slag with various percentages of 0%, 10%, 15% and 20%. The specimens were casted for 7days, 14 days and 28 days then tested. The results are presented above. V. REFERENCES [1] Al-Jabri, K. and Makoto Hisada. "Copper slag as sand
Behaviour and Experimental Study on Concrete as Partial Replacement of Fine Aggregate with Copper Slag and Cement with GGBS Gowram Iswarya1 Assistant Professor, School of Civil Engineering, REVA University, Bengaluru. V.Viharika Reddy2 Assistant Professor, School of Civil Engineering, REVA University, Bengaluru. Abstract The substitution of normal assets in the produce of cement
Partial Replacement Of Fine Aggregate By Slag Sand. 20 and 30 of iron slag as partial replacement of fine aggregate sand were cast into cubes for testing. 23. 3 In this study to make concrete cement and fine aggregate were first mixed dry to uniform colour and then coarse aggregate was added and mixed with the mixture of cement and fine aggregates . Experimental Study On Partial Replacement Of
partial replacement of coarse aggregate with steel slag and fine aggregate by m-sand in concrete August 11, 2018 ABSTRACT: In this paper, researchers studied and developed waste management strategies to apply for advantages for specific needs.
Partial Replacement of Copper Slag as Fine Aggregate Ambrish E1, Dhavamani Doss S2 concrete with partial replacement of fine aggregate by copper slag with various percentages of 0%, 10%, 15% and 20%. The specimens were casted for 7days, 14 days and 28 days then tested. The results are presented above. V. REFERENCES [1] Al-Jabri, K. and Makoto Hisada. “Copper slag as sand replacement
To overcome from this crisis, partial replacement of natural sand with quarry sand is economic alternative. Use of quarry dust in concrete increases the strength characteristics. INTERNATIONAL JOURNAL OF CURRENT ENGINEERING AND SCIENTIFIC RESEARCH (IJCESR) ISSN (PRINT): 2393-8374, (ONLINE): 2394-0697, VOLUME-6, ISSUE-3, 2019 434 1.2GROUND GRANULATED BLAST FURNACE SLAG
Study on Strength of High Performance Concrete by Partial Replacement . of Fine Aggregate by Copper Slag. J.Vengadesh Marshall Raman. 1, R.Rajesh. 2, P.Sabari Velswaran. 3 . 1 . R&D Coordinator, 2,3 . Student, Department of Civil Engineering Mailam Engineering College, Mailam, Villupuram District, Tamil Nadu 604 304, India. ABSTRACT . The present experimental work
The percentage of copper slag used for replacement of river sand are 0%, 10%, 20%, 30%, 40%, 50%. Cement sand mortar joint thickness of 10 and 15mm. Plaster ability of use of copper slag for partial replacement material for river sand. Use of copper slag as replacement material for river sand in cement concrete.
partial replacement of fine aggregate by steel slag on the various strength properties of concrete by using the mix design of M20 grade. Test specimen with 0, 10, 20, 30, 40&50% of partial replacement of fine aggregate by steel slag were cast and tested for compressive strength after curing period of 7 days & 28 days. Based on these
Partial Replacement Of Fine Aggregate By Slag Sand. 20 and 30 of iron slag as partial replacement of fine aggregate sand were cast into cubes for testing. 23. 3 In this study to make concrete cement and fine aggregate were first mixed dry to uniform colour and then coarse aggregate was added and mixed with the mixture of cement and fine aggregates . Experimental Study On Partial Replacement Of
Partial Replacement of Copper Slag as Fine Aggregate. concrete with partial replacement of fine aggregate by copper slag with various percentages of 0%, 10%, 15% and 20%. The specimens were casted for 7days, 14 days and 28 days then tested. The results are presented above. V. REFERENCES [1] Al-Jabri, K. and Makoto Hisada. "Copper slag as sand
This paper aims to study experimentally, the effect of partial replacement of fine aggregate by steel slag (ss), on the various strength and durability properties of concrete by using the mix designs .the optimum percentage of replacement of fine aggregate by steel slag is found. Workability of concrete gradually decreases, as the percentage of replacement increases which is found using slump
partial replacement of fine aggregate by steel slag on the various strength properties of concrete by using the mix design of M20 grade. Test specimen with 0, 10, 20, 30, 40&50% of partial replacement of fine aggregate by steel slag were cast and tested for compressive strength after curing period of 7 days & 28 days. Based on these
replacement of 15% of fine aggregate by copper slag strength increased by 18% . Keywords ² Concrete, copper slag, cement, split tensile test,sand . I. INTRODUCTION In the present scenario, as a result of continuous growth in population, rapid industrialization and the accompanying technologies involving waste disposal, the rate of discharge of pollutants into the atmosphere, copper slag is
percentage of replacement. The copper slag is used as partial replacement for fine aggregate in the range of 20%, 40% and 60% by weight of sand and its optimum level is to be found. The ceramic waste tiles is used as partial replacement for coarse aggregate ranging from 10%, 20%, 30% with optimum slag content as constant. For testing the
partial replacement of fine aggregates for the production of concrete has been explored. The present study is conducted to investigate the effects of replacement of fine aggregates with the percentage of industrial sand from 0% to 50% in steps of 10% on the compressive strength, splitting tensile strength and flexural strength of concrete M20. In the present study 72 cube specimens (150mm x
different proportions of copper slag as partial and full replacement of fine aggregate. The percentage of copper slag added by weight ranged between 10- 100% of sand used in concrete. For each concrete mixture, six 150mmx150mmx150mm cubes, three 300mmx150mm dia. cylinders and three 100mmx100mmx500mm prisms were cast. Density, compressive, tensile and flexural strengths were
Effect of Partial Replacement of Cement by Ground-Granulated Blast-Furnace Slag and Fine Aggregate by Marble Slurry on Properties of Concrete Er. Arvind Singh Gaur1, Er. Sachin Kumar2 1(Civil engineering, SR Group of Institution Jhansi / Dr. APJ Abdul Kalam technical university, Lucknow, India) 2(Civil engineering, SR Group of Institution, Jhansi, India) ABSTRACT:The aim of this study is to
20% and 30%) of iron slag as partial replacement of fine aggregate (sand) were cast into cubes for testing. 23.13 In this study, to make concrete, cement and fine aggregate were first mixed dry to uniform colour and then coarse aggregate was added and mixed with the mixture of cement and fine aggregates. Water was then added and the whole mass mixed. The interior surface of the moulds
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