effects of curing on concrete with copper slag SAMAC. effects of curing on concrete with copper slag Description : 14 Jan 2014 geopolymer concrete replacing sand by copper slag, Links:
geopolymer concrete replacing sand by copper slag in poland Grinding Properties Of Copper Slag grinding properties of copper slag essecke grinding properties of copper slag Copper slag that is derived by smelting of copper concentrates in a reverberatory Table 111 lists some typical physical properties for nonferrous slags silicate slags in these slags appears to limit hydraulicity and makes
01-08-2009· Also Table 2 shows that there is general slight increase in the density of high performance concrete with the increase of copper slag quantity. The density of concrete was increased by almost 5%. This is mainly due to the higher specific gravity of copper slag which was 3.4 compared with sand which has a specific gravity of 2.77. 4.3.
Abstract: Geopolymer concrete (GPC) is becoming a sustainable concrete when comparing to ordinary Portland cement (OPC) concrete. This investigation is mainly focused on the preliminary study on fly ash (FA) and ground granulated blast furnace slag (GGBS) based GPC using copper slag (CS) and vermiculite (VM) as fine aggregate replacement at different levels (0%, 20% and 40%).
One such material which has a high scope for use in concrete is Copper Slag. Copper Slag Copper slag produced during the matte smelting and refining of copper ore, during which, the iron present in the copper concentrate combines chemically at 1200°C with silica present in flux materials such as river sand/silica sand/ quartz fines to form iron silicate, which is termed as copper slag.
Copper slag is classified as pozzolanic material according to ASTM standard, so there might be reaction with the activators used in geopolymer concrete. Cite Can you help by adding an answer?
geopolymer concrete with copper slag. Preliminary Investigation physical and chemical properties of various materials as cement, fine aggregate, coarse aggregate, copper slag. Fly ash is tested and the properties are compared with each other. Fresh and hardened properties of conventional concrete
Influence of Copper Slag in Concrete as Partial Replacement for the copper slag can be alternatively used. 3) Vast quantities of copper slag are produced from manufacturing of copper.In our project we are using the copper slag by replacing natural fine aggregate at different percentage like (0%, 20%, 40%, 60%, 80. Get price
01-01-2016· The present investigation is mainly focused on the effect of copper slag (CS) on micro, macro, and flexural characteristics of geopolymer concrete (GPC). In this study, copper slag
due the use of cooper slag as a replacement for fine aggregate. Resende et al. [6] reported a small reduction in concrete compressive and flexural strengths due to substitution of natural sand by copper slag. Workability was also reduced, although it stayed within reasonable limits.
20-08-2014· This work focuses on the use of copper slag, as a partial replacement of sand for use in cement concrete and building construction. Cement mortar mixtures prepared with fine aggregate made up of different proportions of copper slag and sand were tested for use as masonry mortars and plastering. Three masonry wall panels of dimensions 1 × 1 m were plastered.
due the use of cooper slag as a replacement for fine aggregate. Resende et al. [6] reported a small reduction in concrete compressive and flexural strengths due to substitution of natural sand by copper slag. Workability was also reduced, although it stayed within reasonable limits.
be added in concrete as full replacement of cement. In this study, Geopolymer concrete mixes were manufactured using class F fly ash and Ground granulated blast furnace slag in different proportions with 100% M-sand. The fly ash and furnace slag are the waste products it was obtained from the
Influence of Copper Slag in Concrete as Partial Replacement for the copper slag can be alternatively used. 3) Vast quantities of copper slag are produced from manufacturing of copper.In our project we are using the copper slag by replacing natural fine aggregate at different percentage like (0%, 20%, 40%, 60%, 80. Get price
Percentage replacement of copper slag as sand Mix No Copper slag Sand 1 0% 100% 2 35% 65% 3 100% 0% Table -4.2: Compressive strength of concrete after curing Mix No Compressive strength (MPa) 7 days 21 days 28 days 1 21.2 21.8 22.6 2 30 37.6 42.7 3 23.2 25.4 26.1 Table- 4.3: Flexural strength of concrete after curing Mix No
products in concrete-making will lead to sustainable concrete design. The industrial as well as other wastes such as copper slag, oil palm shells, wood waste ash, fly ash, granite sludge, cement kilns dust, steel chips, silica fume, rice husk ash etc. were used in concrete to improve the properties of concrete and to reduce the cost [5,6].
What is Geopolymer Concrete? The name geopolymer was given by “Joseph Davidovits” in 1978. Geopolymer concrete (GPC) is an eco friendly product which uses industrial waste by-products such as fly ash (waste from thermal power plants) and ground granulated Blast Furnace Slag (waste from Iron production) as complete replacement for cement in concrete.
The use of natural sand as fine aggregate in concrete is becoming problematic due to scarcity and pressure on mining of the resource. Alternate sources such as the use of industrial waste as replacement of natural sand in concrete are gaining popularity as a sustainable construction material.
replacement of fine aggregate with copper slag for . copper slag as sand replacement on hpc. using copper slag as a replacement of fine aggregate on the strength properti M25 grade concrete was used and tests were conducted for various proportions of copper slag replacement with sand of 0 to in concrete The test results indicate that compressive strength of concrete Chat Online copper slag mill
Properties And Effects Of Copper Slag In Concrete 47 2.7 Fineness Modulus The fineness modulus of coarse aggregates (20 mm & 10 mm), sand and copper slag are 7.10, 6.77, 2.94 and 4.06 respectively. Table 3.2 to 3.3 shows the fineness modulus of 20 mm, 10 mm coarse aggregates, sand and copper slag respectively.
20-08-2014· This work focuses on the use of copper slag, as a partial replacement of sand for use in cement concrete and building construction. Cement mortar mixtures prepared with fine aggregate made up of different proportions of copper slag and sand were tested for use as masonry mortars and plastering. Three masonry wall panels of dimensions 1 × 1 m were plastered.
due the use of cooper slag as a replacement for fine aggregate. Resende et al. [6] reported a small reduction in concrete compressive and flexural strengths due to substitution of natural sand by copper slag. Workability was also reduced, although it stayed within reasonable limits.
Performance of Fly Ash and Copper Slag based Geopolymer Concrete K. Mahendran and N. Arunachelam 1 Professor and Research Scholar Rural Technology Centre, Gandhigram Rural Institute-Deemed University Gandhigram, Dindigul 624302, Tamil Nadu, India; [email protected],
Evaluation on Accelerated Corrosion Properties of the Concrete Produced by Replacing Sand by Copper Slag Vishwa B Tipashetti1, Shreepad Desai2 1P.G. Student, M. Tech (Structural Engg.), Civil Engineering Department, Government Engineering College, Devagiri, Haveri, Karnataka, India.
Effects of Copper Slag as Sand Replacement in Effects of Copper Slag as Sand Replacement in Concrete M. V. Patil#1 Y.D.Patil 2 # Applied Mechanics Department S.V.National Institute of Technology Get Price; copper slag as sand replacement on hpc
Percentage replacement of copper slag as sand Mix No Copper slag Sand 1 0% 100% 2 35% 65% 3 100% 0% Table -4.2: Compressive strength of concrete after curing Mix No Compressive strength (MPa) 7 days 21 days 28 days 1 21.2 21.8 22.6 2 30 37.6 42.7 3 23.2 25.4 26.1 Table- 4.3: Flexural strength of concrete after curing Mix No
The use of natural sand as fine aggregate in concrete is becoming problematic due to scarcity and pressure on mining of the resource. Alternate sources such as the use of industrial waste as replacement of natural sand in concrete are gaining popularity as a sustainable construction material.
investigated polymer based geopolymer concrete using m-sand. The SEM images of fly ash and manufactured sand were verified in this study. It was also shown that, the various mechanical properties like compressive, split tensile and flexural strength test results of geopolymer concrete with m. sand were increased in the order of
replacement of fine aggregate with copper slag for . copper slag as sand replacement on hpc. using copper slag as a replacement of fine aggregate on the strength properti M25 grade concrete was used and tests were conducted for various proportions of copper slag replacement with sand of 0 to in concrete The test results indicate that compressive strength of concrete Chat Online copper slag mill
A Study on Strength Properties of Geopolymer Concrete with Addition of G.G.B.S 22 . Table 4. Flexural strengths of geopolymer concrete at 28 days . From Table 4, it can be observed that the geopolymer concrete without slag (Mix No.1) has not gained flexural strength. The remaining mixes have shown significant flexural strengths.
Use of Copper Slag as Concrete Sand Consolidating 125 studies undertaken since,Geopolymer Concrete Replacing Sand By copper slag used in concrete for sand . [service online] Waste as meaningful substitute for natural sand ,
20-08-2014· This work focuses on the use of copper slag, as a partial replacement of sand for use in cement concrete and building construction. Cement mortar mixtures prepared with fine aggregate made up of different proportions of copper slag and sand were tested for use as masonry mortars and plastering. Three masonry wall panels of dimensions 1 × 1 m were plastered.
due the use of cooper slag as a replacement for fine aggregate. Resende et al. [6] reported a small reduction in concrete compressive and flexural strengths due to substitution of natural sand by copper slag. Workability was also reduced, although it stayed within reasonable limits.
Evaluation on Accelerated Corrosion Properties of the Concrete Produced by Replacing Sand by Copper Slag Vishwa B Tipashetti1, Shreepad Desai2 1P.G. Student, M. Tech (Structural Engg.), Civil Engineering Department, Government Engineering College, Devagiri, Haveri, Karnataka, India.
Effects of Copper Slag as Sand Replacement in Effects of Copper Slag as Sand Replacement in Concrete M. V. Patil#1 Y.D.Patil 2 # Applied Mechanics Department S.V.National Institute of Technology Get Price; copper slag as sand replacement on hpc
Performance of Fly Ash and Copper Slag based Geopolymer Concrete K. Mahendran and N. Arunachelam 1 Professor and Research Scholar Rural Technology Centre, Gandhigram Rural Institute-Deemed University Gandhigram, Dindigul 624302, Tamil Nadu, India; [email protected],
Geopolymer can provide faithful results but in excess, it decreases the strength of concrete. 2. LITERATURE REVIEW The 26 research Papers have been reviewed in this review paper. In this review paper, the main focus is on the utilization of industrial waste like Marble dust, copper slag, and Plastic waste. Experiment Adopted-
investigated polymer based geopolymer concrete using m-sand. The SEM images of fly ash and manufactured sand were verified in this study. It was also shown that, the various mechanical properties like compressive, split tensile and flexural strength test results of geopolymer concrete with m. sand were increased in the order of
The copper slag was added with sand to find out the results of concrete proportion ranging from 5, 20%, 40%, 60%, 80% and 100%. The maximum (35.11 Mpa) compressive strength was obtained in 40% replacement. The results also revealed the effect of copper slag on RCC concrete elements which shows increment in all 10.
A Study on Strength Properties of Geopolymer Concrete with Addition of G.G.B.S 22 . Table 4. Flexural strengths of geopolymer concrete at 28 days . From Table 4, it can be observed that the geopolymer concrete without slag (Mix No.1) has not gained flexural strength. The remaining mixes have shown significant flexural strengths.