Dec 01, 2012· This stone reports the experimental study undertaken to investigate the influence of partial replacement of sand with limestone waste (LSW), with marble powder (M.P) as an additive on the concrete properties. The replacement proportion of sand with limestone waste, 25%, 50%, and 75% were practiced in the concrete mixes except in the concrete mix.
From the local perspective, there are two sources of limestone dusts. The first source is originated from the local crushers, which emit a huge amount of limestone dust (LSD). This type of LSD is characterized with the elevated content of coarse particles suitable for the use as a partial replacement
To overcome this problem, present study is focused on the suitability to utilize the quarry dust in Self Compacting Concrete (SCC) partially as fine aggregate with the natural fine aggregates. In this work, quarry dust is used as replacement of sand in a different level (0%, 15%, 30%, 45% and 60%) for producing the SCC.
Abbas et al. (2016) had studied the effect of partial replacement of cement and sand by limestone dust and bottom ash respectively. Sand replacement by bottom ash was done from 10% to 40%, 60% and
5) P.Bhuvaneshwari An partial replacement of cement by with waste marble powder in -8163 Apr.2015 6) D.suji experimental study on concrete using waste marble powder and quarry dust as partial replacement of cement and fine aggregate” ISSN:2348-7607. Volume 3 sep. 2016 Ramya raju partial replacement of cement by
-The reduction in the sources of natural sand and the requirement for reduction in the cost of concrete production has resulted in the increased need to identify substitute material to sand as fine aggregates in the production of concretes especially in Concrete. Quarry dust, a by-product from the crushing process during quarrying activities is one of such materials.
The limestone powder (LS) was obtained from a commercial aggregate production plant, supplied as the dust of fracture passing through a #100 (150 μm) sieve, having an estimated CaCO 3 content of 98.1 % ± 0.6 % based on TGA measurements . The silica powder (SA) was obtained by blending three laboratory-grade powders of similar purity to obtain
Neethu Susan Mathew SU. Effects of Copper Slag as Partial Replacement for Fine Aggregate in Geopolymer Concrete. IOSR J Mech Civ Eng 2016:73–7. Türkel S, Altuntaş Y. The effect of limestone powder, fly ash and silica fume on the properties of self-compacting repair mortars. Sadhana Acad Proc Eng Sci 2009;34:331–43. doi:10.1007/s12046
Experimental programme was conducted using 30%, 40%, 50%, 60% and 70% partial replacement of fine aggregate with stone dust has been taken for concrete of M25 grade with 0.46 water cement ratio.
The limestone powder (LS) was obtained from a commercial aggregate production plant, supplied as the dust of fracture passing through a #100 (150 μm) sieve, having an estimated CaCO 3 content of 98.1 % ± 0.6 % based on TGA measurements . The silica powder (SA) was obtained by blending three laboratory-grade powders of similar purity to obtain
Neethu Susan Mathew SU. Effects of Copper Slag as Partial Replacement for Fine Aggregate in Geopolymer Concrete. IOSR J Mech Civ Eng 2016:73–7. Türkel S, Altuntaş Y. The effect of limestone powder, fly ash and silica fume on the properties of self-compacting repair mortars. Sadhana Acad Proc Eng Sci 2009;34:331–43. doi:10.1007/s12046
Corpus ID: 212600892. EXPERIMENTAL STUDY ON PARTIAL REPLACEMENT OF CEMENT WITH MARBLE POWDER AND FINE AGGREGATE WITH QUARRY DUST @inproceedings{Abhilash2017EXPERIMENTALSO, title={EXPERIMENTAL STUDY ON PARTIAL REPLACEMENT OF CEMENT WITH MARBLE POWDER AND FINE AGGREGATE WITH QUARRY DUST
THE USE OF LIMESTONE POWDER AS AN ALTERNATIVE CEMENT REPLACEMENT MATERIAL AN EXPERIMENTAL STUDY Wendimu Gudissa and Abebe Dinku Department of Civil Engineering Addis Ababa University ABSTRACT This research stone examines the effects of partial substitution of Portland cement clinker with limestone addition on the physical and chemical. Online Chat
They examine the possibility of using granite powder as replacement of sand and partial replacement of cement with fly ash, silica fume, slag and superplasticiser in concrete. The percentage of granite powder added by weight was 0, 25, 50, 75 and 100 as a replacement of sand used in concrete and cement was replaced with 7.5% silica fume, 10%
The test results indicate that granite powder as replacement fine aggregate has beneficial be utilized as a partial replacement of natural sand in high Performance concrete. Oyekan G.L and Kamiyo O.M which cement was partially replaced with marble dust powder (0%, 5%, 10%, 15%, 20%).The result
Limestone quality should have at least 75% calcium carbonate by mass, a clay content less than 1.2% by mass, and an organic content less than 0.2% by mass. There are several advantages to using limestone in portland cement such as reduced energy consumption and reduced CO 2 emissions. Additional cost savings are realized if limestone is
INFLUENCE OF MARBLE DUST AS PARTIAL REPLACEMENT OF CEMENT IN CONCRETE In this project our main objective is to study the influence of partial replacement of cement with marble powder,and to compare it with the compressive and tensile strength of ordinary M20 concrete. Weight of fine aggregate = 1.372 x 3773.85 = 5.177 kg
The partial replacement of quarry dust gave a 28 days’ peak compressive strength at 40% replacement level and decreases for 50% replacement. Figure 3 shows the compressive strength relation for both normal concrete and quarry dust concrete, at the age of 28 days for M30, M25, and M20 grades of concrete for different w/c ratios of 0.45 and 0.5.
50% replacement of sand by quarry dust gives higher compressive strength than natural sand concrete. Key Words: Concrete, quarry dust, river sand, compressive strength, replacement. 1.INTRODUCTION The motive of this study is to determine the effect of quarry dust in concrete as fine
Partial replacement of cement by varying percentage of marble powder reveals that increased waste marble powder (WMP) ratio result in increased strengths of the mortar and concrete .Leaving the
Self-compacting repair mortars (SCRM) are particularly desired for the rehabilitation and repair of reinforced concrete structures. The properties of SCRM can be improved by using chemical, mineral, polymer and fiber additives. In limestone quarries, considerable quantities of limestone fine powder are obtained during the process of crushing rock. These fine powders are being collected and
Nov 12, 2012· Partial replacement of cement and usual fine aggregates by varying percentage of marble powder (2007) found that marble dust concrete » More detailed
Effect of Limestone and Wooden Dust as a Filler Material on Fresh and Hardened Properties of Concrete Ushama Z. Laliwala, Paresh N. Nimodiya In this project main objective is to study the partial replacement of the Limestone and Wooden Dust with the varying proportion in the concrete and to check the different properties of the concrete by
THE USE OF LIMESTONE POWDER AS AN ALTERNATIVE CEMENT REPLACEMENT MATERIAL AN EXPERIMENTAL STUDY Wendimu Gudissa and Abebe Dinku Department of Civil Engineering Addis Ababa University ABSTRACT This research stone examines the effects of partial substitution of Portland cement clinker with limestone addition on the physical and chemical. Online Chat
In the present investigation, an experimental program was carried out to study the workability and compressive strength of concrete made using stone dust as partial replacement of fine aggregate in the range of 10% 100%. M25 grade of concrete was designed using Portland pozzolana cement (PPC) for referral concrete.
They examine the possibility of using granite powder as replacement of sand and partial replacement of cement with fly ash, silica fume, slag and superplasticiser in concrete. The percentage of granite powder added by weight was 0, 25, 50, 75 and 100 as a replacement of sand used in concrete and cement was replaced with 7.5% silica fume, 10%
DOI: 10.18535/IJSRE/V4I05.11 Corpus ID: 133346075. Study The Effect of Coal Bottom Ash And Limestone Dust as Partial Replacement of Sand and Cement @article{Abbas2016StudyTE, title={Study The Effect of Coal Bottom Ash And Limestone Dust as Partial Replacement of Sand and Cement}, author={Mahapara Abbas and Ravi Kumar and Dinesh Kumar}, journal={International
The test results indicate that granite powder as replacement fine aggregate has beneficial be utilized as a partial replacement of natural sand in high Performance concrete. Oyekan G.L and Kamiyo O.M which cement was partially replaced with marble dust powder (0%, 5%, 10%, 15%, 20%).The result
Limestone quality should have at least 75% calcium carbonate by mass, a clay content less than 1.2% by mass, and an organic content less than 0.2% by mass. There are several advantages to using limestone in portland cement such as reduced energy consumption and reduced CO 2 emissions. Additional cost savings are realized if limestone is
The partial replacement of quarry dust gave a 28 days’ peak compressive strength at 40% replacement level and decreases for 50% replacement. Figure 3 shows the compressive strength relation for both normal concrete and quarry dust concrete, at the age of 28 days for M30, M25, and M20 grades of concrete for different w/c ratios of 0.45 and 0.5.
Jan 15, 2014· From this figure, it can be seen that the ratio between tensile and compressive strength increases with the increase of marble dust content as a partial replacement of cement. This ratio ranges from 7.86% to 12.45%. In case of using marble dust as a partial replacement of sand; this ratio ranges from 7.86% to 10.39%.
Jul 03, 2015· Effect of Marble Sludge Powder and Quarry Rock Dust as Partial Replacement for Fine Aggregates on Properties of Concrete. International Journal of Innovative Technology and Exploring Engineering (IJITEE), 4, 39-42.
50% replacement of sand by quarry dust gives higher compressive strength than natural sand concrete. Key Words: Concrete, quarry dust, river sand, compressive strength, replacement. 1.INTRODUCTION The motive of this study is to determine the effect of quarry dust in concrete as fine
Effect of Limestone and Wooden Dust as a Filler Material on Fresh and Hardened Properties of Concrete Ushama Z. Laliwala, Paresh N. Nimodiya In this project main objective is to study the partial replacement of the Limestone and Wooden Dust with the varying proportion in the concrete and to check the different properties of the concrete by
INFLUENCE OF MARBLE DUST AS PARTIAL REPLACEMENT OF CEMENT IN CONCRETE In this project our main objective is to study the influence of partial replacement of cement with marble powder,and to compare it with the compressive and tensile strength of ordinary M20 concrete. Weight of fine aggregate = 1.372 x 3773.85 = 5.177 kg
Self-compacting repair mortars (SCRM) are particularly desired for the rehabilitation and repair of reinforced concrete structures. The properties of SCRM can be improved by using chemical, mineral, polymer and fiber additives. In limestone quarries, considerable quantities of limestone fine powder are obtained during the process of crushing rock. These fine powders are being collected and
Concreteis the most extremely used construction material within the world, which always uses natural resources like lime, aggregates and water. The production of cement in world has increased greatly, due to this cement production emission of CO2 gas has been increased tremendously, ultimately environmental pollution increased to very large extent.
They examine the possibility of using granite powder as replacement of sand and partial replacement of cement with fly ash, silica fume, slag and superplasticiser in concrete. The percentage of granite powder added by weight was 0, 25, 50, 75 and 100 as a replacement of sand used in concrete and cement was replaced with 7.5% silica fume, 10%
replacement of fine aggregates (sand) with wooden powder gives the properties and the benefits in the actual production of concrete. Keyword--Wooden Powder, Fine aggregates, compressive strength, stone dust I. INTRODUCTION Now a day’s lots of invention in the field of concrete technology that can control the use of Cement in concrete.
compressive strength as a result of granite dust up to 15.0% as cement replacement. Dr.T. Felix Kala et al reviewed on „effect of granite powder on properties of concrete.‟ [7] An experimental study on the high performance concrete made with granite powder as fine aggregate and partial replacement of
Concrete is the most common used material for construction and their design consumes almost the totals cement production in the world. The use of large quantities of cement produces increasing CO2 emissions, and as a consequence the greenhouse
In India the use of quarry dust to replace river sand was reported by [2]. The use of rock dust as an alternative to natural sand was also reported by [5]. The use of up to 20% quarry waste fine as a partial replacement for natural sand in the production of concrete, in Malaysia was also reported [6].
Jan 24, 2020· In this study, use of glass powder and marble powder as partial replacement of cement in various proportions (5%, 10%, and 15% by weight) in manufacturing of non-load bearing hollow concrete blocks is investigated. The manufactured blocks were evaluated for various characteristics as per ASTM C140/C140M, such as compressive strength, dry density and water absorption.
May 05, 2017· Studies on quarry dust as partial replacement of fine aggregates in concrete 1. International Journal of Latest Technology in Engineering, Management & Applied Science (IJLTEMAS) Volume VI, Issue IV, April 2017 ISSN 2278-2540 ijltemas.in Page 10 Studies on Quarry Dust as Partial Replacement of Fine Aggregates in Concrete Preethi A V1,Dr. S Rajendra2,Navneeth3,
The marble powder (MP), obtained from waste sludge marble processing, has a high specific surface area; this could mean that it can be used as filler added to self-compacting concrete (SCC). The aim of this experimental work is to study the effects of the cement-MP paste volume on the rheology in the fresh state and the hardened properties (compressive strength) of SCC by a microstructure
The result of compressive strength shown in table 4 reveals that at 28 days and 90 days of age, 0% (100% ordinary Portland cement) replacement gave the highest value of compressive strength of (30.85N/mm2 and 31.0N/mm2 ) among all the mix proportions, but the strength decreases with an increase in the percentage of replacement by kiln- dust.
Sep 11, 2016· Marble powder 1. BY P.ROHITH S.NIHARIKA A.RANJITH B.AKSHAY P.JEEVAN Partial Replacement of Cement with Marble Powder 2. Objective of the project Introduction Nominal Mx Design Test Results and Graphs Conclusion Contents 3. Composition of Marble powder 4.
The study reflected that replacement of sand by granite dust up to 20% showed better strength than conventional concrete. Experimental study of concrete made with granite and iron powder as partial replacement of sand. (2019) Experimental Analysis on Partial Replacement of Fine Aggregate by Granite Dust in Concrete. In: Das B
Abstract. A laboratory study demonstrates that high volume, 45% by mass replacement of portland cement (OPC) with 30% finely-ground basaltic ash from Saudi Arabia (NP) and 15% limestone powder (LS) produces concrete with good workability, high 28-day compressive strength (39 MPa), excellent one year strength (57 MPa), and very high resistance to chloride penetration.
Road Materials and Pavement Design. 18, 105-108. Rashwan N. K. (2016). Hot Mix Asphalt (HMA) Performance as Affected by Limestone Powder Filler Content.
Various industrial waste materials like quarry dust, glass powder, ceramic dust and coal dust are used as partial replacement of fine aggregate and assessed the strength parameters and compared the profit percentages after replacement with waste materials. Quarry dust can be replaced by 20% and beyond that the difference in strength is not much