Partial Replacement of Sand by Quarry Dust in Concrete Sumit L. Chauhan, Raju A.Bondre Assistant Professor P. I. G. C. E. Nagpur . Abstract- The paper describe the role of quarry dust In the construction of buildings and other structures to eliminate the demand of natural sand by using quarry waste to replace the use of natural sand.
From the experimental studies 25% of partial replacement of cement with quarry dust improved hardened concrete properties. Tasnia Hoque, Muhammad Harunur Rashid, MD. Rokon Hasan, EBNA FORHAD MONDOL in 2013 examined the Influence of Stone Dust as Partially Replacing Material of Cement and Sand on some Mechanical Properties of Mortar.
In order to study the strength behaviour and fire resistance of the concrete made with full replacement of sand with Quarry stone dust the tests are conducted. Results so obtained for the tests conducted on cubes and prisms for M25 and M40 grades of concrete with various dosages of super plasticiser at 7days and 28 days were tabulated.
- M. Davoodi, H. Nikraz, E. Jamieson, Chemical and physical characterization of coarse bauxite residue (red sand) for concrete making. In: Proceedings of the conference Sustainable Construction Materials and Technologies, Coventry, 2007. - G. Balamurugan, P. Perumal, Use of Quarry Dust to replace sand in concrete –an Experimental study. Int ...
Jul 28, 2016· The concept of replacement of natural fine aggregate by quarry dust which is highlighted in the study could boost the consumption of quarry dust generated from quarries. By replacement of quarry dust, the requirement of land fill area can be reduced and can also solve the problem of natural sand scarcity. The availability of sand at low cost as a fine aggregate …
Abstract: In the present study an investigation is made on properties of concrete by partial replacement of Cement with Ground Granulated Blast Furnace Slag (GGBS) and Fine Aggregate with Quarry Dust (QD). Ground Granulated Blast Furnace Slag is a by-product of Iron and Steel industry which is produced in large quantities as a solid waste. It is highly cementitious, …
different proportion of quarry dust in concrete. Tests were conducted on cubes and beams to study the strength of concrete made of quarry dust and results were compared with the control concrete. It is found that the compressive and flexural strength of concrete made of quarry dust are nearly 40 % more than the control concrete.
Akeke (2012) "CompressiveStrength of Concrete Using Lateritic Sand And Quarry Dust as Fine Aggregate,"APRN Journal of Engineering and Applied Sciences ISSN 1819 - 6608.  M. Venkata Rao, V. Siva Rama Raju (2016), Strength Characteristics of …
replacement material for sand in concrete. The use of quarry dust in concrete is desirable because of its benefits such as useful disposal of by products, reduction of river sand consumption as well as increasing the strength parameters and increasing the workability of concrete. Continuous generation of wastes from industrial by--
saw dust in the percentage of about 5%, 10%, 15% & 20%. From this various partial replacement of fine aggregate, the result comprise that the 30% of quarry dust and 15% of saw dust replaced for fine aggregate, the compressive strength of 36.26N/mm 2 for 28 days for M30 grade of concrete is achieved and split tensile strength of 3.8N/mm 2
 M. P. Karthik Dr. V. Sreevidya, "Experimental Investigation on Strength Characteristics of Concrete" IJSR - International Journal of Scientific Research, Volume: 4, Issue: 7 July 2015  IJ. Karthick, IIT.Rama," An Experimental Study on Usage of Quarry Rock Dust as Partial Replacement for Sand in Concrete", International Journal of
2. To determine the best suitable ratio of Sand: Quarry Dust in concrete to obtain the desired design compressive strength. 2 Literature Review I. G. Balamurugan and Dr. P. Perumals carried out an experimental study on the replacement of sand with quarry dust in the conventional concrete. In the tenure
to study the effect of partial replacement of fine aggregates by quarry dust and cement by fly ash on cement concrete. 1.2 NEED FOR INVESTIGATION Quarry Dust These residues are generally less than 1% aggregate production in the normal concrete. The introduction of quarry dust for mixing is limited due to its high fineness.
Experimental Investigation on Replacement of Sand by Graded Quarry Dust in Concrete CEX002. Experimental Investigation on Partial Replacement of Cement with Glass Powder CEX003. Parametric Study for Replacement of Sand by Fly Ash for Better Packing and Internal Curing ... Experimental Investigation on Concrete with Using E-waste and Marble Dust
Quarry dust is one of ... concrete. Experimental results show that the washed ... When compared with river sand concrete, 50 and replacement of sea sand with river sand in concrete gives lesser in compressive, ) ) ) IJSER. EXPERIMENTAL STUDY ON CONCRETE USING SEA SAND AS FINE AGGREGATE
The percentages of quarry dust partial replacement of cement in concrete are 0, 10%, 15%, 20%, 25%, 30%, 35%, and 40%. M20, M30, M40 grade concrete cubes of 150x150x150mm size were cast for conducting compressive strength test. From the experimental studies 25% of partial replacement of cement with quarry dust improved hardened concrete ...
Abstract —This study presents an experimental investigation on self-compacting concrete (SCC) with fine aggregate (sand) replacement of a Quarry Dust (QD) (0%, 25%, 50%, 75%, ) and addition of mineral admixtures like Fly Ash (FA) and Silica Fume (SF) & chemical admixtures like super plasticizers (SP).
Sep 01, 2016· From the experimental studies, they reported that 25% partial replacement of cement with quarry dust showed improvement in hardened of concrete. Mustafa et al.,  conducted a review on fly ash-based geopolymer concrete without cement and found that the compressive strength increased with the increasing fly ash fineness and thus reducing the ...
work is an attempt to utilize quarry dust as a Partial replacement of sand in Pav er block. Utilize of quarry dust, decrease the price and safe disposal of waste material is achieved. The experimental investig ations work is carried out by replacing sand with quarry dust in various percentage as 0%, 25%, 50%, 7 5%, .
Abstract. Abstract —This study presents an experimental investigation on self-compacting concrete (SCC) with fine aggregate (sand) replacement of a Quarry Dust (QD) (0%, 25%, 50%, 75%, ) and addition of mineral admixtures like Fly Ash (FA) and Silica Fume (SF) & chemical admixtures like super plasticizers (SP).
Aug 01, 2017· Strength Characteristics of Quarry Dust in Replacement of Sand. K Shyam Prakash 1 and Ch Hanumantha Rao 2. Published under licence by IOP Publishing Ltd IOP Conference Series: Materials Science and Engineering, Volume 225, International Conference on Materials, Alloys and Experimental Mechanics (ICMAEM-2017) 3–4 July 2017, Narsimha …
Dec 01, 2019· In all curing conditions, Compression and tensile strength of concrete with M-sand are on par with conventional natural sand concrete. • Concrete mixes with quarry dust (Mix-C, Mix-AC & Mix-BC) showing lower strength values in all curing conditions. • It found that the most suitable one to replace river sand is M-sand.
Experimental Study on Partial Replacement of Cement by Fly Ash, Silica Fume and Sand with Quarry Dust. Jakkam Snehavi, Anumala Yashwanth. Concrete is the most widely used construction material due to its good compressive strength and durability. Conventional concrete need water curing for a minimum of 28 days to achieve its target strength.
Quarry dust as partial replacement of sand in concrete. Design mix of M20 grade concrete with replacement of 0%, 20%, 30%, 40%, and 50% of quarry dust organized as M1, M2, M3, M4 and M5 respectively have been considered for laboratory analysis viz. slump test,
quarry dust and the suitability to use it as partial replacement material for sand in concrete. Design mix of M20 grade concrete was used with replacement of 0%, 20%, 30%, 40% and 50% of sand by quarry dust. They conducted slump test, compaction factor test, compressive strength (cube, cylindrical sample), split
Since the use of quarry dust in concrete can equivalently be used as a replacement of river sand, it has desirable benefits such as useful disposal of by product. In this investigation the workability and strength features of M20 grade concrete with 50% quarry dust replacement for river sand and 5% and 10% ground nut shell ash for
Sharp sand is now unsustainable due to large-scale depletion and this creates environmental problems. As environmental concerns and other constraints make the availability and use of sharp sand less attractive, a substitute or replacement product for concrete industry needs to be found. Sharp sand is most commonly used as fine aggregates in the production of concrete …
In this experimental investigation, M30 grade were obtained by replacing 0 to 15% replacement of quarry dust instead of Fine aggregate, 0 to 10% of Metakaolin added as supplementary in cement. It shows better result in the mix of 7.5% of Metakaoiln, 0.5% of fiber and 10% of quarry dust in concrete.
various proportion of dust content as partial replacement of In this investigation quarry dust is collected from local stone crushing units. It was initially dry in condition and Specific gravity was observed for quarry dust is 2.54. E. GGBS Ground granular blast …
found that the compressive and flexural strength of concrete made of Quarry Rock Dust are nearly 10% more than the conventional concrete (Suribabu et al., 2015). In the present study it is proposed to investigate the optimum replacement of river sand with stone dust for concrete in term of compressive strength performance at 7 days and 28 days. II.
Partial Replacement of Sand with Quarry Dust in Concrete. -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.
This experimental study presents the variation in the strength of concrete when replacing sand by quarry dust from 0% to in steps of 10%. M20 and M25 grades of concrete were taken for study keeping a constant slump of 60mm. The compressive
and 10%) as replacement to cement and 25% of quarry dust as replacement to fine aggregate i.e., natural sand. The details of each category are described below. DETAILS OF SPECIMENS Size of cube specimen: 150mm×150mm×150mm. RCPT : 100 mm diameter discs with 50mm thick were casted Grade of concrete : M-25(for details refer Annexure-1)
Mar 01, 2020· Design mix of M25grade concrete with replacement of 0%, 20%, 25%, 30%, and 35% of quarry dust organized as M1, M2, M3, M4 and M5 respectively have been considered for laboratory analysis viz ...
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