[Show full abstract] effect of partial replacement of natural sand with stone dust in concrete Experimental programme was conducted using 30% 40% 50% 60% and 70% partial replacement of fine
The escalating demand for natural resources within the construction industry is progressing upward At the same time however there is a great concern regarding the depletion of these resources This review paper emphasizes the significance of utilizing alternative aggregate materials in concrete Particularly it aims to explore replacing natural sand with
Compressive Strength MPa 28th Day Compressive Strength 70 69 68 67 66 65 64 63 62 61 60 OPCQD SFQD FAQD 0% 20% 40% Percentage of Quarry Dust as Fine Aggregates Fig 1 28th Day Compressive Strength of Water Cured Concrete Specimens Water Binder Ratio = Figure 1 and Figure 2 shows the 28th day compressive strength of concrete
The cement concrete stone dust CCSD with partial replacement of % stone dust shows an increase in compressive and flexural strengths of % and % at 28 and 56 days as compared to the nominal mix respectively The increase in strength is due to the dense microstructure of the specimen in the presence of fine crushed stone dust
Experimental Investigation on Concrete byPartial Replacement of Fine Aggregate with Ceramic Powder Structural Engineering Student Arulmigu Meenakshi Amman College of Engineering Vadamavandal 604 410 Thiruvannamalai Dt Assistant Professor Arulmigu Meenakshi Amman College of
2010 Investigations on stone dust and ceramic scrap as aggregate replacement in concrete International journal of civil and structural engineering Volume 1 No 3 ISSN 0976
The results of the test show that the stone dust can be effectively used in partial replacement of the total concrete in the concrete It has been found that the use of stone dust increases the compressed and flexible strength of the concrete The replacement level of the fine stone dust 30% 40% 50% 60% and 70% was checked by stone dust
References [1] Hemanth kumaret al Effect of Waste Ceramic Tiles in Partial Replacement of Coarse and Fine Aggregate of Concrete International Advanced Research Journal in Science Engineering and Technology Vol 2 Issue 6 June 2015 ISSN Online 2393 8021 ISSN Print 2394 1588 [2] IS 4031 1 1996 Methods of physical tests for hydraulic cement part 1 6
The range of Hawassa ceramic Factory products include ¾ Sanitary Wares WC Hand wash Basin Soap and tissue holder ¾ Ceramic Wall tile Size 15x15x6mm ¾ Table ware and Insulators The above
This research aims at deriving the mechanical properties of concrete containing waste ceramic sanitary ware as coarse aggregate fine aggregate and ceramic powder as a partial replacement against natural coarse aggregate natural river sand and Portland cement respectively Various physical and chemical properties of these materials were obtained to
The compressive strength of concrete mix had increased by 22% with the use of crusher dust at 40% replacement of natural sand Pofale et al 2013 The present study aimed to utilizing stone dust as
The percentages of stone dust replacing sand were varied from 0 20 30 40 60 80 and 100% to find out the maximum percentage of stone dust to replace sand from river to produce the maximum
of concrete using crusted stone dust as fine Journal of Research in Engineering &Applied Sciences vol 4 10 pp 21 28 2014 8 Reddy investigation on stone dust and ceramic scrap as aggregate replacement in Journal of Civil and Structural Engineering vol 1 3 pp
Because stone dust has a good binding capacity the results showed that using it as a fine aggregate replacement in a mixture of lightweight bricks increased the compressive strength; the highest
replacement for sand in concrete with the conventional coarse aggregate partially/fully replaced by ceramic scrap and concluded that the 28 days strength in compression split tension and modulus of rupture found increased for total replacement of sand with up to 20% replacement of coarse aggregate by ceramic scraps
slove the problems of disposal of stone dust The workability of concrete reduces with the increase in stone dust and this can be improved by adding suitable admixtures Chandana Sukesh et al They have studied about the partial replacement of cement in concrete by use of waste material like cement kiln dust ceramic waste
experiments Different samples of conventional concrete and stone dust concrete were prepared and tested It was concluded that strengthen properties like compressive strength and tensile strength increased when stone dust was replaced by more than 60% 9 Bhiksham V Kishore R and Raju worked on concrete of M40 grade
Abbas M 2020 Physical and mechanical investigation of concrete having marble dust and partial replacement of fine aggregate Global Scientific Journal 8 8 2676 2682 Google Scholar Abbas S Ahmed A Nehdi ML Saeed D Abbass W Amin F 2020 Eco friendly mitigation of alkali silica reaction in concrete using waste marble powder
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This article presents a comprehensive literature review of the main trends in utilizing stone dust in recycled aggregates in the past decade and its influence on concrete properties
In recent years many researchers in the construction industry had taken up the challenge to incorporate non biodegradable wastes as partial replacement of cement and/or natural aggregates in the daily production of cement based materials Various efforts were intended to understand the influence of using marble dust in concrete due to its availability and
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