Thus, it can be concluded that stone dust up to 05% with 05% ceramic waste aggregate is satisfactory for use. Results show that with partial replacement of stone dust with 05% and 05% Ceramic waste coarse aggregate, flexural strength increased by 20, 48 and 40% at the age of 28 days as compared to referral concrete.
Investigation of the mechanical strength of stone dust and ceramic waste based composite
the demand of natural sand in concrete, partial or full replacement of natural sand with stone dust is one of the ... waste product like stone dust and ceramic scrap as partial and full replacement of fine aggregate. ... of stone dust on compressive strength of concrete an experimental investigation". International Journal of Engineering ...
[2] M. Veera Reddy Investigations on Stone Dust and Ceramic Scrap as Aggregate Replacement In Concrete, Int. J. Civil Struct. Engin, 1(3), 661-666 (2010). [3] Batriti Monhun, R.Marwein, utilization of ceramic waste in concrete, International Research Journal of Engineering and Technology, 2016
Veera Reddy.M "Investigations on stone dust and ceramic scrap as aggregate replacement in concrete" International journal of civil and structural engineering [vol 1], 2010, PP 661-666 [6]. Sandeep Kumar Singh "An Experimental Investigation on Stone Dust as Partial Replacement" [Vol 3]Issue 5 Oct 2014, PP 229-232 ...
Use of stone dust in concrete not only improve the standard of concrete but also conserve the natural river sand for future generations. In the present investigation, an experimental program was administered to review the workability and compressive strength of concrete made using stone dust as partial replacement of fine aggregate
The compressive strength of hardened concrete samples having CFA (Ceramic Fine Aggregate) was tested and compared with normal reference concrete at an interval of 3, 7, 14 and 28days V. RESULTS & DISCUSSION Workability Test: Slump Cone Test Slump G. SivaPrakash et al [8] (2016) did experimental study on partial replacement of sand by ceramic ...
VeeraReddy.M (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 ...
Results show that with partial replacement of stone dust with 05% and 05% Ceramic waste coarse aggregate, flexural strength increased by 20, 48 and 40% at the age of 28 days as …
IRJET-Study on Properties of Concrete (M40) using Stone Dust and Demolished Concrete Waste as Partial Replacement of Fine and Coarse Aggregate: A Review
The cement concrete stone dust CCSD 7.5 with partial replacement of 7.5% stone dust shows an increase in compressive and flexural strengths of 14.42% and 15.85% 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 ...
It is found that the compressive and flexural strengths of concrete increase on use of stone dust. The replacement level of the fine aggregate (30, 40, 50, 60 and 70%) by stone dust was...
M. Veera Reddy, Investigations on Stone Dust and Ceramic Scrap as Aggregate Replacement In Concrete, Int. J. Civil Struct. Engin., 1(3), 661-666 (2010).
River sand is most commonly used fine aggregate in the production of concrete Quarry stone dust has many of the useful properties of the stone that it comes from. It is very heat resistant and poses the problem of acute shortage in many areas. Quarry rock dust can be an economic alternative to the river sand. Quarry Rock Dust as substitutes for Natural Sand in …
International Journal of Scientific Research in Science and Technology, 2023. Bituminous concrete are most widely used in present era. The cost of bitumen is increase day by day and lack of availability of natural resources increased . for that reason there are an opportunity to use local material resources such as ceramic waste (CW) silica flumes, slag, plastic,rise husk ash …
IS:456-2000 specifications for plain and reinforced concrete. RM Senthamarai and P.Devadasmanoharan, Concrete with ceramic waste aggregate issue,pp. -913. Veerareddy.M Investigations on stone dust and ceramic scrap as aggregate replacement in concrete International journal of civil and structural engineering vol-1 no-3,2010.
In the present study, Ceramic tile waste were used in concrete as a replacement for natural coarse aggregate with 0%, 10%, 20% and 30% of the substitution and M30 grade concrete …
Investigations on stone dust and ceramic scrap as aggregate replacement in concrete. M V Reddy; A Review paper on Experimental Study of High Strength Concrete containing Ceramic Waste as a Tile.
The Present paper investigates the influence of water absorption of ceramic waste aggregate on strength properties of ceramic aggregate concrete. Compressive strength and split tensile strength of concrete made with ceramic waste aggregate is studied with replacement of natural coarse aggregate by ceramic waste aggregate at 0%, 20%, 40%, 60%, 80% and . Due …
The use of stone dust and ceramic waste has great potential to replace the conventional fine aggregate. This replacement shows three directional boons to the society and helps to achieve a sustainable future in the construction industry as an alternative to conventional fine aggregate leads the protecting and saving the natural resources of conventional fine …
In this paper, detailed investigation is carried on concrete by replacing natural sand by stone dust and bottom ash and study the behavior and strength characteristic. Stone dust and …
The results showed that the replacement of stone aggregates with ceramic waste alone tends to reduce the mechanical strength of the concrete. As compared to …
Concrete of M25 grade was designed for a w/c ratio of 0.48 for the replacement of 10% coarse aggregate with recycled coarse aggregate and replacement of 50, 60 and 70% of fine aggregate (sand ...
Study and Investigation on Concrete as a Partial Replacement of Sand with Stone Dust and Steel Scrap. ... It is very essential to develop eco-friendly concrete from ceramic waste. This paper deals with the experimental study on the mechanical strength properties of M20 grade of concrete with the partial replacement of sand by using Stone Dust ...
It is very significant to develop eco-friendly concrete from ceramic waste. This Research deals with the experimental study on the mechanical strength properties of M20 grade concrete with the partial replacement of fine aggregate by using crusher dust and mild Steel Scrap. ... Use of stone dust in concrete not only improves the quality of ...
Experimental Investigation of Bituminous Concrete Mix Using Ceramic Waste and Rice Husk Ash as a Partial Replacement of Filler and Aggregate ... lime and stone dust are used as conventional fillers and RHA & slag as a non conventional filler in bituminous paving mixes. ... It was concluded that from the laboratory investigation that ceramic ...
of concrete using crusted stone dust as fine aggregate.International Journal of Research in Engineering &Applied Sciences, vol. 4(10), pp. 21-28. 2014. 8. Reddy M.V. investigation on stone dust and ceramic scrap as aggregate replacement in concrete.International Journal of Civil and Structural Engineering, vol. 1(3), pp.
The stone dust can be used as conventional fine aggregate. And ceramic scrap can be partially used to replace conventional coarse aggregates up to 20% without affecting its …
Fig. 1. Variation of compressive strength with percentage replacement of Stone dust alongwith 20 % ceramic waste as a coarse aggregate C.C. 0 20 40 60 80 100 Compressive strength at 28 days (N/mm 2) 0 5 10 15 20 25 30 %age replacement of stone dust along with 20% ceramic waste conventional concrete Fig. 2.
The effects of shabath (a variety of cudappah) stone and the chemical admixture (supaflo) on concrete were investigated.Natural aggregate had been replaced with the waste shabath stone in four different percentages namely 10, 20, 30 &40 %. A comparison was made between the specimens of partially replaced coarse aggregate and the same set of specimens admixed …
The current paper focuses on some of the waste elements that are utilized in a concrete mortar (use in roof tile) as a partial replacement for fine aggregates such as rubber …
It has potential to be used as partial replacement of natural river sand in concrete. Use of stone dust in concrete not only improve the quality of concrete but also conserve the natural ... carried out some experiments using waste product like stone dust and ceramic scrap as partial and full prepared six samples of concrete in which first ...
3. Today Ceramic has become synonymous with flooring. In Ceramic Industry, About 30% Productions go as Waste. The use of waste products in concrete not only makes it economical but also solves some of the disposal problems. However, the ceramic waste is durable, hard and highly resistant to biological, chemical, and physical degradation forces. …
The use of waste material as a partial replacement has become popular in concrete mixture studies. Many research has utilized waste materials like cement, fine aggregate, coarse aggregate, and reinforcing materials substitute. ... The suitable replacement level for stone dust is 25% and 50%. While the suitable replacement levels for the ...
The mechanical property of these material will be check whether it is good or bad for bituminous concrete .Ceramic waste and rise husk ash is a good replacement for medium and small traffic roads. ... The value of retained stability of the asphalt concrete mixture using stone dust, rice husk ash and slag are 112.2%, 111.52% and 95.68% ...
RAC-C10 Recycled aggregate concrete made with 90% stone dust with 10% ceramic waste RCA-C15 Recycled aggregate concrete made with 85% stone dust with 15% ceramic waste RAC-C20 Recycled aggregate concrete made with 80% stone dust with 20% ceramic waste RAC-C25 Recycled aggregate concrete made with 75% stone dust with 25% ceramic waste
Table 7 shows Tensile Strength of Ceramic Waste concrete. At 15% Replacement of Ceramic waste concrete Tensile strengths are 2.99 Mpa, 3.94 Mpa for 3, 7 days respectively. At 10% replacement of ceramic waste concrete Tensile strengths are 2.92 Mpa,3.83 Mpa, 3.84 Mpa for …
