The partial replacement of cement in concrete with the addition of granite powder and fly ash can help to reduce the carbon dioxide (CO2) emissions into the atmosphere associated with cement ...
This paper aims to assess the mechanical and long-term durability performance of reactive powder concrete (RPC) containing granite powder (GrP) as …
Draft Utilization of Granite powder and Glass Powder in Reactive Powder Concrete: Assessment of Strength and Long Term Durability Properties Dr. Venkatesan B 1, Dr. Kannan V 2, Dr. Sophia M 3 1 Assistant Professor, Department of Civil Engineering, Anna University Regional Campus Tirunelveli, Tamilnadu 627007, India
Use of marble and granite dust waste as partial replacement of fine aggregates in concrete Aditi A Mhamal 1 and Dr. P. P Savoikar 2 ... Kumar et al. [5] completed investigation on characteristic studies of concrete with waste granite powder as replacing sand partially by 0%, 10%, 20%, 30%, 40% and 50%. It was seen that at replacement of
The result show that the concrete with an appropriate dosage of granite powder exhibits favorable workability, impermeability performance and cohesiveness. And granite powders agree with cement ...
Savadkoohi and Reisi [31] introduced granite industrial waste as substitution of silica fine aggregate in reactive powder concrete (RPC). Granite industrial waste was substituted in various ...
An experimental investigation has been carried out to explore the possibility of using the granite powder and iron powder as a partial replacement of sand in concrete. Twenty cubes and ten beams of concrete with GP and twenty cubes and ten beams of …
Self-Compacting Concrete (SCC): Incorporating granite powder in self-compacting concrete mixes can improve the flowability and filling ability of the concrete without the need for mechanical vibration. The fine particles of granite powder fill the voids between larger aggregates, resulting in a dense and homogeneous concrete mixture.
The ornamental granite stone-processing industries of Tamilnadu state produce tons of fine powder wastes during sawing and polishing. It is a non-biodegradable waste that can be easily inhaled by human being and animals and is also harmful to the environment. The main objective of this study is to investigate experimentally the suitability of granite …
The experimental parameter was percentage of granite powder substitution. Concrete mixtures were prepared by 0%, 5%, 10%, 15%, 20% and 25% of fine/natural aggregate substituted by GP waste ...
Table3: Split Tensile strength of concrete with granite powder and ceramic tiles as partial replacement of cement in concrete Sl.no MIX DESIGNATION Aggregate Replacement % (CCA+GP) 7 days 28 days 1 M0 0 1.88 2.74 2 M1 10+10 1.99 2.85 3 M2 20+10 2.13 3.11 4 M3 30+10 2.48 3.46 ...
while granite powder was used in place of the fine aggregate. 3.2 Granite powder The chemical and mineral makeup of granite is comparable to that of cement and natural aggregates since granite powder is produced by crushing granite rocks. It was selected so that concrete behaviour and ceramic tile waste could be tested. 4.
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A powder obtained as a by-product of marble sawing and shaping was characterized from a chemical and physical point of view in order to use it as mineral addition for mortars and concretes ...
This paper aims to assess the mechanical and long-term durability performance of Reactive Powder Concrete (RPC) containing Granite Powder (GrP) as …
containing 25% granite powder concrete, which was 4. 7. 35 kPa after 90 days. The overall test performance revealed that granite powder can be utilized as a partial replacement of
However, 10–50% of MD replacement with ISF slag provided a better result. Ghannam et al. [9] worked on exploring the possibility of using granite powder and iron powder in the preparation of concrete as a PR of sand. The granite and iron powders were added at the proportions of 5, 10, 15, and 20% by weight respectively.
3. Slump flow (mm) variations for 10% of cement replaced by granite powder in concrete. 740 690 660 600 650 700 750) 0.2% 0.4% 0.6% Fiber content Slump flow Fig.4 Slump flow (mm) variations for 30% of cement replaced by granite powder in concrete. VI. GRANITE CONTENT When granite powder content in the concrete fluid is
Concrete is prepared in four different propositions with granite powder constant at 10 % (obtained from various literatures) & Iron Powder as 10%, 15%, 20% and 25%.
Mechanical properties and water permeability improved through the use of granite powder and drying shrinkage of all mixes was similar. The specific gravity of granite powder was reported as 2.58. ... substituted fine aggregate in concrete by granite powder up to 25% or 160 kg/m 3 with w/c of 0.40 with only water (186 kg/m 3) and …
The glass powder (GP) in 5%, 10%, 15%, 20% and 25%, and granite powder (GrP) in 10%, 20%, 30%, 40% and 50%, were added in the concrete mixes as a partial supplement of cement and sand, respectively. Durability performance of a series of blended mixes was evaluated for water absorption, water permeability, acid attack, …
granite powder added by weight a range viz. 0, 25 and 50% as a replacement of sand (fine aggregates) used in concrete. Mixes incorporating 0% granite powder, or 25% granite powder, or 25% granite powder were designated as GP0, GP25 and GP50 respectively. Cement was replaced with Silica fume, fly ash, slag and superplasticiser for each …
Many researchers have studied the use of granite dust as a replacement for sand in conventional concrete. Prokopski et al. have agreed that granite dust is suitable as a concrete component. Ghanam et al. have proposed partial replacement of sand with an iron powder and granite dust mixture. It is found that replacing natural sand …
Structural concrete is the base of all construction activities and is the one of the most used substance, with nearly 3 tons used by each person on earth yearly [1][2][3] [4].Most of the current ...
(Elangovan & Ruban, 2017) studied concrete's flexural behavior by partially replacing cement with glass powder and fine aggregate with granite powder. Compared mechanical properties to regular concrete after 7, 14, and 28 days of curing. Found glass and granite powder replacements effective, reducing cement use and cutting construction costs.
The use of waste products like fly ash in self-compacting concrete (SCC) is a common practice. In regions where a lot of waste generated due to sawing and polishing of granite and marble has a ...
torsion. However, to use cement concrete for common structures such as beams, slabs, retaining structure etc, steel bars may be placed at tensile zones of the structure which may then be concrete. 4.2 Granite Powder and others, granite powder, a byproduct of the granite polishing manufacturing, holds promise for use in concrete.
Download Citation | Granite powder as partial replacement of cement in M30 grade concrete mix using IS 10262:2019 | Purpose This study aims at designing consistent and durable concrete by making ...
Similarly, Venkatesan et al. (2022) reported that substituting granite powder with cement at the optimum level of 15% enhances the performance of RPC (Venkatesan et al., 2022).Also, the effects of ...
Researchers recommend that concrete incorporated with the GP by natural fine aggregate up to 30% for use in all structural applications, added GP at 10%, 20%, 30%, 40% and …
Studies were conducted using varying proportions of granite powder in canal lining concrete to determine the effect on compression resistance, impermeability and freeze–thaw cycling. The concrete microstructure was assessed using mercury intrusion porosimetry, scanning electron microscopy, and other methods.
Request PDF | On Feb 1, 2009, S. Dhanapandian and others published Utilisation of Granite and Marble sawing powder wastes as brick materials | Find, read and cite all the research you need on ...
About. PDF. Tools. Share. Abstract. Studies were conducted using varying proportions of granite powder in canal lining concrete to determine the effect on …
The granite powder particles have rough surfaces showing irregular granular shapes (Figure ), and it is observed that the granite powder is in the form of quartz, albite, anor-thite, and biotite (Figure X). Figure Y shows the particle distributions of cement and granite powder, showing that the sieved granite powder is finer than cement.
