212· Materials and Methods Materials White granite waste from the slab finishing process was supplied by the Brumagran company, located in Cachoeiro de Itapemirim, Brazil. The steel waste, called FGD (Flue Gas Desulfurization), a waste dust from the gas treatment of the steel coking ovens, supplied by ArcelorMittal Serra, Brazil, was also used.
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1130· Besides preventing valuable natural resources from going to waste, using stone waste from stone processing plants in concrete helps reduce environmental pollution and, therefore, offers a convenient route to sustainable development. The present study aims to use granite waste (GW) in high-strength refractory concrete.
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919· This study presents an in-depth investigation into the utilization of granite waste as a partial replacement for the M-sand in geopolymer concrete in various proportions such as 5, 10, 15, and 20%. Geopolymer in this study is made using GGBS as the precursor material and RHA-based derivative as the activator solution. The experimental research focuses on …
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41· This study is based on reviewing the published research reports on the effects of waste marble and granite dust (WMGD) on the physico-mechanical . It is observed that the use of marble dust and granite dust at a certain amount reduced the cost of construction, and the concrete properties are positively affected.
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Additionally, granite waste sand contains a higher fines content than dune sand and clinker waste sand. Sand equivalent tests confirm that all sands fall within the 70% to 80% cleanliness …
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2016310· The present study investigates the feasibility of using granite cutting waste (GCW) as a partial substitute of river sand in high strength concrete based on strength, durability & microstructural attributes.
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A. Sand Replacement: Vijayalakshmi and Sekar (2013) investigated the suitability of granite powder (GP) waste as a substitute material for fine/natural aggregate in concrete production.
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2020315· Reducing waste disposal from stoneware industry and reducing use of sand in construction industry are both important for sustainable development. One strategy to tackle both problems is to utilize the waste from stoneware factories to replace the sand in mortar/concrete production. To study the possible use of granite polishing waste (GPW) as sand replacement, …
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Abstract - The granite industry produces substantial waste in the form of Waste Granite Powder (WGP) that remains non-biodegradable. This study explores the utilization of WGP in concrete production to have a green solution for waste disposal and environmental problems. Therefore, this study aimed to investigate how replacing fine aggregates with WGP influences both …
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A. Sand Replacement: Vijayalakshmi and Sekar (2013) investigated the suitability of granite powder (GP) waste as a substitute material for fine/natural aggregate in concrete production.
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This work aims to characterize and evaluate the possibilities of using the granite sawing wastes, generated by the process industries from Salem District, as alternative raw materials in the production of concrete. This granite powder waste can be utilized for the preparation of concrete as partial replacement of sand.
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2016415· Hence, GCW can be used as a partial substitute of river sand and thereby reducing cost of concrete production. Optimal replacement of sand by GCW can open up new avenues in sustainable construction techniques and reduce the detrimental effect on environment due to waste disposal.
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2016310· The excessive consumption of river sand as a construction material has led to its acute scarcity. Researchers across the globe have attempted to utilize waste of copper slag, rubber tyre, recycled glass, pond ash, foundry sand, plastic, stone etc. as a partial or complete substitute of river sand in concrete. The present study investigates the feasibility of using …
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2025429· Talk to us Essential equipment for waste rock sand making A complete set of waste rock management and sand processing equipment is key to efficient resource reuse. With a systematic production flow, mining operations can turn waste rock into high-value construction sand, boosting output and environmental performance.
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41· In this study, the feasibility of reusing granite waste produced by natural stone processing factories in production of ed concrete was investigated. Seven ed concrete mixtures with the density of 1400–2000 kg/m3 were designed, and it was made once with fine sand and once with granite waste.
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20241113· Sand Production Process Of Mining Waste In the past few years, the construction industry has witnessed unprecedented growth, leading to an increased demand …
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In a world where sustainability is becoming increasingly crucial, innovative solutions are emerging to tackle waste while creating durable products. One …
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20201130· This research intends to use granite waste (GW) and fly ash as alternatives for fine aggregate and cement, respectively, for the sustainable production of self-compacting concrete (SCC). The fresh properties were evaluated using slump flow, T 500 flow, V-funnel, J-ring, and L-box tests, while the hardened properties were evaluated in terms of using …
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110· Sand and cement are indispensable ingredients of concrete but their production is causing sustainability problems. Two strategies have been adopted to reduce their consumption, namely, sand replacement with solid waste and …
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The excessive consumption of river sand as a construction material has led to its acute scarcity. Researchers across the globe have attempted to utilize waste of copper slag, rubber tyre, recycled glass, pond ash, foundry sand, plastic, stone etc. as a partial or complete substitute of river sand in concrete. The present study investigates the feasibility of using granite cutting …
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212· Materials and Methods Materials White granite waste from the slab finishing process was supplied by the Brumagran company, located in Cachoeiro de Itapemirim, Brazil. The steel waste, called FGD (Flue Gas Desulfurization), a waste dust from the gas treatment of the steel coking ovens, supplied by ArcelorMittal Serra, Brazil, was also used.
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20201130· This research intends to use granite waste (GW) and fly ash as alternatives for fine aggregate and cement, respectively, for the sustainable production of self-compacting concrete (SCC). The fresh properties were evaluated using slump flow, T 500 flow, V-funnel, J-ring, and L-box tests, while the hardened properties were evaluated in terms of using …
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20241115· The technical performance evaluation performed through physio-mechanical performance revealed that 20% natural sand replaced by granite cutting waste (GCW) is best suitable for rendering application. The compatibility of GCW as natural sand is advocated by SEM and FTIR analysis.
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Granite is a well-known building and decorative material, and, therefore, the amount of produced waste in the form of granite powder is a problem. Granite …
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2016310· The excessive consumption of river sand as a construction material has led to its acute scarcity. Researchers across the globe have attempted to utilize waste of copper slag, rubber tyre, recycled glass, pond ash, foundry sand, plastic, stone etc. as a partial or complete substitute of river sand in concrete. The present study investigates the feasibility of using …
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2025429· Talk to us Essential equipment for waste rock sand making A complete set of waste rock management and sand processing equipment is key to efficient resource reuse. With a systematic production flow, mining operations can turn waste rock into high-value construction sand, boosting output and environmental performance.
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Abstract: This comprehensive review and scientometric ana-lysis address the critical need for sustainable construction practices by examining the utilization of granite waste in concrete. The study responds to mounting environmental challenges in construction waste management, particularly addressing granite processing waste which comprises 50–60% of production …
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In the review of utilization of those waste, this paper reviewed recycling various waste material in bricks production. The effects of those wastes on the bricks properties as physical, mechanical properties will be reviewed and recommendations for future research as out comings of this review will be given.
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2020315· Reducing waste disposal from stoneware industry and reducing use of sand in construction industry are both important for sustainable development. One strategy to tackle both problems is to utilize the waste from stoneware factories to replace the sand in mortar/concrete production. To study the possible use of granite polishing waste (GPW) as sand replacement, …
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20241115· The technical performance evaluation performed through physio-mechanical performance revealed that 20% natural sand replaced by granite cutting waste (GCW) is best …
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