A REVIEW ON EXPERIMENTAL INVESTIGATION ON PARTIAL REPLACEMENT OF CEMENT WITH ULTRAFINE MATERIAL AND FINE AGGREGATE WITH FOUNDARY SAND

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Miss. Sampada .J.Ohol.; Prof. Y.P. Pawar; Prof.G.D.Lakade

A REVIEW ON EXPERIMENTAL INVESTIGATION ON PARTIAL REPLACEMENT OF CEMENT WITH ULTRAFINE MATERIAL AND FINE AGGREGATE WITH FOUNDARY SAND

Authors: Miss. Sampada .J.Ohol., Prof. Y.P. Pawar, Prof.G.D.Lakade

Unique Paper ID: 196713
Volume: 12
Issue: 11
PageNo: 4419-4425

Keywords: Concrete Cement Foundry Sand Alccofine Supplementary Cementitious Materials (SCM’s) strength and durability characteristics.

Abstract:
One of the most often utilized materials in the building industry is concrete. Cement is a major ingredient in concrete. The production of cement releases a significant amount of carbon dioxide into the atmosphere, which is a primary cause of the greenhouse effect and global warming. As a result, finding a substance to replace cement in concrete becomes essential. When making concrete, a variety of additional Supplementary Cementitious Materials (SCMs) have been utilized in place of some of the cement. Additionally, the need for high-performance concrete is growing daily. A new generation of ultrafine supplemental cementitious material is used in the manufacturing of environmentally friendly concrete that is strong and long-lasting. Alccofine is a new type of microfine concrete material that can be used in place of some of the cement in concrete. Concrete's properties can be enhanced by substituting some of the cement with alccofine. Additionally, Alccofine is simple to use and can be mixed right into cement. The impact of partially substituting alccofine for cement in concrete is the subject of this paper's evaluation of published works by a variety of writers. The strength and durability of concrete can be enhanced by partially substituting alccofine for cement. Waste foundry sand is a by-product that seems to have the ability to partially replace ordinary sand as a fine aggregate in concrete, giving them a chance to be recycled. A recent trend in low-cost concrete manufacturing is the replacement of fine sand with foundry sand, which successfully uses waste foundry sand as an engineering material while lowering disposal and environmental issues. Environmental issues are brought on by industry-generated waste. Therefore, it is important to stress the utilization of this waste. A by-product of the manufacture of both ferrous and nonferrous metal casting industries, foundry sand is a premium silica sand.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{196713,
        author = {Miss. Sampada .J.Ohol. and Prof. Y.P. Pawar and Prof.G.D.Lakade},
        title = {A REVIEW ON EXPERIMENTAL INVESTIGATION ON PARTIAL REPLACEMENT OF CEMENT WITH ULTRAFINE MATERIAL AND FINE AGGREGATE WITH FOUNDARY SAND},
        journal = {International Journal of Innovative Research in Technology},
        year = {2026},
        volume = {12},
        number = {11},
        pages = {4419-4425},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=196713},
        abstract = {One of the most often utilized materials in the building industry is concrete. Cement is a major ingredient in concrete. The production of cement releases a significant amount of carbon dioxide into the atmosphere, which is a primary cause of the greenhouse effect and global warming. As a result, finding a substance to replace cement in concrete becomes essential. When making concrete, a variety of additional Supplementary Cementitious Materials (SCMs) have been utilized in place of some of the cement. Additionally, the need for high-performance concrete is growing daily. A new generation of ultrafine supplemental cementitious material is used in the manufacturing of environmentally friendly concrete that is strong and long-lasting. Alccofine is a new type of microfine concrete material that can be used in place of some of the cement in concrete. Concrete's properties can be enhanced by substituting some of the cement with alccofine. Additionally, Alccofine is simple to use and can be mixed right into cement. The impact of partially substituting alccofine for cement in concrete is the subject of this paper's evaluation of published works by a variety of writers. The strength and durability of concrete can be enhanced by partially substituting alccofine for cement.
Waste foundry sand is a by-product that seems to have the ability to partially replace ordinary sand as a fine aggregate in concrete, giving them a chance to be recycled. A recent trend in low-cost concrete manufacturing is the replacement of fine sand with foundry sand, which successfully uses waste foundry sand as an engineering material while lowering disposal and environmental issues. Environmental issues are brought on by industry-generated waste. Therefore, it is important to stress the utilization of this waste. A by-product of the manufacture of both ferrous and nonferrous metal casting industries, foundry sand is a premium silica sand.},
        keywords = {Concrete, Cement, Foundry Sand, Alccofine, Supplementary Cementitious Materials (SCM’s), strength and durability characteristics.},
        month = {April},
        }

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Cite This Article

.J.Ohol., M. S., & Pawar, P. Y., & Prof.G.D.Lakade, (2026). A REVIEW ON EXPERIMENTAL INVESTIGATION ON PARTIAL REPLACEMENT OF CEMENT WITH ULTRAFINE MATERIAL AND FINE AGGREGATE WITH FOUNDARY SAND. International Journal of Innovative Research in Technology (IJIRT), 12(11), 4419–4425.

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