AN EXPERIMENTAL STUDY ON THE USE OF DISCARDED GRANITE STONES IN CONCRETE AS PARTIAL REPLACEMENT OF COARSE AGGREGATES

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SAMUEL GNANIAH

AN EXPERIMENTAL STUDY ON THE USE OF DISCARDED GRANITE STONES IN CONCRETE AS PARTIAL REPLACEMENT OF COARSE AGGREGATES

Authors: SAMUEL GNANIAH

Unique Paper ID: 146483
PageNo: 877-881

Keywords: Granite Orthoclase and Monocline Ferro-magnesium minerals Quartz Alkali Feldspar compressive strength Flexural strength

Abstract:
Granite is the most important building stone because it is hardest, most durable naturally available construction material and has great ornamental value. Granite fines which are the byproduct produced in granite factories while cutting huge granite rocks to the desired shapes. It is extensively used in Civil Engineering projects, because of having the following main properties that it is a coarse grained rock, composed of Quartz, Alkali, Feldspar (Orthoclase and Monocline) and small amount of Biotite and Hornblende or both. The average Granite contains 30% Quartz and 10% Ferro-magnesium minerals. Normally the Granite is in light color with a white or pink tint according to the color of Feldspar. It can take fine polish and is the strongest stone amongst all the varieties of available building stones. More production equals more discarded, more discarded creates environmental concerns of toxic threat. An economically viable solution to this problem should include utilization of waste materials for new products which in turn minimize the heavy burden on the nationâ€™s landfills. The construction industry can start being aware of and take advantage of the benefits of using discarded materials. In this study a questionnaire survey targeting experts from construction industry is to be conducted in order to investigate the current practices of the uses of waste in the construction industry. In this paper an attempt is made experimentally to investigate the Strength Behavior of Concrete with the use of Granite stones as replacement aggregates. Concrete is organized with granite stones as replacement of coarse aggregates in altered quantities namely 10%, 20%, 30%, 40%, 50% and 100% and various tests such as compressive strength and Flexural strength were investigated and these values were compared with the conventional concrete without granite stones. Results revealed that, granite stones showed high strength results, economically viable and can be replaced at 100% with conventional coarse aggregates undoubtedly.

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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{146483,
        author = {SAMUEL GNANIAH},
        title = {AN EXPERIMENTAL STUDY ON THE USE OF DISCARDED GRANITE STONES IN CONCRETE AS PARTIAL REPLACEMENT OF COARSE AGGREGATES},
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {4},
        number = {12},
        pages = {877-881},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=146483},
        abstract = {Granite is the most important building stone because it is hardest, most durable naturally available construction material and has great ornamental value. Granite fines which are the byproduct produced in granite factories while cutting huge granite rocks to the desired shapes. It is extensively used in Civil Engineering projects, because of having the following main properties that it is a coarse grained rock, composed of Quartz, Alkali, Feldspar (Orthoclase and Monocline) and small amount of Biotite and Hornblende or both. The average Granite contains 30% Quartz and 10% Ferro-magnesium minerals. Normally the Granite is in light color with a white or pink tint according to the color of Feldspar. It can take fine polish and is the strongest stone amongst all the varieties of available building stones. More production equals more discarded, more discarded creates environmental concerns of toxic threat. An economically viable solution to this problem should include utilization of waste materials for new products which in turn minimize the heavy burden on the nationâ€™s landfills. The construction industry can start being aware of and take advantage of the benefits of using discarded materials. In this study a questionnaire survey targeting experts from construction industry is to be conducted in order to investigate the current practices of the uses of waste in the construction industry. In this paper an attempt is made experimentally to investigate the Strength Behavior of Concrete with the use of Granite stones as replacement aggregates. Concrete is organized with granite stones as replacement of coarse aggregates in altered quantities namely 10%, 20%, 30%, 40%, 50% and 100% and various tests such as compressive strength and Flexural strength were investigated and these values were compared with the conventional concrete without granite stones. Results revealed that, granite stones showed high strength results, economically viable and can be replaced at 100% with conventional coarse aggregates undoubtedly.},
        keywords = {Granite, Orthoclase and Monocline, Ferro-magnesium minerals, Quartz, Alkali, Feldspar, compressive strength, Flexural strength},
        month = {},
        }

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Cite This Article

GNANIAH, S. (). AN EXPERIMENTAL STUDY ON THE USE OF DISCARDED GRANITE STONES IN CONCRETE AS PARTIAL REPLACEMENT OF COARSE AGGREGATES. International Journal of Innovative Research in Technology (IJIRT), 4(12), 877–881.

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