Enhancing Compressive Strength of M25 Grade Concrete Using Ceramic Tiles Waste and Waste Fiber Metal: A Path Toward Sustainable Construction

Year : 2024 | Volume : 11 | Issue : 03 | Page : 13 19
    By

    Gaurav Kumar Singh,

  • Harsh Rathore,

Abstract

This study explores the use of Ceramic Tiles Waste and Waste Fiber Metal as partial replacements in
M25 grade concrete, focusing on their impact on compressive strength. Various combinations of waste
materials were tested to determine the optimal mix proportions. Compressive strength tests were
conducted on concrete cubes incorporating 0.30%, 0.40%, and 0.50% Waste Fiber Metal with varying
percentages of Ceramic Tiles Waste ranging from 20% to 50%. The results indicated that the highest
compressive strength was achieved with a mix of 0.50% Waste Fiber Metal and 31% Ceramic Tiles
Waste, surpassing the standard concrete mix. This combination demonstrated a compressive strength of
36.6 N/mm² at 28 days, making it a viable option for structural applications. The findings suggest that
the integration of Ceramic Tiles Waste and Waste Fiber Metal can produce concrete with improved
strength characteristics, contributing to sustainable construction practices by utilizing industrial waste.

Keywords: Ceramic Tiles Waste, Waste Fiber Metal, Sustainable Concrete, Low-Cost Road Construction, Waste Material Utilization

[This article belongs to Journal of Structural Engineering and Management ]

How to cite this article:
Gaurav Kumar Singh, Harsh Rathore. Enhancing Compressive Strength of M25 Grade Concrete Using Ceramic Tiles Waste and Waste Fiber Metal: A Path Toward Sustainable Construction. Journal of Structural Engineering and Management. 2024; 11(03):13-19.
How to cite this URL:
Gaurav Kumar Singh, Harsh Rathore. Enhancing Compressive Strength of M25 Grade Concrete Using Ceramic Tiles Waste and Waste Fiber Metal: A Path Toward Sustainable Construction. Journal of Structural Engineering and Management. 2024; 11(03):13-19. Available from: https://journals.stmjournals.com/josem/article=2024/view=184271


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Regular Issue Subscription Original Research
Volume 11
Issue 03
Received 16/10/2024
Accepted 18/10/2024
Published 21/10/2024
443

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