A STUDY ON HIGH PERFORMANCE CONCRETE (M-110) – USING A LIMITED AMOUNT OF GGBS, SLICA FUMES, AND FIBERS

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Palash Dave; Satyendra Dubey; Anubhav Rai

A STUDY ON HIGH PERFORMANCE CONCRETE (M-110) – USING A LIMITED AMOUNT OF GGBS, SLICA FUMES, AND FIBERS

Authors: Palash Dave, Satyendra Dubey, Anubhav Rai

Unique Paper ID: 170140
Volume: 11
Issue: 6
PageNo: 3471-3477

Keywords: GGBS Silica fume Compressive Strength Workability.

Abstract:
This abstract presents an overview of high-performance concrete's essential properties, ingredients, and uses, highlighting its importance in modern construction practices. Superior raw materials, accurate mix design, and innovative production procedures are used to create high-performance concrete. Portland cement, extra cementitious components (such silica fume or fly ash), high-range water reducers, and well-graded aggregates are the key elements. Here, the extra cementitious material GGBS is also used to achieve the desired strength. This abstract highlight the potential of GGBS as an eco-friendly and high-performing substitute by offering an understanding of the main characteristics, composition, and benefits linked with high-performance concrete boosted by its addition. GGBS is composed primarily of glassy granules, with chemical constituents such as silica, alumina, calcium oxide, and magnesium oxide. When added to concrete, GGBS's pozzolanic and latent hydraulic qualities are well-known for improving concrete's performance. The glassy nature of GGBS makes it highly reactive and contributes to the improved performance of concrete Lower porosity is a result of both the reduced water-to-cement ratio and the use of mineral admixtures, which increases HPC's resilience in harsh settings. Better workability also makes placement and consolidation easier, enabling complex architectural ideas and cutting down on building time. The abstract underscores the economic and environmental benefits of using GGBS in high-performance concrete, positioning it as a viable solution for achieving both strength and sustainability goals in the construction industry. This topic tell about the what should be the exact amount of percentage GGBS should be used to gain 110MPa.

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Copyright © 2025 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{170140,
        author = {Palash Dave and Satyendra Dubey and Anubhav Rai},
        title = {A STUDY ON HIGH PERFORMANCE CONCRETE (M-110) – USING A LIMITED AMOUNT OF GGBS, SLICA FUMES, AND FIBERS},
        journal = {International Journal of Innovative Research in Technology},
        year = {2024},
        volume = {11},
        number = {6},
        pages = {3471-3477},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=170140},
        abstract = {This abstract presents an overview of high-performance concrete's essential properties, ingredients, and uses, highlighting its importance in modern construction practices. Superior raw materials, accurate mix design, and innovative production procedures are used to create high-performance concrete. Portland cement, extra cementitious components (such silica fume or fly ash), high-range water reducers, and well-graded aggregates are the key elements. Here, the extra cementitious material GGBS is also used to achieve the desired strength. This abstract highlight the potential of GGBS as an eco-friendly and high-performing substitute by offering an understanding of the main characteristics, composition, and benefits linked with high-performance concrete boosted by its addition. GGBS is composed primarily of glassy granules, with chemical constituents such as silica, alumina, calcium oxide, and magnesium oxide. When added to concrete, GGBS's pozzolanic and latent hydraulic qualities are well-known for improving concrete's performance. The glassy nature of GGBS makes it highly reactive and contributes to the improved performance of concrete Lower porosity is a result of both the reduced water-to-cement ratio and the use of mineral admixtures, which increases HPC's resilience in harsh settings. Better workability also makes placement and consolidation easier, enabling complex architectural ideas and cutting down on building time. The abstract underscores the economic and environmental benefits of using GGBS in high-performance concrete, positioning it as a viable solution for achieving both strength and sustainability goals in the construction industry. This topic tell about the what should be the exact amount of percentage GGBS should be used to gain 110MPa.},
        keywords = {GGBS, Silica fume, Compressive Strength, Workability.},
        month = {December},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 11
Issue: 6
PageNo: 3471-3477

A STUDY ON HIGH PERFORMANCE CONCRETE (M-110) – USING A LIMITED AMOUNT OF GGBS, SLICA FUMES, AND FIBERS

Available:https://ijirt.org/article?manuscript=170140

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