Year : 2025 | Volume : 15 | Issue : 03 | Page : 99 103

Kumar Sanu,

Pritam Priya,

Abstract

Self-compacting concrete (SCC) is a revolutionary material in contemporary construction, with better workability and lower labor requirements without any sacrifice in strength or durability. The latest advances have been in terms of furthering its environmental and performance attributes by using different materials and methods. One of them is substituting ordinary Portland cement with high-volume fly ash and calcined calcium carbonate (BCC), cutting CO₂ emissions by as much as possible while retaining or even enhancing compressive strength and durability. A second approach employs aluminum oxide (Al₂O₃) nanoparticles and glass fibers to increase particle packing and crack resistance, leading to as much as 61% increase in compressive strength and more than 100% increase in tensile strength. Furthermore, utilization of domestic wastewater with different levels of chemical oxygen demand (COD) is a viable solution for minimizing freshwater intake in concrete production. Whereas low-COD wastewater has good workability and strength, increased COD levels necessitate close monitoring because they may have a detrimental effect on hydration and durability. Comparative study of these methods reveals the ability of SCC to achieve worldwide sustainability objectives, optimize industrial byproducts, and minimize reliance on rare resources. Fly ash-BCC blends are particularly suited for green infrastructure, nanoparticle and fiber-reinforced SCC is best for high-performance uses, and SCC made from wastewater presents a viable solution in water-scarce areas. Together, these innovations show the potential for SCC to become a more sustainable, high-performance building material. Further research on hybrid technologies, life cycle analyses, and field scalability will be critical to taking SCC’s place in future green construction models

Keywords: Fly ash, calcined calcium carbonate, glass fibers, aluminum oxide nanoparticles, self-compacting concrete, reusing wastewater, and environmentally friendly building.

[This article belongs to Journal of Construction Engineering, Technology & Management ]

How to cite this article:
Kumar Sanu, Pritam Priya. Comparative Review of Innovations in Self-Compacting Concrete (SCC) Technologies. Journal of Construction Engineering, Technology & Management. 2025; 15(03):99-103.

How to cite this URL:
Kumar Sanu, Pritam Priya. Comparative Review of Innovations in Self-Compacting Concrete (SCC) Technologies. Journal of Construction Engineering, Technology & Management. 2025; 15(03):99-103. Available from: https://journals.stmjournals.com/jocetm/article=2025/view=215900

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Regular Issue Subscription Review Article

Journal of Construction Engineering, Technology & Management

ISSN: 2249-4723

Volume	15
Issue	03
Received	16/05/2025
Accepted	24/06/2025
Published	26/06/2025
Publication Time	41 Days

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