Effect of silica fume and glass powder for enhanced impact resistance in GGBFS-based ultra high-performance geopolymer fibrous concrete: An experimental and statistical analysis

Solid waste recycling is an economically sound strategy for preserving the environment, safeguarding natural resources, and diminishing the reliance on raw material consumption. Geopolymer technology offers a significant advantage by enabling the reuse and recycling of diverse materials. This resear...

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Bibliographic Details
Main Authors:	Murali G., Nassar A.K., Swaminathan M., Kathirvel P., Wong L.S.
Other Authors:	57203952839
Format:	Article
Published:	KeAi Communications Co. 2025
Subjects:	Binders Blast furnaces Compressive strength Fracture mechanics Geopolymers Glass High performance concrete Impact strength Inorganic polymers Recycling Scanning electron microscopy Silica fume Silicates Slags Sodium hydroxide Steel fibers Fibrous concrete Geopolymer Geopolymer concrete GGBFS Glass Powder Number values Raw material consumption Solid waste recycling Ultra high performance Weibull analysis Microstructure
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