Effect of Alumina Additives on Mechanical and Fresh Properties of Self-Compacting Concrete: A Review

Self-compacting concrete (SCC) has been increasingly used in the construction sector due to its favorable characteristics in improving various durability and rheology aspects of concrete such as deformability and segregation resistance. Recently, the studies on the application of nano-alumina (NA) produced from factory wastes have been significantly considered to enhancing the performance, and mechanical strength, of SCC. Many experimental works show that NA can be used in SCC with appropriate proportion to enjoy the benefits of improved microstructure, fresh and hardened properties, durability, and resistance to elevated temperature. However, a limited detailed review is available to particularly study using NA to improve the performance of SCC, so far. Hence, the present study is conducted to fill the existing gap of knowledge. In this study, the effect of using NA in improving rheological, mechanical parameters, and elevated temperature resistance of SCC is reviewed. This research summarized the studies in this area, which have been different from the previous researches, and provided a discussion on limitations, practical implications, and suggestions for future studies.

Automated summary

This study reviews and summarizes the effects of using nano-alumina (NA) to enhance the performance of self-compacting concrete (SCC), addressing a gap in existing knowledge. It provides insights into rheological, mechanical parameters, and elevated temperature resistance of SCC, offering discussions on limitations, practical implications, and suggestions for future research.