The construction industry has a pressing need to identify a dependable and cost-effective element as an alternative to conventional reinforced concrete. As a result, ferro-cement has emerged as a promising solution. Its exceptional qualities as a construction material have been thoroughly validated through numerous theoretical and experimental investigations that have taken place across the globe over the course of many years. The endeavour to locate a dependable and more economical alternative in the construction sector instigated the adoption of ferro-cement. This study endeavours to investigate the flexural behavior of both reinforced cement concrete and ferro-cement beams utilizing M30 grade concrete, with the primary objective of conducting a thorough examination of the subject matter. Additionally, the investigation delves into crucial aspects such as ultimate load capacity, deflection characteristics, and the analysis of crack patterns. Moreover, a comprehensive comparison is drawn regarding the total costs incurred for each of the specified types of beams. It is noteworthy that the double-layer Ferro-cement variant, due to its enhanced resilience and potential to serve as a cost-efficient substitute for traditional concrete beams, emerges with discernibly superior flexural strength. This study serves as a testament to the continuous evolution of construction materials and techniques, showcasing the ever-persistent drive to enhance structural performance while optimizing costs. © 2024, Associated Cement Companies Ltd.. All rights reserved.
