Fiber incorporation and crack control: A synergistic approach to improving serviceability of RC concrete

Abstract

This research elaborates on how cracking affects RC fiber concrete serviceability. It describes the different forms of fibrous concrete and how they function under cracking impact, enhancing concrete structure serviceability. Practical mechanical behavior language is often used to assess materials' performance. Historical assessment should help create experiences using RC fiber concrete, which reduces cracking and enhances concrete structures' serviceability. The issue is chronologically linked through early and modern author references. However, fibrous concrete's construction path is desirable worldwide. Fibrous concrete is employed in many building applications, from rehabilitation to new construction, due to its advantages over conventional construction materials. Lightness, high mechanical performance, the ability to manufacture in any form, ease of assembly, and a reduced need for supporting structures, controlled anisotropy, high specific strength, and specific stiffness all improve the serviceability of concrete structures. Fibrous concrete's many properties are opening new construction industry pathways. Thus, this research reviews the present use of fibrous concrete on cracks to improve concrete structure serviceability.