Thesis Abstract

Abstract
This thesis investigates the effectiveness of fiber reinforced concrete (FRC) in enhancing structural performance. The use of FRC is gaining popularity in the construction industry due to its ability to improve the mechanical properties and durability of concrete structures. The primary objective of this study is to analyze and evaluate the impact of incorporating various types of fibers, such as steel, polypropylene, and glass, on the performance of concrete structures. The research methodology adopted in this study involves a comprehensive literature review to understand the theoretical background and current practices related to FRC. Experimental investigations are conducted to assess the mechanical properties, such as compressive strength, flexural strength, and impact resistance, of FRC mixes with varying fiber content and types. The research methodology also includes finite element analysis to simulate the behavior of FRC structures under different loading conditions. The findings of this study reveal that the addition of fibers to concrete significantly enhances its mechanical properties and performance. Steel fibers are found to improve the ductility and toughness of concrete, while polypropylene fibers help reduce cracking and improve durability. Glass fibers exhibit excellent performance in terms of enhancing the flexural strength and impact resistance of concrete structures. The discussion of findings highlights the key factors influencing the effectiveness of FRC in enhancing structural performance, including fiber type, content, aspect ratio, and distribution. The study also discusses the challenges and limitations associated with the use of FRC in practical applications, such as workability issues, fiber dispersion, and cost considerations. In conclusion, this thesis provides valuable insights into the effectiveness of FRC in enhancing structural performance and identifies opportunities for further research and development in this field. The study contributes to the existing body of knowledge by highlighting the benefits of incorporating fibers in concrete and offers recommendations for optimizing the design and construction of FRC structures. Overall, the findings of this study have implications for improving the sustainability, resilience, and longevity of concrete structures in the built environment.

Thesis Overview