COMPARATIVE ANALYSIS OF NORMAL CONCRETE AND FIRE RESILIENT CONCRETE

This project, presented under the theme Building Material, focuses on two critical innovations in the field of construction the replacement of aggregates in concrete and the development of fire-resilient building materials. Both areas are pivotal in addressing the challenges of sustainability, safety, and resource efficiency in the construction industry. The study emphasizes the importance of balancing environmental impact, economic feasibility, and material performance while ensuring compliance with safety regulations. The focus area addresses the need for fire-resilient building materials. With increasing urbanization and climate-related risks, fire safety is paramount in construction. This aspect of the study explores innovative materials and technologies that enhance fire resilient while adhering to regulatory standard The project's objectives include improving occupant safety minimizing fire damage, and contributing to the development of safer infrastructure. Experimental procedures involve subjecting materials to fire tests to evaluate their resilience and performance under extreme conditions. Key challenges addressed in the study include the scarcity of natural resources, economic constraints, pollution, and fire safety risks. Through a systematic and comparative analysis, the project demonstrates the viability of alternative materials and fire-resilient technologies in modern construction practices.