Bridge fires present unique challenges due to their potential for catastrophic structural failures, leading to extensive traffic disruptions, economic losses, and, in some cases, loss of life.In the aftermath of a fire incident, assessing the Mountaineering - Femme - Vetements - Chandail structural integrity and future viability of concrete bridges has become a paramount concern for civil engineers and safety inspectors.The critical decision to rehabilitate or demolish a fire-damaged structure hinges on accurately assessing the extent of damage incurred.Enhancing the fire resilience of concrete structures is a critical endeavor within civil engineering, necessitating accurate evaluation methods to analyze conditions after fire exposure.Focusing on concrete bridges, this study aimed to establish a comprehensive review of research on the effects of fire, providing engineers with the necessary means to develop guidelines for post-fire assessment to enhance safety and operational readiness.
It proposes an in-depth Game Bags examination of various methods as strategic decision-making tools.The assessment involves estimating the temperature, the extent of damage to concrete, and the reduction in the strength of both concrete and reinforcement.To achieve this, a detailed review of the existing literature on the impact of fire on concrete and its steel reinforcements is conducted.Current post-fire assessment tools have also been evaluated to improve the efficiency of the evaluation process.This study establishes a systematic post-fire assessment review framework that incorporates assessment information domains (including non-destructive testing, destructive testing, advanced computational modeling, and digital-twin technology) to provide a practical solution for accurately determining the safety and operational readiness of fire-damaged concrete bridges.