Today, many scholars have drawn attention to consecutive events such as postearthquake fire (PEF). PEF is one of the rare occurrences that leads to many consequences. The resistance of structure against external loads is important for structure and earthquake engineers. The duration of structures' resistance against fire in damaged structures due to earthquake can be different from intact ones. Many parameters have an effect on the resistance of structures. This paper deals with the importance of design parameters and loading for the resistance of reinforced concrete frames during PEF loading. Three methods of Monte Carlo, Tornado diagram, and first-order second moment have been used to analysis based on random variables. The first failure time in the reinforcement concrete frame (RC) is considered as the strength of the reinforced concrete frame to PEF load. The results depicted that among design parameters, yield stress of rebar is the most significant parameter for the resistance of reinforced concrete frames. Among the loading parameters, the intensity of the seismic load is the most important parameter. The sensitivity of the failure time of members in RC frame shows that during the low intensity of earthquakes, the cover of concrete is the main design parameter after yield strength of rebar. As the intensity of seismic loads increases, the effect of concretes' cover on the resistance of structures against fire decreases. The sensitivity of the failure time to intensity of seismic load is higher between Sa = 0.3 g to Sa = 0.8 g. Also, results show the sensitivity of the design variable decreases by increasing the intensity of the seismic load. K E Y W O R D S postearthquake fire, random variable, RC frame, sensitivity analysis
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