Civil and Environmental Research

Studies on reinforced concrete members have shown that there is loss of flexural strength of reinforced concrete beam when subjected to elevated temperatures. This is because; there are membrane forces and the redistribution of bending moment which considerably affects the behavior of the reinforced concrete beam. The aim of this study was to use non-linear analytical methods to determine the temperature reached at a given depth of concrete and hence determine the flexural strength at such elevated temperatures and hence give a way forward to develop a procedure in analyzing the reinforced concrete flexural member’s subjected to fire. This paper gives the way forward on the effects of fire on flexural strength of a beam at elevated temperature and at a given time. More so, it discusses effect of such beams cooled by quenching with cold water, a practical case which relates to the fire fighting process.It was found that, when reinforced concrete classes C20 is heated at 250°C there is a loss of up to 20.1% when heated for one hour and 24.88% when such member is heated for two hours. However, when heated at a temperature of 600°C for one hour, the loss of flexural strength ranges from 33.1% and 34.36% for members heated for two hours. For a member heated at a temperature of 750°C, the loss of strength ranges from 41.81% when heated for one hour 43.01% for members heated for two hours.When class C25 is heated at a temperature of 250°C and cooled by normal loading, for one hour, the loss of flexural strength is 18.22% and when heated for two hours, the flexural strength loss is 20.84%. For members heated at a temperature of 600°C the strength loss of such member is 24.37% and when heated for duration of two hours, it loses the flexural strength of 27.14%. For members heated and cooled by quenching with cold water, the flexural strength loss is very high compared to those cooled at room temperature.

Keywords: flexural strength, non-linear analytical methods, elevated temperatures, normal loading, quenching