Infrared Thermography Analysis of Water and Vapor Overflow During Fire Tests

Yes, the following sentences are suitable for SCI journals as they provide detailed information and data about the experiment conducted and its results. The use of specific measurements and figures also adds to the scientific nature of the article.

'During the fire test, the infrared thermography monitored the temperature of the outer surface of the ceiling, including the concrete surface temperature, the temperature of water and vapor overflowing from concrete cracks. It can be seen from the infrared images that the temperature at the concrete cracks is higher. The higher temperature at the cracks is due to the high temperature water and vapor overflowing from the cracks. The comparison between the temperature of water and vapor at the cracks obtained from infrared images and the temperature of concrete surface measured by the thermocouple is shown in Fig. 14. At 30 min, the temperature of water and vapor at the concrete cracks began to rise slowly, and at this time the concrete surface temperature of the ceiling was close to the ambient temperature. At 60 min, the temperature of water and vapor at the concrete cracks rose rapidly, and rose to 82.8ﾰC in a short time. Then, the temperature of the water and vapor that overflowed from the cracks was maintained at a higher temperature. The temperature change of the ceiling surface monitored by infrared thermography was consistent with the macroscopic test phenomenon on the ceiling outer surface. At 27 min, it was observed that the water overflowing from the concrete cracks on the ceiling gradually increased, as shown in Fig. 5(a). At 58 min, boiling water vapor began to overflow from the concrete cracks on the ceiling, as shown in Fig. 5(d).'