Abstract:

Identification and repair of damage occurring in the structures after natural disasters they will encounter throughout their service life is of great importance in terms of the availability of structures. As many effects of natural disasters, such as earthquakes, storms and heilans, human-caused fires have negative effects on the availability of structures. It is known that concrete exposed to the impact of the fire has significant losses depending on the temperature level and duration exposed to the pressure resistance. The use of fiber-supplemented polymers (FRP) in strengthening to return to the performance level they lost after the fire effect that the concrete structures will be exposed has become quite common in recent years. Therefore, the study of mechanical behavior in the event of strengthening of low-resistant concrete damaged in the fire with glass fiber supplement polymer (GFRP) is intended within this experimental study. In order to represent the pressure resistance values of existing structures, concrete resistance is selected under the minimum ready concrete resistance class specified in the regulations in the experimental study. The prepared samples were made to represent the fire effect for a fixed 2 hour period of time to be damaged by exposing the temperatures of 300C, 500C and 700C. Fire damaged samples have been performed with the use of GFRP for strengthening with the one- and two-storey scratching process. The pressure resistance tests were performed in tested and non-tested samples, while side and axle deformation changes were also identified. The loss of pressure resistance in unprecedented samples increased by 10% in expected samples at 300°C, while 65% in samples at 700°C. After the double GFRP injection, approximately 375% increase was achieved compared to the pressure resistance value determined after damage received by the samples exposed to the temperature effect at 700 July. As the level of damage caused in the fire increases, the pressure resistance has been significantly decreased and the effectiveness of the GFRP applied as a result has increased.

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