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Title |
Evaluation on Spalling Properties of Ultra High Strength Concrete with Melting and Vaporization of Fiber
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Authors |
김규용 ; 최경철 ; 이주하 ; 이승훈 ; 이태규 |
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Keywords |
폭렬 메커니즘 ; 폭렬 저감 ; 수증기압 ; 용융점 ; 초기 폭렬 spalling mechanism ; prevent explosive spalling ; water vapor pressure ; melting point ; initial spalling |
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Abstract |
Recently, experimental studies to prevent explosive spalling based on spalling mechanism and addition of Polypropylene fiber in high strength concrete (HSC) are performed actively. However, with respect to ultra high strength concrete (UHSC), its compact internal structure is more difficult release vapor pressure at rapid rising temperature compared to HSC. Therefore, in this study, an experiment was conducted to evaluate spalling properties of UHSC using □ 100 mm × 100 × H200 mm rectangular specimen according to ISO-834 standard fire curve. With respect melting point of fiber, three fiber types of Polyethylene, Polypropylene, and Nylon fibers with melting temperature of 110oC, 165oC, and 225oC, respectively, were considered. Mixed fiber of 0.15% and 0.25% of concrete volume was used to consider spalling properties based on water vapor pressure release. Then, TGDTA test on fiber and FEM analysis were performed. The results showed that it is difficult to prevent initial spalling without loss of fiber mass even if fiber melting temperature is low. Also, in preventing thermal spalling, fiber that melts to rapidly create porosity within 10 minutes of fire is more effective than that of low melting temperature property of fiber.
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