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NTIS 바로가기大韓建築學會論文集. Journal of the architectural institute of korea. 構造系, v.36 no.5 = no.379, 2020년, pp.147 - 154
심상락 (대진대학교 건축공학과 대학원) , 류동우 (대진대학교 건축공학과)
Currently, there are no specific repair methods for RC structures damaged by fire, and repair methods are applied when durability deteriorates due to aging. In addition, a number of recent studies have been reported that have conducted fire resistance assessment of the repair materials themselves, a...
Andrew H. (2017). STRUCTURAL DESIGN FOR FIRE SAFETY, John Wiley & Sons.
Spicer J., Robert O., Leonard C., & Robert B. (1998). Microwave thermoreflectometry for detection of rebar corrosion. Structural Materials Technology III: An NDT Conference, San Antonio, TX, SPIE, 402-409.
Architectural Institute of Japan (2004). Outline of Recommendations for Diagnosis and Repair Methods of Fire-damaged Buildings.
Lee, B., Chae, S., Jung, S., Woo, Y., Moon, J., & Kim, T. (2008). A study on the Freezing-Thawing Resistance for Repair Material of Concrete Structure. Proceeding of 2008 spring conference, Korea Concrete Institute, 621-624.
Kim, H., Park, J., Suh, H., Cho, B., Park, W., & Bae, S. (2019). Mechanical Degradation and Thermal Decompo sition of Ethylene-Vinyl Acetate(EVA) Polymer-Modified Cement Mortar(PCM) Exposed to High-Temperature, Sust ainability, 11(2).
Wang, D., Takafumi, N., Hamasaki, H., & Park, D. (2008). Residual strength of repairing materials exposed to hi gh temperature, Proceedings of the Japan Concrete Instit ute, 30(2).
Jang, G., & Ryu, D. (2019). Fundamental Properties Polymer-Modified Mortars Using Re-dispersible Polymer Powder, Journal of the Architecture Institute of Korea Structur e & Construction Section, 35(3), 35-41.
Khoury, G. (2008). Polypropylene fibres in heated concrete Part 2: Pressure relief mechanisms and modelling criteria, Magazine of Concrete Research, 60(3), 189-204.
Kalifa, P., Chene, G., & Galle, C. (2001). High-temperature behaviour of HPC with polypropylene fibres from spalling to microstructure, Cement and Concrete Research, 31(10), 1487-1499.
Han, C., Hwang, Y., Yang, S., & Gowripalan, N. (2005). Performance of spalling resistance of high performance concrete with polypropylene fiber contents and lateral confinement, Cement and Concrete Research, 35(9), 1747-1753
Byun, Y., & Ryu, D. (2017). An Experimental Study on the Diagnosis and Evaluation of Damage Characteristics of Fire Damaged Concrete by Strength Level: In Relation to Carbonation Depth, Journal of the Korean Society of Hazard Mitigation, 17(6), 533-539.
Won, J., Kang, H., Lee, S., Lee, S., & Kang, J. (2011). Thermal characteristics of high-strength polymer-cement composites with lightweight aggregates and polypropylene fiber, Construction and Building Materials, 25(10), 3810-3819.
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