JKSMI
Journal of the Korea Institute for
Structural Maintenance and Inspection
KSMI
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ISSN : 2234-6937 (Print)
ISSN : 2287-6979 (Online)
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Journal of the Korea Concrete Institute
J Korea Inst. Struct. Maint. Insp.
Indexed by
Korea Citation Index (KCI)
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2025-06
(Vol.29 No.3)
10.11112/jksmi.2025.29.3.66
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REF
References
1
Tam, W. Y., Tam, C. M., Zeng, S. X., and Ng, C. Y. (2007), Towards adoption of prefabrication in construction, Buildings and Environment, 42(10), 3642-3654.
2
Park, Y. N., Heo, I., Kim, J. H., Darkhanbat, K., Kim, S. B., and Kim, K. S. (2023), Structural Performance of Permanent Steel Formed Wide Beams in Construction Stage, Journal of the Korean Society of Manufacturing Process Engineers, 27(5), 130-138 (in Korean).
3
Park, C. Y., and Yoo, S. W. (2015), An Experimental Study of Bond Stress between Concrete and Various Kinds of FRP Plank used as a Permanent Formwork, Journal of the Korea Institute for Structural Maintenance and Inspection, 19(3), 92-103 (in Korean).
4
Kim, B. R., Kang, S. D., Kim, H. G., Kim, M. H., and Kim, S. D. (2008), A Study on the Fire Resistance of yLRC Composite Columns with Steel Sheet Forms and Angles, Journal of Korean Society of Steel Construction, 20(3), 365-375 (in Korean).
5
Kim, J., Choi, Y., Kim, S., and Kim, S. (2020), Shear Performance Evaluation of New Permanent Formed Galvanized Steel Beams, Journal of the Korean Society of Hazard Mitigation, 20(4), 1-12 (in Korean).
6
Oh, J. Y., Lee, D. H., Yang, H. M., Kim, M. S., and Kim, K. S. (2017), Evaluation of Structural Performance of Prefabricated Columns with Permanent Thin-Walled Steel Form Integrated with Reinforcing Bars at Eccentric Loads, Journal of the Architectural Institute of Korea Structure & Construction, 33(5), 47-53 (in Korean).
7
International Organization for Standardization (1999), ISO 834-1 Fire Resistance Tests-Elements of Buildings Construction-Part-1 General Reqirements, Geneva.
8
Ministry of Land, Infrastructure and Transport (MOLIT). (2021), KDS 14 20 10: Structural Design Standard for Buildings Loads. Korea Agency for Infrastructure Technology Advancement (KAIA). (in Korean).
9
Song, Y., Fu, C., Liang, S., Yin, A., and Dang, L. (2019), Fire Resistance Investigation of Simple Supported RC Beams with Varying Reinforcement Configurations, Advances in Civil Engineering, 2019, Article ID 8625360, 1-14.
10
Nour, O., Salem, O. S., and Mostafa, A. (2022), Experimental Fire Testing of Large-Scale Glass Fibre-Reinforced Polymer-Reinforced Concrete Beams with Mid-Span Straight-End Bar Lap Splices, Fire and Materials, 46(2), 360-375.
11
The Korean Standards Association. (2024), KSF 2257-1, Methods of fire resistance test for elements of building construction – General requirements. (in Korean).
12
Smith, M. (2019), ABAQUS/Standard User’s Manual, Version 2019, Dassault Systemes Simulia Corp, United States.
13
British Standards Institution. (2002), Eurocode 1: Actions on structures:Part 1.2 General actions: actions on structures exposed to fire, BSI.
14
British Standards Institution. (2004), Eurocode 2: design of concrete structures, British Standards Institution.
15
Hurley, M. J., Gottuk, D. T., Hall Jr, J. R., Harada, K., Kuligowski, E. D., Puchovsky, M., Watts Jr, J. M., and Wieczorek, C. J. (2015), SFPE handbook of fire protection engineering, Springer.
16
Collins, M. P., and Mitchell D. (1991), Prestressed Concrete Structures, Prentice-Hall, NY.
17
British Standards Institution. (1994), Eurocode 4-Design of composite steel and concrete structures-Part 1-2: General rules-Structural fire design.
