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1 박민국, "Web-Shear Capacity of Thick Precast Prestressed Hollow-Core Slab Units Produced by Extrusion Method" 한국콘크리트학회 13 (13): 19-32, 2019
2 Wei, Y., "Thermal creep and relaxation of prestressing steel" 128 : 118-127, 2016
3 Kolšek, J., "The fire analysis of a steelconcrete side-plated beam" 74 : 93-110, 2014
4 Bratina, S., "The effects of different strain contributions on the response of RC beams in fire" 29 : 418-430, 2007
5 Anderberg, Y., "Stress and deformation characteristics of concrete at high temperatures. Experimental investigation and material behaviour model" Lund Institute of Technology 1976
6 Shakya, A. M., "Response of precast prestressed concrete hollowcore slabs under fire conditions" 87 : 126-138, 2015
7 Reissner, E., "On one-dimensional finite-strain beam theory : The plane problem" 23 (23): 795-804, 1972
8 Hozjan, T., "Nonlinear analysis of composite planar structures exposed to fire" University of Ljubljana, Faculty of Civil and Geodetic Engineering 2009
9 Markovič, M., "Non-linear analysis of pre-tensioned concrete planar beams" 46 : 279-293, 2013
10 SebastjanBratina, "Non-Linear fire-resistance analysis of reinforced concrete beams" 국제구조공학회 16 (16): 695-712, 2003
11 Min, J. L., "Modelling the fire resistance of prestressed concrete floors using multi-spring connection elements" 2010
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14 Bratina, S., "Materially and geometrically non-linear analysis of reinforced concrete planar frames" 41 : 7181-7207, 2004
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21 Muhammad Tufail, "Effect of Elevated Temperature on Mechanical Properties of Limestone, Quartzite and Granite Concrete" 한국콘크리트학회 11 (11): 17-28, 2017
22 CEN, "EN 1992-1-2, Eurocode 2-Design of concrete structures—Part 1–2:General rules—Structural fire design"
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27 Khalaf, J., "Analysis of the bond behaviour between prestressed strands and concrete in fire" 128 : 12-23, 2016
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