TY - JOUR
T1 - Fire Behavior of Reinforced Concrete Filled Square Steel Tube Columns Under Constant Axial Loads
AU - Lee, Jeeyoung
AU - Han, Seulgi
AU - Shin, Jinwon
AU - Choi, Inrak
AU - Choi, Sungmo
N1 - Publisher Copyright:
© (2023), (Korean Council on Tall Buildings and Urban Habitat). All Rights Reserved.
PY - 2024/3
Y1 - 2024/3
N2 - A composite member made of concrete-filled steel tubes (CFT columns) has been recognized for its fire resistance due to the thermal mass effect of concrete inside the steel tube, as shown in various studies. In this study, the fire resistance performance of reinforced CFT columns under constant axial load was evaluated using finite element analysis with ABAQUS. For this purpose, the variables including cross-section size, steel tube thickness, and concrete cover thickness were set, and the temperature distribution in the column cross-section exposed to a standard fire was investigated using heat transfer analysis. Ultimately, a P-M interaction curve was obtained by evaluating the overall residual strength of columns, and the fire resistance time was determined by evaluating axial displacement-time responses due to the reduction in load capacity during fire through stress analysis.
AB - A composite member made of concrete-filled steel tubes (CFT columns) has been recognized for its fire resistance due to the thermal mass effect of concrete inside the steel tube, as shown in various studies. In this study, the fire resistance performance of reinforced CFT columns under constant axial load was evaluated using finite element analysis with ABAQUS. For this purpose, the variables including cross-section size, steel tube thickness, and concrete cover thickness were set, and the temperature distribution in the column cross-section exposed to a standard fire was investigated using heat transfer analysis. Ultimately, a P-M interaction curve was obtained by evaluating the overall residual strength of columns, and the fire resistance time was determined by evaluating axial displacement-time responses due to the reduction in load capacity during fire through stress analysis.
KW - Compressive and Flexural Strength
KW - Fire Resistance Performance
KW - Heat Transfer Analysis
KW - Reinforced Concrete-Filled Steel Tube
KW - Stress Analysis
UR - http://www.scopus.com/inward/record.url?scp=85195170122&partnerID=8YFLogxK
U2 - 10.21022/IJHRB.2024.13.1.85
DO - 10.21022/IJHRB.2024.13.1.85
M3 - Article
AN - SCOPUS:85195170122
SN - 2234-7224
VL - 13
SP - 85
EP - 95
JO - International Journal of High-Rise Buildings
JF - International Journal of High-Rise Buildings
IS - 1
ER -