TY - JOUR
T1 - Compressive behaviour of geopolymer concrete-filled steel columns at ambient and elevated temperatures
AU - Tao, Zhong
AU - Cao, Yi-Fang
AU - Pan, Zhu
AU - Hassan, Md Kamrul
PY - 2018
Y1 - 2018
N2 - Geopolymer concrete (GPC), which is recognised as an environmentally friendly alternative to ordinary Portland cement (OPC) concrete, has been reported to possess high fire resistance. However, very limited research has been conducted to investigate the behaviour of geopolymer concrete-filled steel tubular (GCFST) columns at either ambient or elevated temperatures. This paper presents the compressive test results of a total of 15 circular concrete-filled steel tubular (CFST) stub columns, including 5 specimens tested at room temperature, 5 specimens tested at elevated temperatures and the remaining 5 specimens tested for residual strength after exposure to elevated temperatures. The main variables in the test program include: (a) concrete type; (b) concrete strength; and (c) curing condition of geopolymer concrete. The test results demonstrate that GCFST columns have similar ambient temperature behaviour compared with the conventional CFST counterparts. However, GCFST columns exhibit better fire resistance than the conventional CFST columns. Meanwhile, it is found that the GCFST column made with heat cured GPC has lower strength loss than other columns after exposure to elevated temperatures. The research results highlight the possibility of using geopolymer concrete to improve the fire resistance of CFST columns.
AB - Geopolymer concrete (GPC), which is recognised as an environmentally friendly alternative to ordinary Portland cement (OPC) concrete, has been reported to possess high fire resistance. However, very limited research has been conducted to investigate the behaviour of geopolymer concrete-filled steel tubular (GCFST) columns at either ambient or elevated temperatures. This paper presents the compressive test results of a total of 15 circular concrete-filled steel tubular (CFST) stub columns, including 5 specimens tested at room temperature, 5 specimens tested at elevated temperatures and the remaining 5 specimens tested for residual strength after exposure to elevated temperatures. The main variables in the test program include: (a) concrete type; (b) concrete strength; and (c) curing condition of geopolymer concrete. The test results demonstrate that GCFST columns have similar ambient temperature behaviour compared with the conventional CFST counterparts. However, GCFST columns exhibit better fire resistance than the conventional CFST columns. Meanwhile, it is found that the GCFST column made with heat cured GPC has lower strength loss than other columns after exposure to elevated temperatures. The research results highlight the possibility of using geopolymer concrete to improve the fire resistance of CFST columns.
KW - concrete-filled tubes
KW - fire testing
KW - geopolymer concrete
KW - steel, structural
KW - strength of materials
UR - http://handle.westernsydney.edu.au:8081/1959.7/uws:49184
UR - http://ctbuh-korea.org/ijhrb/05ijhrb01.php?id=242
U2 - 10.21022/IJHRB.2018.7.4.327
DO - 10.21022/IJHRB.2018.7.4.327
M3 - Article
SN - 2234-7224
VL - 7
SP - 327
EP - 342
JO - International Journal of High-Rise Buildings
JF - International Journal of High-Rise Buildings
IS - 4
ER -