期刊
JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH
卷 121, 期 -, 页码 291-310出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.jcsr.2016.03.005
关键词
hot-rolled steel; cold-formed steel; post-fire mechanical properties; predictive equations; cooling method; cyclic heating-cooling
资金
- Fok Ying-Tong Education Foundation
- Chinese Scholarship Council [201506255034]
Hot-rolled Q235, Q345, and Q420 steel members and cold-formed Q235 hollow sections are widely used in building structures. During fire hazards, steel structures are inevitably exposed to elevated temperatures; provided that structural collapse does not occur after fire events, the residual performance of such structures must be estimated accurately to determine whether they should be dismantled, repaired, or directly reused. Therefore, an experimental investigation was conducted to reveal the post-fire mechanical properties of hot-rolled Q235, Q345, and Q420 steels as well as of cold-formed Q235 steels that underwent different levels of cold working. Specimens were heated to various preselected temperatures up to 1000 degrees C and subsequently cooled down to ambient temperature via two different methods, namely, air and water cooling. Tensile coupon tests were performed to obtain the post-fire stress-strain curves, elastic moduli, yield strengths, ultimate strengths, and ductility. Additional tests were also conducted to investigate the effects of cyclic heating-cooling. The post-fire mechanical properties of hot-rolled steels changed significantly after exposure to temperatures exceeding approximately 700 degrees C; the corresponding temperature for cold-formed steels was 300 degrees C. The influences of different cooling methods were notable, whereas the effects of cyclic heating-cooling were insignificant. Thus, new predictive equations that incorporated the influences of various cooling methods were developed to evaluate the post-fire mechanical properties of both hot-rolled and cold-formed steels studied. (C) 2016 Elsevier Ltd. All rights reserved.
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