Experimental and Theoretical Study on Catenary Mechanism of Steel Frame Beam Subject to Fire

IF 2.3 3区 工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY Fire Technology Pub Date : 2023-09-07 DOI:10.1007/s10694-023-01480-x
Wen Ren
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Abstract

Two fire tests were carried out on planar steel sub-frames to study the catenary mechanism of steel frame beams exposed to fire. The temperature distribution of steel frame structure and catenary mechanism of steel frame beam under different fire protection conditions were studied by experiments. According to axial forces and deformations of frame beams in fire, the formation and development of catenary mechanism were illustrated. A analysis method, which could calculate the internal force and deflection of steel frame beams exposed to fire, was proposed based on the matrix analysis method and plastic hinge theory. This method could consider the degradation of mechanical properties of rotation constraints at high temperatures. The method was validated against fire test data, and the influence of different initial constraint conditions on the catenary mechanism of steel frame beams exposed to fire was analyzed using this proposed method. It is shown that the initial axial constraint stiffness has a significant effect on the axial force and deformation of the steel frame beam at elevated temperatures, while the initial flexural strength and rotational stiffness of the joint mainly affect the position and sequence of plastic hinge formations of steel frame beam at elevated temperature.

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火灾作用下钢框架梁悬链线机理的实验与理论研究
为了研究平面钢框架梁在火灾中的接触网机理,对平面钢框架进行了两次火灾试验。通过试验研究了不同防火条件下钢框架结构和钢框架梁接触网结构的温度分布。根据框架梁在火灾中的轴向力和变形,阐述了悬链线机构的形成和发展。基于矩阵分析法和塑性铰理论,提出了一种计算钢框架梁火灾内力和挠度的分析方法。该方法可以考虑高温下旋转约束力学性能的退化。通过火灾试验数据对该方法进行了验证,并利用该方法分析了不同初始约束条件对钢框架梁受火接触网机构的影响。研究表明,初始轴向约束刚度对钢框架梁在高温下的轴向力和变形有显著影响,而节点的初始抗弯强度和转动刚度主要影响钢框架梁塑性铰在高温下形成的位置和顺序。
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来源期刊
Fire Technology
Fire Technology 工程技术-材料科学:综合
CiteScore
6.60
自引率
14.70%
发文量
137
审稿时长
7.5 months
期刊介绍: Fire Technology publishes original contributions, both theoretical and empirical, that contribute to the solution of problems in fire safety science and engineering. It is the leading journal in the field, publishing applied research dealing with the full range of actual and potential fire hazards facing humans and the environment. It covers the entire domain of fire safety science and engineering problems relevant in industrial, operational, cultural, and environmental applications, including modeling, testing, detection, suppression, human behavior, wildfires, structures, and risk analysis. The aim of Fire Technology is to push forward the frontiers of knowledge and technology by encouraging interdisciplinary communication of significant technical developments in fire protection and subjects of scientific interest to the fire protection community at large. It is published in conjunction with the National Fire Protection Association (NFPA) and the Society of Fire Protection Engineers (SFPE). The mission of NFPA is to help save lives and reduce loss with information, knowledge, and passion. The mission of SFPE is advancing the science and practice of fire protection engineering internationally.
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