Ultimate Temperature of Steel Frames Exposed to Fire-Part 1 Stress Redistribution and Ultimate Temperature of Steel Frames-

Jun-ichi Suzuki, Hiroyuki Suzuki, T. Wakamatsu, Y. Ohmiya, T. Terakawa
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Abstract

The verification for the structural safety of frames exposed to fire heating was carried out by the estimating method for ultimate-temperature of partial frames in the present fire resistant design.[1] The thought of the fire resistance design that the ultimate state of a partial frame, a column or beam was regarded as the design limit was based on the estimation that the ultimate temperature of the partial frame obtained by disregarding the stress redistribution of the overall frame and thermal stress, showed the lowest limit of the ultimate temperature of a real frame. However, it was presumed to be not clear what the margin the design limit had against the collapse of the whole frame because the relation between the collapses of a member, the partial frame, and the overall frame was not sufficiently taken into consideration. In this research, focusing on the effect of the stress redistribution on the ultimate temperatures of the overall frame that seismic design was carried out, the relation between the collapse of the overall frame and the total buckling of heated columns was considered by analysis results.
火灾下钢框架的极限温度-第1部分:钢框架的应力重分布和极限温度
采用现行耐火设计中部分框架的极限温度估算方法,对受火加热框架的结构安全性进行了验证。[1]以局部框架、柱或梁的极限状态作为设计极限的耐火设计思想,是基于不考虑整体框架的应力重分布和热应力而得出的局部框架极限温度为实际框架极限温度的最低估计。然而,由于构件、部分框架和整体框架的倒塌之间的关系没有得到充分考虑,因此设计极限对整个框架倒塌的余量可能并不清楚。在本研究中,重点研究了应力重分布对进行抗震设计的整体框架极限温度的影响,并根据分析结果考虑了整体框架的倒塌与受热柱的总屈曲之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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