EXPERIMENTAL INVESTIGATION OF TIME-AND TEMPERATURE-DEPENDENT STABILITY OF STEEL COLUMNS IN FIRE

机译：火灾中钢柱时效温度相关性的实验研究

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This paper describes the problem of creep buckling that arises when structural steel columns are exposed to fire temperatures.Experimental evidence is presented to show the effect of thermal creep of structural steel on the buckling capacity of steel columns at 600 °C.Analytical and computational predictions of the time-dependent buckling of steel columns subjected to fire are also presented and evaluated against expremintal results.Both analytical and computational methods utilize material creep models for ASTM A992 steel developed by the authors.Predictions from this study are also compared with those from Eurocode 3 and the AISC Specification.Results from presented work clearly show that buckling of steel columns at elevated temperatures is highly time-dependent.

机译：本文描述了结构钢柱暴露于火灾温度时出现的蠕变屈曲问题，并提供了实验证据来表明结构钢的热蠕变对600°C时钢柱的屈曲能力的影响。分析和计算预测提出并评估了火灾引起的随时间变化的钢柱屈曲的影响，并根据实验结果进行了评估。两种分析和计算方法均利用作者开发的ASTM A992钢的材料蠕变模型，并将该研究的预测与Eurocode的预测进行了比较3和AISC规范。提出的工作结果清楚地表明，高温下钢柱的屈曲高度依赖于时间。

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来源
《State Key Laboratory of Disaster Reduction in Civil Engineering;Tongji University;AkzoNobel Protective Coatings China;International Conference on Structures in Fire》|2014年|137-146|共10页
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Mohammed A.Morovat; Michael D.Engelhardt; Todd A.Helwig; Eric M.Taleff;
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中图分类建筑结构;
关键词
Column stability; ASTM A992 Steel; Thermal creep; Fire; Elevated temperatures;

机译：色谱柱稳定性; ASTM A992钢;热蠕变;着火;温度升高;

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机译：高强度混凝土钢复合柱耐火性试验研究
2. Fire Performance of Steel-Reinforced Ultrahigh-Toughness Cementitious Composite Columns: Experimental Investigation and Numerical Analyses [J] . Journal of structural engineering . 2020,第3期

机译：钢筋超高韧性水泥基复合材料柱的耐火性能：试验研究与数值分析
3. Experimental investigation of fire-exposed steel tubular stub columns wrapped with CFRP sheets [J] . He Kang, Chen Yu Composite Structures . 2020,第Deca期

机译：用CFRP纸包装出火灾钢管柱柱的实验研究
4. EXPERIMENTAL INVESTIGATION OF TIME-AND TEMPERATURE-DEPENDENT STABILITY OF STEEL COLUMNS IN FIRE [C] . Mohammed A.Morovat, Michael D.Engelhardt, Todd A.Helwig, International Conference on Structures in Fire . 2014

机译：钢柱中钢柱时间和温度依赖性稳定性的实验研究
5. Numerical Analysis of Unprotected and Fire Protected Circular Hollow Structural Steel Column Sections in Fire [D] . Rustamy, Fahim. 2017

机译：无保护和防火圆形空心结构钢柱部分的数值分析
6. Experimental Study on the Fire Performance of Tubular Steel Columns with Membrane Protections for Prefabricated and Modular Steel Construction [O] . Xin Zhang, Lei Peng, Zhao-peng Ni, 2018

机译：预制和模块化钢结构膜保护管状钢管柱耐火性能试验研究。
7. Mechanical properties of various concrete after high temperature exposure Mechanical property of various types of concrete after high temperature exposure is investigated. Considering compressive strength requirement for a vertical element in high rise building, concrete specimens with various design strengths of 35, 80, 100, and 150 MPa were tested. Particularly, the influence of incorporated steel fiber on fire resistance is of interest in this study. Experimental results show that the fire resistance depends on the design strength and steel fiber content. Normal strength concrete (NSC) of a design strength of 35 MPa or high performance concrete (HPC) of 80-100 MPa does not spall when exposed to 100-400 °C of temperature. However, an explosive spalling occurs at 300 °C when the HPCs contain 1 vol. of steel fiber. Ultra-high performance concrete (UHPC) of a design strength of 150 MPa and 1.5 vol. of steel fiber also shows dramatic spalling at 300 °C. The experimental results found in this study can contribute to a better understanding of the behaviors of HPC and UHPC under fire and the role of steel fiber on the fire resistance. [O] . 2017

机译：研究了高温暴露后各种混凝土高温曝光机械性能各种混凝土的机械性能。考虑到高层建筑中垂直元件的抗压强度要求，测试了35,80,100和150MPa各种设计强度的混凝土试样。特别是，在这项研究中，掺入钢纤维对耐火性的影响。实验结果表明，耐火性取决于设计强度和钢纤维含量。在暴露于100-400°C的温度时，80-100MPa的设计强度为35MPa或高性能混凝土（HPC）的正常强度混凝土（NSC）不会击落。然而，当HPC含有1体积的钢纤维的百分比时，爆炸性剥落发生在300℃。超高性能混凝土（UHPC）的设计强度为150 MPa和1.5 Vol。钢纤维的百分比也显示出300℃的剧烈剥落。本研究中发现的实验结果可以有助于更好地了解在火灾中的HPC和UHPC的行为以及钢纤维对耐火性的作用。

EXPERIMENTAL INVESTIGATION OF TIME-AND TEMPERATURE-DEPENDENT STABILITY OF STEEL COLUMNS IN FIRE

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