Performance of steel beam with welded top-seat angle connections at elevated temperatures

IF 0.9 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Journal of Structural Fire Engineering Pub Date : 2023-05-17 DOI:10.1108/jsfe-07-2022-0026
A. Rezaeian, Mona Mansoori, A. Khajehdezfuly
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Abstract

PurposeTop-seat angle connection is known as one of the usual uncomplicated beam-to-column joints used in steel structures. This article investigates the fire performance of welded top-seat angle connections.Design/methodology/approachA finite element (FE) model, including nonlinear contact interactions, high-temperature properties of steel, and material and geometric nonlinearities was created for accomplishing the fire performance analysis. The FE model was verified by comparing its simulation results with test data. Using the verified model, 24 steel-framed top-seat angle connection assemblies are modeled. Parametric studies were performed employing the verified FE model to study the influence of critical factors on the performance of steel beams and their welded angle joints.FindingsThe results obtained from the parametric studies illustrate that decreasing the gap size and the top angle size and increasing the top angles thickness affect fire behavior of top-seat angle joints and decrease the beam deflection by about 16% at temperatures beyond 570 °C. Also, the fire-resistance rating of the beam with seat angle stiffener increases about 15%, compared to those with and without the web stiffener. The failure of the beam happens when the deflections become more than span/30 at temperatures beyond 576 °C. Results also show that load type, load ratio and axial stiffness levels significantly control the fire performance of the beam with top-seat angle connections in semi-rigid steel frames.Originality/valueDevelopment of design methodologies for these joints and connected beam in fire conditions is delayed by current building codes due to the lack of adequate understanding of fire behavior of steel beams with welded top-seat angle connections.
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具有焊接顶座角连接的钢梁在高温下的性能
顶座角连接是钢结构中常用的简单的梁柱连接之一。本文研究了焊接顶座角连接的防火性能。设计/方法/方法建立了一个有限元(FE)模型,包括非线性接触相互作用、钢的高温特性、材料和几何非线性,以完成火灾性能分析。通过仿真结果与试验数据的对比,验证了有限元模型的正确性。利用验证的模型,对24个钢框架顶座角连接组件进行了建模。采用验证的有限元模型进行参数化研究,研究关键因素对钢梁及其焊接角节点性能的影响。参数化研究结果表明,在570℃以上温度下,减小缝隙尺寸和顶角尺寸以及增加顶角厚度会影响顶座角接头的防火性能,使梁挠度降低约16%。此外,与不加腹板加劲的梁相比,加座角加劲梁的耐火等级提高了约15%。当温度超过576°C时,梁的挠度超过跨度/30时发生破坏。结果还表明,荷载类型、荷载比和轴向刚度水平对半刚性钢框架顶座角连接梁的防火性能有显著影响。独创性/价值由于缺乏对带有焊接顶座角连接的钢梁的防火性能的充分理解,目前的建筑规范推迟了这些接头和连接梁在火灾条件下的设计方法的开发。
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来源期刊
Journal of Structural Fire Engineering
Journal of Structural Fire Engineering CONSTRUCTION & BUILDING TECHNOLOGY-
CiteScore
2.20
自引率
10.00%
发文量
28
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