Biaxial seismic response of base-column connections in sub-standard steel buildings: dataset.

Open research Europe Pub Date : 2024-08-05 eCollection Date: 2024-01-01 DOI:10.12688/openreseurope.17563.1
Nikolaos Stathas, Luigi Di Sarno, Jingren Wu, Fabio Freddi, Mario D'Aniello, Stathis Bousias, Raffaele Landolfo, Esra Mete Güneyisi, Lambros Papagiannis
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Abstract

Existing steel frames not complying with modern seismic codes are often vulnerable to earthquakes due to inadequate seismic detailing. These types of framed structures typically feature semi-rigid and partial strength column-base connections; the behaviour of such connections may significantly affect their seismic performance. However, current code provisions offer limited guidance for the assessment and retrofit of column-base connections To fill the knowledge gap, the H2020 EU-funded Earthquake Assessment of Base-Column Connections in Existing Steel Frames (HITBASE) project experimentally investigated, the response of exposed column-base plate connections. Bi-directional Pseudo-Dynamic tests were carried out at the Structures Laboratory (STRULAB) of the University of Patras within the framework of Engineering Research Infrastructures for European Synergies (ERIES). The case-study steel frame featured two types of column-base plate connections, i.e., stiffened and unstiffened, representing respectively the base connections of an external moment-resisting frame and an internal gravity frame. The experimental programme comprised free vibration tests to identify the modal properties of the sample steel frame. A set of quasi-static cyclic tests and Pseudo-Dynamic tests were then carried out to investigate the performance of the steel frame under bi-directional earthquake sequences. The response of each component constituting the column-base plate connections was monitored during the tests to fully capture the behaviour of the connections. Such experimental results allow model calibration and further parametric investigation on column base plate connections.

次标准钢结构建筑中柱基连接的双轴地震响应:数据集。
由于抗震细节设计不足,不符合现代抗震规范的现有钢框架结构往往容易受到地震的影响。这些类型的框架结构通常具有半刚性和部分强度的柱基连接;此类连接的行为可能会严重影响其抗震性能。为了填补这一知识空白,由欧盟资助的 H2020 现有钢框架底柱连接抗震评估 (HITBASE) 项目通过实验研究了外露柱底板连接的响应。在欧洲协同工程研究基础设施 (ERIES) 框架内,在帕特雷大学结构实验室 (STRULAB) 进行了双向伪动态测试。案例研究的钢框架具有两种类型的柱底板连接,即加劲连接和非加劲连接,分别代表外部力矩抵抗框架和内部重力框架的底板连接。实验计划包括自由振动测试,以确定钢框架样本的模态特性。然后进行了一组准静态循环试验和伪动态试验,以研究钢框架在双向地震序列下的性能。在试验过程中,对构成柱底板连接的每个部件的响应进行了监测,以全面掌握连接的行为。这些实验结果有助于对模型进行校准,并进一步对柱底板连接进行参数化研究。
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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