小型方钢管柱端水平板-螺栓连接节点抗震性能试验研究

引用文献：

张鹏程胡乐朋周源. 小型方钢管柱端水平板-螺栓连接节点抗震性能试验研究[J]. 建筑结构，2023，48（12）：15-21，60.

ZHANG Pengcheng HU Lepeng ZHOU Yuan. Experimental study on seismic performance of small square steel tube column end horizontal plate-bolt connection joints[J]. Building Structure，2023,48（12）：15-21，60.

作者：张鹏程胡乐朋周源

单位：厦门大学建筑与土木工程学院厦门大学建筑设计研究院有限公司阳光城集团股份有限公司

摘要：目前钢-混凝土组合梁的压型钢板常作为模板使用，并非受力构件。为达到防火和受力安全性需求，组合梁须涂装较厚防火层保护，这使得后期维护更新存在困难。高性能耐火钢的应用为组合梁抗火提供了新思路。对2个不同荷载比的无涂装耐火钢组合梁主梁试件(压型钢板肋平行于钢梁)和1个次梁试件(压型钢板肋垂直于钢梁)进行抗火试验。试验中对炉温、试件温度、挠度与应变进行监测。结果表明：相同负载下，主梁试件的抗火性能显著优于次梁试件；试验终止时，组合梁变形未发生快速变化；相同条件下，组合梁的受力性能和耐火极限与钢梁、栓钉以及混凝土楼板的温度发展密切相关；所有组合梁均发生整体弯曲变形，且变形速率与竖向荷载大小以及温度场有关。

关键词：耐火耐候钢；组合梁；抗火性能；闭口压型钢板；抗剪栓钉；

作者简介：张鹏程，博士，副教授，主要从事装配式建筑研究，古建筑保护及既有建筑结构加固与更新，结构抗震、隔震、减震设计，Email:937719895@qq.com。

基金：厦门建设科技计划项目(XJK2020-1-2)。

尊敬的用户，本篇文章需要2元，点击支付交费后阅读

限时优惠福利：领取VIP会员
全年期刊、会议视频
全部免费！培训视频打折！

参考文献[1] 钢结构设计标准：GB 50017—2017[S].北京：中国建筑工业出版社，2018.
[2] 田中淳夫.梁端混合连接[J].建筑技术(日),1994,9.
[3] 门亦昂，王新武，余永强，等.装配式钢框架梁柱节点抗震性能研究[J].工业建筑，2020,50(3):156-159,135.
[4] 张经纬，王燕，臧晓光.装配式钢结构方钢管柱与梁连接节点研究进展[J].钢结构(中英文),2019,34(8):1-9.
[5] 王万祯，朱放，孙韶江，等.隔板贯通式箱形截面梁柱节点边梁抗震性能研究[J].建筑结构学报，2016,37(11):77-85.
[6] 李旋，郭耀杰，吴东平，等.加劲肋对齐平端板半刚性节点力学性能影响[J].建筑结构，2019,49(6):102-107.
[7] KOJI AZUMA,YOSHIAKI KUROBANE,YUJI MAKINO.Cyclic testing of beam-to-column connections with weld defects and assessment of safety of numerically modeled connections from brittle fracture[J].Engineering Structures,2000,22(12):1596-1608.
[8] CHIEW P S,JIN JIANG,LEE K C,et al.Residual stress of high strength steel box T-joints Part 1:Experimental study[J].Journal of Constructional Steel Research,2014,93:20-31.
[9] 建筑抗震试验规程：JGJ/T 101—2015[S].北京：中国建筑工业出版社，2015.
[10] 金属材料拉伸试验第1部分：室温试验方法：GB/T 228.1—2010 [S].北京：中国计划出版社，2010.
[11] 姚谦峰，陈平.土木工程结构试验[M].2版.北京：中国建筑工业出版社，2008.
[12] 庄茁.基于ABAQUS的有限元分析和应用[M].北京：清华大学出版社，2009.
[13] 姜文，翟伟，杨金虎，等.装配式环槽铆钉梁柱节点力学性能数值分析[J].建筑结构，2020,50(S2):452-464.

Experimental study on seismic performance of small square steel tube column end horizontal plate-bolt connection joints

ZHANG Pengcheng HU Lepeng ZHOU Yuan

(Academy of Architecture and Civil Engineering, Xiamen University Architecture Design Institute of Xiamen University Yango Group Co., Ltd.)

Abstract: The profiled steel deck in steel-concrete composite beams is normally used as formworks instead of composite components. In order to meet the demand of fire and safety, it is necessary to apply thick fire-protection coating which makes it difficult to maintain in the life period of composite beam. The application of high performance fire and corrosion resistant steel provides a new solution to improve the fire resistance of composite beams. Fire resistance tests were carried out on two primary beams where the steel beam is parallel to the rib of profiled steel deck, and one secondary beam where the steel beam is perpendicular to the rib of profiled steel deck. The furnace temperature, specimen temperature, deflection and strain were monitored during the test. The results show that the fire resistance of primary beam is significantly better than that of secondary beam under the same load. At the end of the test, the deformation of composite beams did not change rapidly. Under the same conditions, mechanical properties and fire resistance of composite beams are closely related to the temperature development of steel beams, studs and concrete floors. The overall bending deformation occurs in all composite beams, and the deformation rate is related to the vertical load and temperature distribution.

Keywords: fire and corrosion resistant steel; composite beam; fire-resistant; encased profiled steel deck; shear stud

497 0 0