Abstract:In order to study the seismic performance of column-tree moment-resisting frame structure with beam splice joints using high strength bolts. According to different design methods, three half-story Column-tree Moment-resisting Frame specimens were designed and tested under cyclic loading, hysteretic behavior, strain distribution, rotation capacity, energy of dissipation factor and stiffness were studied according to analysis of experimental phenomena. Comparative analysis shows that: steel frame designing using equal strength method has large rigidity and poor ductility, plastic hinge was formed at beam end and cracks may develop at beam-to column welding joint; The phenomenon of high strength bolt sliding appeared early in frame with weakened splice joints, steel frame ductility and rotation capacity was improved, the yielding at beam end was delayed, yield load was decreased but ultimate load carry capacity was not effected; The seismic performance of column-tree moment-resisting frame structure designed using actual internal force method is the best; Based on these results, proposal of designing the beam splicing joints of column-tree moment-resisting frame structures using actual internal force and setting the location of splice joint near to beam-to column welding was given out.
张永咸,李启才,何若全. 不同连接强度带悬臂梁段的钢框架结构滞回性能研究[J]. 振动与冲击, 2022, 41(4): 209-216.
ZHANG Yongxian,LI Qicai,HE Ruoquan. An experimental study of a different-connection-strength column-tree moment-resisting frame structure. JOURNAL OF VIBRATION AND SHOCK, 2022, 41(4): 209-216.
[1] NAEIM F, JR R M D, BENUSKA K V, et al. Seismic performance analysis of a multistory steel moment frame building damaged during the 1994 Northridge earthquake[J]. Structural Design of Tall Buildings, 2006, 4(4):263–312.
[2] RAMIREZ C M, LIGNOS D G, Miranda E, et al. Fragility functions for pre-Northridge welded steel moment-resisting beam-to-column connections[J]. Engineering Structures, 2012, 45(2284):574-584.
[3] ASTANEH-ASL A, MCMULLIN K M. Steel Semirigid Column–Tree Moment Resisting Frame Seismic Behavior[J]. Journal of Structural Engineering, 2003, 129(9):1243-1249.
[4] 王秀丽,沈世钊,殷占忠,李庆福.钢框架梁腹板开孔型连接节点力学性能试验研究.工程力学,2006,23(6):65-75.
Wang Xiuli, Shen Shizhao, Yin Zhanzhong, Li Qingfu. Experimental study on mechanical properties of open hole connections of steel frame beam web. Engineering mechanics, 2006,23 (6): 65-75.
[5] 王燕,冯双,王玉田.钢框架刚性连接加强型节点滞回性能试验研究.土木工程学报,2011,44(5):57-67.
Wang Yan, Feng Shuang, Wang Yutian. Experimental study on the hysteretic behavior of steel frame with rigid connection. Chinese Journal of civil engineering, 2011,44 (5): 57-67. (in Chinese).
[6] 陈廷国, 赵广军. 钢框架延性节点塑性铰外移的机理研究[J]. 钢结构, 2014, 29(12):25-31.
Chen Tingguo, Zhao Guangjun. Study on Mechanism of plastic hinge displacement of ductile joints in steel frame [J]. steel structure, 2014, 29 (12): 25-31.
[7] 李启才, 苏明周, 顾强等. 带悬臂梁段拼接的梁柱连接循环荷载试验研究[J]. 建筑结构学报, 2003, 24(4):54-59.
Li Qicai, Su Zhouming, Gu Qiang, et al. With cantilever beam splicing of beam to column connection cyclic loading test [J]. Journal of building structures, 2003, 24 (4): 54-59.
[8] 李启才,顾强,申林,蔡益燕.树状柱钢梁拼接节点抗震设计改进.建筑结构,2010,40(6):23-25.
Li Qicai, Gu Qiang, Shen Lin, Cai Yiyan. Improvement of seismic design of steel beam splicing joints of tree columns. Building structure, 2010,40 (6): 23-25.
[9] OH K, LI R, CHEN L, et al. Cyclic testing of steel column-tree moment connections with weakened beam splices[J]. International Journal of Steel Structures, 2014, 14(3):471-478.
[10] 夏军武, 常鸿飞. 钢框架柱带悬臂梁段拼接节点的弹塑性分析[J]. Journal of China University of Mining & Technology, 2006(5):596-601.
Xia Junwu, Chang Hongfei. Steel frame column cantilever beam splice joint with elastic and plastic analysis [J]. Journal of China University of Mining & technology, 2006 (5): 596-601.
[11] 常鸿飞, 夏军武, 靳大勇. 钢框架带悬臂梁段拼接节点的承载特性分析[J]. 建筑钢结构进展, 2008, 10(6):47-53.
Chang Hongfei, Xia Junwu, Jin Dayong. Steel frame with a cantilever beam section joint bearing characteristics analysis [J]. Progress in steel building structures, 2008, 10 (6): 47-53.
[12] 王斌, 李启才. 悬臂梁段拼接节点耗能的刚性钢框架时程分析[J]. 西安科技大学学报, 2011, 31(4):433-437.
Wang Bin, Li Qicai. The time history analysis of rigid steel frame with energy dissipation in the joint of cantilever beam [J]. Journal of Xi'an University of Science And Technology, 2011, 31 (4): 433-437.
[13] 王斌. 利用钢梁高强度螺栓拼接节点耗能的框架结构抗震性能分析[D]. 苏州科技学院, 2011.
Wang Bin. The seismic behavior of frame structures with high strength bolted joints using steel beams [D]. Suzhou University of Science and Technology, 2011.
[14] 金龙. 利用悬臂梁段拼接耗能的钢框架试验研究[D]. 苏州科技学院, 2014.
Jin long. Experimental study on the steel frame with beam splicing energy dissipation by using cantilever beam [D]. Suzhou University of Science and Technology, 2014。
[15] GB50011-2010 建筑抗震设计规范[S] . 北京: 中国建筑工业出版社, 2010.
GB 50011-2010 code for seismic design of buildings [S]. Beijing: China Construction Industry Press, 2010
[16] GB50205-2001,钢结构工程施工质量验收规范[S].
GB 50205-2001, code for acceptance of construction quality of steel structures [S]
[17] GB/T 2975-1998,钢及钢产品力学性能试验取样位置及试样制备[S].
GB / T 2975-1998, steel and steel products mechanical property test sampling location and specimen preparation [S]
[18] 金属材料室温拉伸试验方法[S].
Metallic materials tensile test at room temperature [S]
[19] 钢结构工程施工质量验收规范[S].
Code for acceptance of construction quality of steel structures [S]
[20] 张永咸. 树状柱钢框架中钢梁高强螺栓拼接耗能的试验研究[D]. 苏州科技大学 苏州科技学院, 2016.
Zhang Yongxian. Experimental study on energy dissipation of high-strength bolt splicing of steel beams in tree column steel frame [D]. Suzhou Institute of science and technology, Suzhou University of science and technology, 2016