|Table of Contents|

Research on Hysteretic Behavior of Flange Weakened Joint with Replaceable Beam Section(PDF)

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:
2022年06期
Page:
74-86
Research Field:
结构工程
Publishing date:

Info

Title:
Research on Hysteretic Behavior of Flange Weakened Joint with Replaceable Beam Section
Author(s):
ZHENG Hong SHANG Yong-fang SU Yao-xuan DAI Yong-chao
(School of Civil Engineering, Chang'an University, Xi'an 710061, Shaanxi, China)
Keywords:
beam column joint replaceable beam section hysteretic behavior initial rotational stiffness
PACS:
TU391
DOI:
10.19815/j.jace.2021.08011
Abstract:
For the problem that it was very difficult to repair the structure of steel frame flange weakened joints after earthquake,based on the concept of post earthquake replaceable seismic design, a new type of flange weakened joint RFJ with replaceable beam section was proposed. Through ABAQUS modeling, the mechanical properties of common end plate connection joint CPJ and RFJ under monotonic and cyclic loads were compared, and the variable parameter analysis of RFJ was carried out. The results show that the hysteresis performance of RFJ is better than that of CPJ and can be easily replaced after a large earthquake. With the increase of the weakened length b of the beam flange, the bearing capacity of the joint decreases gradually, and the ductility coefficient increases firstly and then decreases. Although the energy consumption capacity is improved, the degradation effect of strength and stiffness is not ideal. It is suggested that the length of weakened section of beam flange b=(0.7-0.9)hb(hb is the height of steel beam section). When the length of replaceable beam section l is too large, the initial stiffness and ductility of the joint will be reduced and the energy dissipation capacity of the joint will be adversely affected. If the length of replaceable beam section l is too small, the stress value at the weld of the joint will be too large, affecting the effect of plastic hinge outward movement. Considering comprehensively, it is suggested that the length of replaceable beam section l=(1.6-1.85)hb.

References:

[1] JIANG Z Q,DOU C,ZHANG A L,et al.Experimental Study on Earthquake-resilient Prefabricated Cross Joints with L-shaped Plates[J].Engineering Structures,2019,184:74-84.
[2]JIANG Z Q,YANG X F,DOU C,et al.Cyclic Testing of Replaceable Damper:Earthquake-resilient Prefabricated Column-flange Beam-column Joint[J].Engineering Structures,2019,183:922-936.
[3]刘学春,崔小雄,张爱林,等.修复后方钢管柱与H型钢梁全螺栓双夹板连接节点抗震性能试验研究[J].建筑结构学报,2018,39(11):39-47.
LIU Xue-chun,CUI Xiao-xiong,ZHANG Ai-lin,et al.Experimental Study on Seismic Performance of H-section Beam to Square Steel Pipe Column Bolted Double-splint Connection After Reparation[J].Journal of Building Structures,2018,39(11):39-47.
[4]李志超.带可更换耗能梁段支撑框架结构的抗震性能分析[D].广州:广州大学,2019.
LI Zhi-chao.Seismic Performance Analysis of Braced Frame Structures with Replaceable Shear Link[D].Guangzhou:Guangzhou University,2019.
[5]郁有升.钢框架梁翼缘削弱型节点的试验研究及理论分析[D].西安:西安建筑科技大学,2008.
YU You-sheng.Experimental and Theoretical Research on Reduced Beam Section Connections of Steel Frame[D].Xi'an:Xi'an University of Architecture and Technology,2008.
[6]SOFIAS C E,KALFAS C N,PACHOUMIS D T.Experimental and FEM Analysis of Reduced Beam Section Moment Endplate Connections Under Cyclic Loading[J].Engineering Structures,2014,59:320-329.
[7]MOMENZADEH S,KAZEMI M T,ASL M H.Seismic Performance of Reduced Web Section Moment Connections[J].International Journal of Steel Structures,2017,17(2):413-425.
[8]郑 宏,孟春辉,石 丹.翼缘削弱型节点空间钢框架在低周反复荷载作用下的抗震性能[J].建筑科学与工程学报,2016,33(4):120-126.
ZHENG Hong,MENG Chun-hui,SHI Dan.Seismic Performance of Reduced Beam Section Connection Steel Frames Under Low-cyclic Loading[J].Journal of Architecture and Civil Engineering,2016,33(4):120-126.
[9]回文豪.梁翼缘开圆孔削弱式新型H形柱弱轴连接节点的抗震性能研究[D].西安:长安大学,2018.
HUI Wen-hao.Study on Seismic Behavior of Beam Flange Opening Weaken Type of New Weak-axis Joints for H Shaped Column[D].Xi'an:Chang'an University,2018.
[10]卢林枫,张廷强,吕 品.钢管腹板削弱型梁柱弱轴连接的抗震性能影响因素分析[J].建筑钢结构进展,2019,21(3):77-86.
LU Lin-feng,ZHANG Ting-qiang,LYU Pin.Influence Factors Analysis on the Seismic Behavior of Weak-axis Tubular Web Reduced Beam Section Connection[J].Progress in Steel Building Structures,2019,21(3):77-86.
[11]ELSABBAGH A,SHARAF T,NAGY S,et al.Behavior of Extended End-plate Bolted Connections Subjected to Monotonic and Cyclic Loads[J].Engineering Structures,2019,190:142-159.
[12]郭 兵.钢框架梁柱端板连接在循环荷载作用下的破坏机理及抗震设计对策[D].西安:西安建筑科技大学,2002.
GUO Bing.Collapse Mechanism and Design Criterion of Steel Beam-to-column End-plate Connections Under Cyclic Load[D].Xi'an:Xi'an University of Architecture and Technology,2002.
[13]付 芳,赵根田,梁友腾.PEC柱-钢梁顶底角钢与端板连接节点抗震性能对比研究[J].建筑结构,2019,49(6):49-54.
FU Fang,ZHAO Gen-tian,LIANG You-teng.Comparative Study on Seismic Behavior of Top-bottom Angle Steel and End-plate Connection Joints of PEC Column-steel Beam[J].Building Structure,2019,49(6):49-54.
[14]袁焕鑫,高焌栋,杜新喜,等.不锈钢端板连接梁柱节点静力承载性能试验研究[J].建筑结构学报,2021,42(12):125-132.
YUAN Huan-xin,GAO Jun-dong,DU Xin-xi,et al.Experimental Study on Static Load-carrying Capacity of Stainless Steel End-plate Beam-to-column Joints[J].Journal of Building Structures,2021,42(12):125-132.
[15]钢结构高强度螺栓连接技术规程:JGJ 82—2011[S].北京:中国建筑工业出版社,2011.
Technical Specification for High Strength Bolt Connection of Steel Structures:JGJ 82—2011[S].Beijing:China Architecture & Building Press,2011.
[16]冯 鹏,强翰霖,叶列平.材料、构件、结构的“屈服点”定义与讨论[J].工程力学,2017,34(3):36-46.
FENG Peng,QIANG Han-lin,YE Lie-ping.Discussion and Definition on Yield Points of Materials,Members and Structures[J].Engineering Mechanics,2017,34(3):36-46.
[17]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.
Specification for Seismic Test of Buildings:JGJ/T 101—2015[S].Beijing:China Architecture & Building Press,2015.

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Last Update: 2022-12-20