|Table of Contents|

Seismic Behavior Analysis of Space Frame with Force-transforming Plates Outside Rectangular Steel Tubular Space Column Frame Joint(PDF)

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

Issue:
2019年05期
Page:
97-105
Research Field:
Publishing date:

Info

Title:
Seismic Behavior Analysis of Space Frame with Force-transforming Plates Outside Rectangular Steel Tubular Space Column Frame Joint
Author(s):
GUO Jun-yu12 XU Zhong-gen13 ZHOU Miao-qian4
(1. School of Civil Engineering, Guangzhou University, Guangzhou 510006, Guangdong, China; 2. China Southern Airlines, Guangzhou 510405, Guangdong, China; 3. Guangdong Engineering Research Center for Complicated Steel Construction, Guangzhou University, Guangzhou 510006, Guangdong, China; 4. Yangmao Expansion Management Office, Guangdong Freeway Co., Ltd., Yangjiang 529900, Guangdong, China)
Keywords:
force-transforming plate space frame bearing capacity hysteretic behavior seismic behavior
PACS:
TU375
DOI:
-
Abstract:
The finite element simulation of seismic behavior of a new rectangular steel tubular column space frame joint with force-transforming plates outside was carried out using ANSYS. The skeleton curves, energy dissipation capacity, ductility, bearing capacity, failure modes, stiffness degradation curves and stress distribution of ordinary space frame and middle column node adding force-transforming plates outside with two adjacent beams of equal or unequal height were compared and analyzed. The results show that the bearing capacity of steel frame with force-transforming plates outside is improved to a certain extent under the action of low cyclic loading. The failure location is transferred from the original beam-to-column connection to force-transforming plates and other parts connected with beam flange, which effectively let plastic hinge move outside. The hysteretic curve of space frame with force-transforming plates outside is full, and the frame has strong energy dissipation capability. Compared with the traditional space frame, the new frame has larger initial stiffness, slower degradation of stiffness and strength, and improved ductility to a certain extent. The stress distribution of panel zones of beam-column joints can be improved by adding force-transforming plates outside. The stress distribution of the beam-column joint is more uniform and the stress peak position moves outward. The premature failure can be effectively avoided when the stress at the root weld of beam-column connections develops too fast, and the seismic behavior of space frame can be improved.

References:

[1] MILLER D K.Lessons Learned from the Northridge Earthquake[J].Engineering Structures,1998,20(4/5/6):249-260.
[2]MCMULLIN K M,ASTANEH-ASL A.Steel Semirigid Column-tree Moment Resisting Frame Seismic Behavior[J].Journal of Structural Engineering,2003,129(9):1243-1249.
[3]TSAVDARIDIS K D,DMELLO C.Vierendeel Bending Study of Perforated Steel Beams with Various Novel Web Opening Shapes Through Nonlinear Finite-element Analyses[J].Journal of Structural Engineering,2012,138(10):1214-1230.
[4]STEFANO S.Seismic Damage Assessment of Steel Frames[J].Journal of Structural Engineering,1998,125(5):531-540.
[5]UANG C M,YU Q S K,NOEL S,et al.Cyclic Testing of Steel Moment Connections Rehabilitated with RBS or Welded Haunch[J].Journal of Structural Engineering,2000,126(1):57-68.
[6]SCHNEIDER S P,AMIDI A.Seismic Behavior of Steel Frames with Deformable Panel Zones[J] Journal of Structural Engineering,1998,124(1):35-42.
[7]XU Z G,YANG R,ZHANG Z B.Experiment and Finite Element Method Analysis of Steel Frame Joints Transferring Forces Outside Box Columns[J] Journal of Civil Engineering and Construction,2016,5(1):18-25.
[8]徐忠根,杨 瑞,张圳堡,等.带不等高梁的外传力式钢管柱框架节点性能分析[J].建筑钢结构进展,2016,18(4):8-15,68.
XU Zhong-gen,YANG Rui,ZHANG Zhen-bao,et al.Performance Analysis on Steel Frame Joints Transferring Forces Outside Rectangular Columns with Unequal Beam Height[J].Progress in Steel Building Structures,2016,18(4):8-15,68.
[9]陶长发,孙国华,何若全,等.盖板加强型节点钢框架子结构抗震性能试验研究[J].建筑结构学报,2015,36(6):19-28.
TAO Chang-fa,SUN Guo-hua,HE Ruo-quan,et al.Experimental Study on Seismic Behavior of Steel Frame Substructure with Cover-plate Reinforced Connections[J].Journal of Building Structures,2015,36(6):19-28.
[10]董建莉,王 燕,庄 鹏,等.腋板加强型节点钢框架抗震性能试验研究[J].土木工程学报,2016,49(1):69-79.
DONG Jian-li,WANG Yan,ZHUANG Peng,et al.Experimental Study on Seismic Behaviors of Steel Frames with Haunch Reinforced Section Connections[J].China Civil Engineering Journal,2016,49(1):69-79.
[11]毛 辉,王 燕.钢框架扩翼型节点抗震性能研究[J].世界地震工程,2011,27(4):102-108.
MAO Hui,WANG Yan.Study on Seismic Behavior of Widened Beam Flange Connections of Steel Frame[J].World Earthquake Engineering,2011,27(4):102-108.
[12]张圳堡.方钢管柱-H型梁柱外传力式节点抗震性能及参数分析[D].广州:广州大学,2017.
ZHANG Zhen-bao.Analysis on Seismic Behaviors and Parameters of H-beams to Square Steel Tubular Column Joints Transferring Forces Outside Columns[D].Guangzhou:Guangzhou University,2017.
[13]徐忠根,王喜堂.一种矩形钢管柱的钢框架梁柱节点:中国,ZL200720052417.8[P].2008-04-23.
XU Zhong-gen,WANG Xi-tang.A Steel Frame Beam-column Joint of Rectangular Steel Tube Column:China,ZL200720052417.8[P].2008-04-23.
[14]徐忠根,程定荣,邓长根.钢框架柱外传力式节点试验与有限元分析[J].建筑结构,2013,43(9):62-65,71.
XU Zhong-gen,CHENG Ding-rong,DENG Chang-gen.Experiment and Finite Element Analysis on the Behavior of Connections of Steel Frame Joints Transferring Forces Outside Columns[J].Building Structure,2013,43(9):62-65,71.
[15]程定荣.无内隔板矩形钢管柱钢框架节点试验与分析[D].广州:广州大学,2012.
CHENG Ding-rong.Experiment and Analysis of Connection of Steel Frames Rectangular Tube Column Without Inner Plates[D].Guangzhou:Guangzhou University,2012.
[16]徐忠根,梁广贤,陈伟明,等.带缺陷钢柱外传力钢框架节点的设计参数分析[J].工业建筑,2015,45(8):153-159,169.
XU Zhong-gen,LIANG Guang-xian,CHEN Wei-ming,et al.Analysis of Design Parameters of Steel Joints with Force-transferring Plates for Steel Columns with Imperfect[J].Industrial Construction,2015,45(8):153-159,169.
[17]顾 强.钢结构滞回性能及抗震设计[M].北京:中国建筑工业出版社,2009.
GU Qiang.Hysteretic Behavior of Steel Structures and Seismic Design[M].Beijing:China Architecture & Building Press,2009.
[18]王 燕.钢结构新型延性节点的抗震设计理论及其应用[M].北京:科学出版社,2012.
WANG Yan.Seismic Design Theory and Application of New Ductile Joints of Steel Structures[M].Beijing:Science Press,2012.
[19]GB 50011—2010,建筑抗震设计规范[S].
GB 50011—2010,Code for Seismic Design of Buildings[S].
[20]JGJ/T 101—2015,建筑抗震试验规程[S].
JGJ/T 101—2015,Specification for Seismic Test of Buildings[S].

Memo

Memo:
-
Last Update: 2019-09-29