«Previous Article|Table of Contents|Next Article»

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

Issue:

2023年01期

Page:

95-102

Research Field:

建筑结构

Publishing date:

Info

Title:

Monitoring and simulation analysis of construction process for large-span spatial spoke chord-supported truss structure

Author(s):

LIU Mingliang¹; 2;  LI Xiangyu¹;  XING Guohua¹;  WU Mingyang¹;  LI Jiming²

(1. School of Civil Engineering, Chang'an University, Xi'an 710061, Shaanxi, China; 2. Shaanxi Architecture Science Research Institute Co., Ltd, Xi'an 710082, Shaanxi, China)

Keywords:

large-span spatial structure;  truss structure;  construction process simulation;  health monitoring

PACS:

TU377.9

DOI:

10.19815/j.jace.2022.05050

Abstract:

The construction process of large-span spatial spoke chord-supported truss structure is complex. The influence of structural stiffness and load changes on structural safety in different construction schemes and stages cannot be ignored. However, at present, the static analysis of large-span space structure after construction is mostly carried out at home and abroad, and the stress monitoring and analysis in the construction process of complex structure are lacking. In order to study the stress and deformation performance of the large-span spatial spoke chord-supported truss structure of a gymnasium in Xi'an in different construction stages, the finite element program MIDAS/Gen was used to simulate the eight different stages of the rotation cumulative slip construction process of the large-span space structure. The stress and displacement of the three key components of the radial inverted triangular truss, the reinforced truss and the “Y” lattice column were simulated and analyzed, and compared with the actual monitoring data. The results show that the numerical simulation result is in good agreement with the actual monitoring data, which verifies the feasibility of numerical simulation. By predicting the structural stress changes and the most unfavorable construction nodes in different construction stages, it can provide ideas and basis for the zoning establishment of the health monitoring system and the layout of key nodes in the construction stage, which has practical engineering significance. The internal force of large-span spatial spoke chord-supported truss structure changes greatly in different construction stages, and the maximum vertical displacement often occurs in the lower chord of the middle part of the truss. In order to ensure the safety of the construction stage, the key nodes such as the vertical web member of the outer ring truss, the web member of the central ring truss and the upper chord should be monitored and warned to avoid the damage of the components in the construction stage and ensure the construction safety.

References:

[1] 林颖捷,杨海勇,何 瑶,等.消能减震技术在某大跨空间桁架结构中的应用研究[J].工程抗震与加固改造,2020,42(1):51-56.
LIN Yingjie,YANG Haiyong,HE Yao,et al.Study on application of energy dissipation technology in a large-span spatial truss structure[J].Earthquake Resistant Engineering and Retrofitting,2020,42(1):51-56.
[2]韩庆华,陶轶洋,刘铭劼.大跨立体管桁架三维振动控制分析[J].地震工程与工程振动,2019,39(5):52-66.
HAN Qinghua,TAO Yiyang,LIU Mingjie.Three-dimensional vibration control analyses of long-span space pipe truss structure[J].Earthquake Engineering and Engineering Dynamics,2019,39(5):52-66.
[3]罗永峰,叶智武,陈晓明,等.空间钢结构施工过程监测关键参数及测点布置研究[J].建筑结构学报,2014,35(11):108-115.
LUO Yongfeng,YE Zhiwu,CHEN Xiaoming,et al.Research on key parameter selection and monitoring point arrangement in construction monitoring of spatial steel structures[J].Journal of Building Structures,2014,35(11):108-115.
[4]贺拥军,周绪红,王继新.拉索预应力巨型网格结构体系[J].建筑科学与工程学报,2017,34(5):76-82.
HE Yongjun,ZHOU Xuhong,WANG Jixin.Prestressed reticulated mega-structure system[J].Journal of Architecture and Civil Engineering,2017,34(5):76-82.
[5]孙鸿敏,李宏男.土木工程结构健康监测研究进展[J].防灾减灾工程学报,2003,23(3):92-98.
SUN Hongmin,LI Hongnan.State-of-the-art review of the structural health monitoring in civil engineering[J].Journal of Disaster Prevention and Mitigation Engineering,2003,23(3):92-98.
[6]李 惠,鲍跃全,李顺龙,等.结构健康监测数据科学与工程[J].工程力学,2015,32(8):1-7.
LI Hui,BAO Yuequan,LI Shunlong,et al.Data science and engineering for structural health monitoring[J].Engineering Mechanics,2015,32(8):1-7.
[7]姜东升,薛伟辰.上海旗忠网球中心施工全过程有限元分析[J].建筑科学与工程学报,2008,25(2):90-95.
JIANG Dongsheng,XUE Weichen.Finite element analysis of construction whole process of Shanghai Qizhong Tennis Center[J].Journal of Architecture and Civil Engineering,2008,25(2):90-95.
[8]伍小平,高振锋,李子旭.国家大剧院钢壳体施工全过程模拟分析[J].建筑结构学报,2005,26(5):40-45.
WU Xiaoping,GAO Zhenfeng,LI Zixu.The analysis of whole erection process for steel shell of National Grand Theatre[J].Journal of Building Structures,2005,26(5):40-45.
[9]曾志斌,张玉玲.国家体育场大跨度钢结构在卸载过程中的应力监测[J].土木工程学报,2008,41(3):1-6.
ZENG Zhibin,ZHANG Yuling.Stress monitoring of the large-span steel structure of the National Stadium during unloading[J].China Civil Engineering Journal,2008,41(3):1-6.
[10]钱稼茹,张微敬,赵作周,等.北京大学体育馆钢屋盖施工模拟与监测[J].土木工程学报,2009,42(9):13-20.
QIAN Jiaru,ZHANG Weijing,ZHAO Zuozhou,et al.Simulation and monitoring for the construction of the steel roof of the Peking University Gymnasium[J].China Civil Engineering Journal,2009,42(9):13-20.
[11]赵 欣,关 宇,谭品峰,等.南开大学大学生活动中心施工模拟与监测[J].钢结构,2017,32(3):103-108.
ZHAO Xin,GUAN Yu,TAN Pinfeng,et al.Simulation and monitoring for the construction of student activity center of Nankai University[J].Steel Construction,2017,32(3):103-108.
[12]刘 奔,尤德清,喻 馨,等.福州海峡奥体中心体育场卸载过程分析及监测[J].建筑结构,2015,45(5):49-53.
LIU Ben,YOU Deqing,YU Xin,et al.Analysis and monitoring of unloading process for Fuzhou Strait Olympic Sports Center[J].Building Structure,2015,45(5):49-53.
[13]范 重,刘先明,范学伟,等.大跨度空间结构卸载过程仿真计算方法[J].建筑科学与工程学报,2011,28(4):19-25.
FAN Zhong,LIU Xianming,FAN Xuewei,et al.Simulation and calculation method of unloading process of long-span spatial structures[J].Journal of Architecture and Civil Engineering,2011,28(4):19-25.
[14]牛 犇,陈志华,孔翠妍.天津大剧院钢屋盖卸载施工模拟与监测[J].空间结构,2014,20(2):55-63.
NIU Ben,CHEN Zhihua,KONG Cuiyan.Simulation and monitoring for the unloading construction of the steel roof of the Tianjin Grand Theater[J].Spatial Structures,2014,20(2):55-63.
[15]常 乐,李瑞峰,李志伟.跨度120 m三角锥体空间钢结构施工卸载监测技术研究[J].建筑结构学报,2020,41(2):142-148,165.
CHANG Le,LI Ruifeng,LI Zhiwei.Research on construction unloading monitoring technology of 120 m triangular pyramidal space steel structure[J].Journal of Building Structures,2020,41(2):142-148,165.
[16]王秀丽,杨本学.大跨度空间桁架结构卸载过程模拟分析与监测[J].建筑科学,2018,34(3):105-110.
WANG Xiuli,YANG Benxue.Simulation and monitoring of unloading process of a large span spatial truss structure[J].Building Science,2018,34(3):105-110.
[17]武名阳.大跨空间轮辐式弦支桁架结构旋转累积滑移施工监测和动力响应分析[D].西安:长安大学,2021.
WU Mingyang.Rotating cumulative sliding construction monitoring and dynamic response analysis of large-span spatial spoke-type chord-supported truss structure[D].Xi'an:Chang'an University,2021.

Memo

Memo:

-

Common functions

Last Update: 2023-01-01