两维地震激励下格构拱动力响应简化评估方法

doi:10.16183/j.cnki.jsjtu.2020.04.007

上海交通大学学报 ›› 2020, Vol. 54 ›› Issue (4): 387-396.doi: 10.16183/j.cnki.jsjtu.2020.04.007

两维地震激励下格构拱动力响应简化评估方法

曲扬，罗永峰，朱钊辰，黄青隆

同济大学土木工程学院，上海 200092

出版日期:2020-04-28 发布日期:2020-04-30
通讯作者: 罗永峰，男，教授，博士生导师，电话(Tel.)：021-65980531；E-mail: yfluo93@tongji.edu.cn.
作者简介:曲扬(1991-)，男，吉林省延边州人，博士生，主要从事大跨度空间结构地震反应分析方法研究.
基金资助:
国家自然科学基金(51378379)资助项目

Simplified Procedure for Seismic Response Analysis of the Latticed Arch Under Bi-Directional Earthquake Excitations

QU Yang,LUO Yongfeng,ZHU Zhaochen,HUANG Qinglong

College of Civil Engineering, Tongji University, Shanghai 200092, China

Online:2020-04-28 Published:2020-04-30

摘要/Abstract

摘要： 通过对振型位移响应进行合理的线性组合，给出了两维地震激励下格构拱结构的变形模式，基于该变形模式导出了推覆分析的荷载模式，采用该荷载模式对结构进行一次非线性推覆分析，建立了一种等效单自由度体系，通过对该等效单自由度体系进行时程分析，求得结构目标性能点，进而得到结构整体动力响应；在此基础上，通过对两维地震动输入进行适当简化，提出了格构拱在两维地震激励下动力响应的简化评估方法.采用简化方法对某大跨度柱承格构拱结构分别在硬土和软土场地一系列地震波两维分量激励下的动力响应进行分析，与时程法分析结果进行对比表明：简化方法计算的动力响应变化趋势与时程法基本一致，两向节点位移和单元最大应力平均误差分别为15.1%、12.5%和16.6%，但计算耗时仅约为时程法的25%.

关键词: 格构拱, 地震评估, 推覆分析, 两维地震, 变形模式

Abstract: The deformation pattern of the large-span latticed arch under the bi-directional earthquake excitation was predefined and expressed as the linear combination of displacements of the dominant vibration modes. Based on the load pattern derived from the deformation pattern, a nonlinear pushover analysis was carried out to establish an equivalent single degree of freedom (ESDF) system. Then, the responses of the ESDF system were solved by response history analysis method. Finally, the target point of the structure was found so that the seismic responses of the overall structure were obtained accordingly. Since the two components of ground motion inputs were transformed, a simplified procedure for seismic response analysis of the large-span latticed arch under bi-directional earthquake excitations was proposed. The seismic responses of a latticed arch model under a series of bi-directional earthquake waves in firm and soft sites were obtained by the simplified procedure. Compared with the results given by response history analysis, the nodal displacements and the extreme stress of elements are consistent in trends and distributions, with relative errors about 15.1%, 12.5% and 16.6% respectively, and 25% computing consumption.

Key words: latticed arch, seismic assessment, pushover analysis, bi-directional earthquake, deformation pattern

中图分类号:

TU 393.3

曲扬, 罗永峰, 朱钊辰, 黄青隆. 两维地震激励下格构拱动力响应简化评估方法[J]. 上海交通大学学报, 2020, 54(4): 387-396.

QU Yang, LUO Yongfeng, ZHU Zhaochen, HUANG Qinglong. Simplified Procedure for Seismic Response Analysis of the Latticed Arch Under Bi-Directional Earthquake Excitations[J]. Journal of Shanghai Jiao Tong University, 2020, 54(4): 387-396.

参考文献

［1］李海兵, 许志琴, 马胜利, 等.汶川地震和九寨沟地震断层作用及动力学过程研究进展——纪念汶川地震十周年［J］.地球物理学报, 2018, 61(5): 1653-1665. LI Haibing, XU Zhiqin, MA Shengli, et al. Research progress on faulting and dynamic processes of the 2008 Wenchuan and 2017 Jiuzhaigou earthquakes: To commemorate the 10th anniversary of the Wenchuan earthquake［J］. Chinese Journal of Geophysics, 2018, 61(5): 1653-1665. ［2］王亚勇.结构时程分析输入地震动准则和输出结果解读［J］.建筑结构, 2017, 47(11): 1-6. WANG Yayong. Case studies on input ground motion criteria and output results for structural time-history analysis［J］. Building Structure, 2017, 47(11): 1-6. ［3］罗永峰, 相阳, 沈祖炎.大跨空间结构地震反应分析方法研究应用现状［J］.力学季刊, 2015, 36(1): 1-10. LUO Yongfeng, XIANG Yang, SHEN Zuyan. Research and application status of seismic analysis techniques for large-span spatial structures［J］. Chinese Quarterly of Mechanics, 2015, 36(1): 1-10. ［4］侯爱波, 汪梦甫, 周锡元.Pushover分析方法中各种不同的侧向荷载分布方式的影响［J］.世界地震工程, 2007(3): 120-128. HOU Aibo, WANG Mengfu, ZHOU Xiyuan. The effect of many different lateral load patterns in the pushover analysis［J］. World Earthquake Engineering, 2007(3): 120-128. ［5］相阳, 罗永峰, 郭小农, 等.空间结构弹塑性地震反应分析的简化模型与方法［J］.东南大学学报(自然科学版), 2015, 45(4): 750-755. XIANG Yang, LUO Yongfeng, GUO Xiaonong, et al. Simplified model and procedure for elasto-plastic seismic response analysis of spatial structure［J］. Journal of Southeast University (Natural Science Edition), 2015, 45(4): 750-755. ［6］OHSAKI M, ZHANG J Y. Prediction of inelastic seismic responses of arch-type long-span structures using a series of multimodal pushover analyses［J］. Journal of the International Association for Shell & Spatial Structures, 2013, 55(175): 27-37. ［7］POURSHA M, SAMARIN E T. The modified and extended upper-bound (UB) pushover method for the multi-mode pushover analysis of unsymmetric-plan tall buildings［J］. Soil Dynamics & Earthquake Engineering, 2015, 71: 114-127. ［8］REYES J C, CHOPRA A K. Three-dimensional modal pushover analysis of buildings subjected to two components of ground motion, including its evaluation for tall buildings［J］. Earthquake Engineering & Structural Dynamics, 2011, 40(7): 789-806. ［9］MANOUKAS G, ATHANATOPOULOU A, AVRAMIDIS I. Multimode pushover analysis for asymmetric buildings under biaxial seismic excitation based on a new concept of the equivalent single degree of freedom system［J］. Soil Dynamics & Earthquake Engineering, 2012, 38(8): 88-96. ［10］王丰, 李宏男.双向地震激励下的两阶段多维Pushover分析［J］.工程力学, 2014, 31(10): 188-194. WANG Feng, LI Hongnan. Two-stage multi-dimensional pushover analysis for bi-directional earthquake excitations［J］. Engineering Mechanics, 2014, 31(10): 188-194. ［11］杨木旺.大跨度刚性空间结构竖向地震的静力弹塑性分析［D］.上海: 同济大学, 2007. YANG Muwang. Static elasto-plastic analysis of long-span rigid spatial structures under vertical earthquake［D］. Shanghai: Tongji University, 2007. ［12］PARK H G, EOM T, LEE H. Factored modal combination for evaluation of earthquake load profiles［J］. Journal of Structural Engineering, 2007, 133(7): 956-968. ［13］黄青隆, 罗永峰, 相阳, 等.钢拱结构面内地震反应分析的改进模态组合系数法［J］.东南大学学报(自然科学版), 2018, 48(3): 470-477. HUANG Qinglong, LUO Yongfeng, XIANG Yang, et al. Modified factored modal combination method for seismic response analysis of planar steel arches［J］. Journal of Southeast University (Natural Science Edition), 2018, 48(3): 470-477. ［14］相阳, 罗永峰, 沈祖炎.索杆结构非线性地震反应分析的设计反应谱法［J］.上海交通大学学报, 2016, 50(11): 1712-1718. XIANG Yang, LUO Yongfeng, SHEN Zuyan. Design response spectrum method for analyzing nonlinear seismic response of cable-strut structure［J］. Journal of Shanghai Jiao Tong University, 2016, 50(11): 1712-1718. ［15］PENZIEN J, WATABE M. Characteristics of 3-dimensional earthquake ground motions［J］. Earthquake Engineering and Structural Dynamic, 1975, 3(4): 365-373. ［16］SMEBY W, KIUREGHIAN A D. Modal combination rules for multicomponent earthquake excitation ［J］. Earthquake Engineering and Structural Dynamics, 1985, 13(1): 1-12.

两维地震激励下格构拱动力响应简化评估方法

Simplified Procedure for Seismic Response Analysis of the Latticed Arch Under Bi-Directional Earthquake Excitations

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 1

编辑推荐

Metrics

本文评价