收稿日期: 2024-03-04
网络出版日期: 2024-08-23
基金资助
广东省自然科学基金项目(2022A1515011115);广东省现代土木工程技术重点实验室项目(2021B1212040003)
Stability Analysis of Cable-Supported Cylindrical Reticulated Shells Considering Initial Eccentricity of Members
Received date: 2024-03-04
Online published: 2024-08-23
Supported by
the Natural Science Foundation of Guangdong Province(2022A1515011115)
目前对考虑杆件初偏心的空间结构稳定性分析相对较少,为揭示杆件初偏心对弦支柱壳结构稳定承载力的影响规律,该文提出了以端部刚性杆来引入杆件初偏心的模拟方法,给出了刚性杆与初偏心杆件弹性模量的比值关系,在此基础上,采用随机缺陷模态法,依次对理想结构和整体缺陷结构引入杆件初偏心,并进行弹塑性全过程分析,考察杆件初偏心及两种缺陷的同时施加对弦支柱壳结构非线性屈曲性能的影响。结果表明:当刚性杆的弹性模量取初偏心杆件对应数值的100倍以上时,计算结果相差较小,由此取两者弹性模量的比值为100;对理想结构引入杆件初偏心时,弦支柱壳结构的稳定承载力系数降幅不大(最大降幅为8.27%),该结构对杆件初偏心并不十分敏感,兼顾计算工作量,工程实践中可不考虑杆件初偏心的不利影响;对整体缺陷结构引入杆件初偏心时,与理想结构相比,弦支柱壳结构的稳定承载力系数明显降低(降幅最大达27.64%),但其降幅略小于两种缺陷单独引入的降幅之和,整体缺陷和杆件初偏心的同时引入,对该结构的稳定承载力存在一定程度的耦合影响,且前者的影响较为显著。
姜正荣 , 刘小梁 , 石开荣 , 苏昌旺 , 左志亮 . 考虑杆件初偏心的弦支柱壳结构稳定性分析[J]. 华南理工大学学报(自然科学版), 2025 , 53(4) : 22 -29 . DOI: 10.12141/j.issn.1000-565X.240092
Currently, there is relatively limited research on the stability analysis of spatial structures considering the initial eccentricity of members. To reveal the influence laws of the initial eccentricity of members on the stability bearing capacity of cable-supported cylindrical reticulated shells, this paper proposed a simulation method of introducing the initial eccentricity of members by the end rigid rod and presented the ratio relationship of the elastic modulus between the rigid rod and the initial eccentric rod. Based on this, the random imperfection mode method was used to sequentially introduce the initial eccentricity of members into the perfect structure and the overall imperfect structure. An elasto-plastic process analysis was then conducted to examine the impact of the initial eccentricity of members and the simultaneous application of two types of imperfections on the nonlinear buckling behavior of cable-supported cylindrical reticulated shells. The results show that when the elastic modulus of the rigid rod is taken to be more than 100 times of that of the initial eccentric rod, the calculation results show minor differences. Therefore, the ratio of the elastic modulus between them is taken as 100. The coefficients of stability bearing capacity of cable-supported cylindrical reticulated shells are not remarkably reduced when introducing the initial eccentricity of members into the perfect structure (the maximum reduction is 8.27%), indicating that the structure is not very sensitive to the initial eccentricity of members, thus the adverse effects of the initial eccentricity of members can be ignored in engineering practice by balancing the calculation work. Compared with the perfect structure, the coefficients of stability bearing capacity of cable-supported cylindrical reticulated shells are significantly reduced by 27.64% when introducing the initial eccentricity of members into the overall imperfect structure. However, the reductions are slightly smaller than the sums of reductions when the two kinds of imperfections are introduced separately. The overall imperfection and the initial eccentricity of members introduced simultaneously have a certain extent coupling effect on the structural stabi-lity bearing capacity, and the effect of the former is more significant.
| 1 | SUN G J, CHEN Z H, LONGMAN R W .Numerical and experimental investigation of the dynamic characteristics of cable-supported barrel vault structures[J].Journal of Mechanics of Materials and Structures,2013,8(1):1-13. |
| 2 | HE S, JIANG Z R, CAI J .Investigation on simulation methods of initial geometric imperfection distribution in elasto-plastic stability analysis of single-layer reticulated shells[J].KSCE Journal of Civil Engineering,2018,22(4):1193-1202. |
| 3 | 王皓 .考虑初始几何缺陷随机场的单层网壳结构随机稳定性研究[D].长沙:湖南大学,2021. |
| 4 | 杨荣 .大跨度抽空式弦支柱壳结构的静力稳定性及施工仿真分析[D].广州:华南理工大学,2020. |
| 5 | 支旭东,李文亮,范峰,等 .初始缺陷模式对单层球面网壳静力稳定性的影响[J].空间结构,2021,27(1):9-15. |
| ZHI Xu-dong, LI Wen-liang, FAN Feng,et al .Influence of initial geometric imperfection on static stability of single-layer reticulated shell structure[J].Spatial Structures,2021,27(1):9-15. | |
| 6 | 空间网格结构技术规程: [S]. |
| 7 | ZHAO Z W, LIU H Q, LIANG B,et al .Influence of random geometrical imperfection on the stability of single-layer reticulated domes with semi-rigid connection[J].Advanced Steel Construction,2019,15(1):93-99. |
| 8 | 孙一喆 .带随机缺陷的K6型铝合金网壳稳定性分析及承载力预测[D].西安:西安建筑科技大学,2021. |
| 9 | DING Y, ZHANG T L .Research on influence of member initial curvature on stability of single-layer spherical reticulated domes[J].Advanced Steel Construction,2019,15(1):9-15. |
| 10 | ZHOU Z, WU J, MENG S P .Influence of member geometric imperfection on geometrically nonlinear buckling and seismic performance of suspen-dome structures[J].International Journal of Structural Stability & Dynamics,2014,14(3):1350070/1-20. |
| 11 | 汤宏伟,钟宏志 .考虑杆件初弯曲的网壳弹塑性稳定性的弱形式求积元分析[J].工程力学,2019,36(1):165-174. |
| TANG Hong-wei, ZHONG Hong-zhi .Elasto-plastic stability analysis of latticed shells with initially curved members by weak-form quadrature elements[J].Engineering Mechanics,2019,36(1):165-174. | |
| 12 | LIU X C, ZHAN X X, ZHANG A L,et al .Random imperfection method for stability analysis of a suspended dome[J].International Journal of Steel Structures,2017,17(1):91-103. |
| 13 | 李会军,王超,肖姚 .随机节点位置安装偏差与杆件偏心对单层球面网壳承载力的影响研究[J].建筑结构学报,2020,41(2):134-141. |
| LI Huijun, WANG Chao, XIAO Yao .Effect of random nodal deviation and member eccentricity on load-carrying capacity of single-layer dome[J].Journal of Building Structures,2020,41(2):134-141. | |
| 14 | 李会军,肖姚,张凯宝,等 .杆件初弯曲及偏心对单层柱壳稳定承载力的影响研究[J].空间结构,2019,25(2):10-19. |
| LI Hui-jun, XIAO Yao, ZHANG Kai-bao,et al .Effect of member initial curvature and eccentricity on load-carrying capacity of sing-layer cylindrical reticulated shell[J].Spatial Structures,2019,25(2):10-19. | |
| 15 | 王超 .杆件偏心对典型单层球面网壳稳定承载力影响研究[D].咸阳:西北农林科技大学,2019. |
| 16 | 沈世钊,陈昕 .网壳结构稳定性[M].北京:科学出版社,1999. |
| 17 | 刘小梁 .弦支柱壳结构的静力稳定性及动力响应研究[D].广州:华南理工大学,2023. |
| 18 | 刘红亮 .大跨度弦支穹顶结构的缺陷敏感区域及动力稳定性研究[D].广州:华南理工大学,2015. |
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