江门站复杂支承屋盖结构稳定及抗连续性倒塌分析
引用文献:
宋怀金 刘桥. 江门站复杂支承屋盖结构稳定及抗连续性倒塌分析[J]. 建筑结构,2022,48(01):17-23.
SONG Huaijin LIU Qiao. Stability analysis and anti-continuous collapse analysis on complex supporting roof structure of Jiangmen Railway Station[J]. Building Structure,2022,48(01):17-23.
摘要:江门站站房是由上部空间钢结构和下部钢筋混凝土结构组成的混合结构体系。空间钢结构包含顶部大悬挑钢网架屋盖和钢筒壳支承屋盖结构,钢筒壳支承屋盖结构空间尺寸大,杆件受力复杂,结构冗余约束度不高。为了得到整体空间钢结构的稳定性能水平和抗连续倒塌能力,对整体空间钢结构进行了屈曲特征值分析、非线性屈曲分析及抗连续性倒塌分析。结果表明,钢筒壳杆件面外计算长度系数小于1.6,整体空间钢结构具有较高的整体稳定性和刚度,对初始缺陷不敏感;单根关键杆件失效后,结构仍具有一定的抗连续倒塌能力,结构安全可靠。
关键词:编织状钢筒壳;特征值分析;初始缺陷;非线性屈曲分析;拆除构件法;抗连续性倒塌分析
基金:
尊敬的用户,本篇文章需要2元,点击支付交费后阅读
限时优惠福利:领取VIP会员
全年期刊、会议视频
全部免费!培训视频打折!
全年期刊、会议视频
全部免费!培训视频打折!
参考文献[1] 陈学信,张广华,王韬.建筑屋盖网筒壳选型分析探讨[J].山东建材,2001,2(22):46-47.
[2] 空间网格结构技术规程:JGJ 7—2010[S].北京:中国建筑工业出版社,2011.
[3] 沈世钊.网壳结构的稳定性[J].土木工程学报,1999,6(11):19-25.
[4] 刘树堂,王龙,范亚洲.初始缺陷对弦支穹顶极限承载力的影响[J].固体力学学报,2013,10(33):294-300.
[5] 张奇,王洪军,黄聿莹,等.某单层自由曲面网格钢结构设计分析与研究[J].建筑结构,2019,49(23):44-49.
[6] 武岳,徐云雷,李清明.树状结构杆件计算长度系数研究[J].建筑结构学报,2018,39(6):53-60.
[7] 周健,崔家春,周健.结构抗连续倒塌设计规范和方法比较[J].建筑结构,2015,45(23):98-105.
[8] 朱忠义,王哲,束伟农,等.北京新机场航站楼屋顶钢结构抗连续倒塌分析[J].建筑结构,2017,47(18):10-14.
[9] 建筑结构抗倒塌设计规范:CECS 392∶2014[S].北京:中国计划出版社,2014.
[10] 蔡朝霞,李宏.钢桁架结构体系的防连续倒塌性能分析[J].广东土木与建筑,2015,6(6):24-26.
[2] 空间网格结构技术规程:JGJ 7—2010[S].北京:中国建筑工业出版社,2011.
[3] 沈世钊.网壳结构的稳定性[J].土木工程学报,1999,6(11):19-25.
[4] 刘树堂,王龙,范亚洲.初始缺陷对弦支穹顶极限承载力的影响[J].固体力学学报,2013,10(33):294-300.
[5] 张奇,王洪军,黄聿莹,等.某单层自由曲面网格钢结构设计分析与研究[J].建筑结构,2019,49(23):44-49.
[6] 武岳,徐云雷,李清明.树状结构杆件计算长度系数研究[J].建筑结构学报,2018,39(6):53-60.
[7] 周健,崔家春,周健.结构抗连续倒塌设计规范和方法比较[J].建筑结构,2015,45(23):98-105.
[8] 朱忠义,王哲,束伟农,等.北京新机场航站楼屋顶钢结构抗连续倒塌分析[J].建筑结构,2017,47(18):10-14.
[9] 建筑结构抗倒塌设计规范:CECS 392∶2014[S].北京:中国计划出版社,2014.
[10] 蔡朝霞,李宏.钢桁架结构体系的防连续倒塌性能分析[J].广东土木与建筑,2015,6(6):24-26.
Stability analysis and anti-continuous collapse analysis on complex supporting roof structure of Jiangmen Railway Station
Abstract: The Jiangmen Railway Station is a mixed structure system composed of upper spatial steel structure and lower reinforced concrete structure. The spatial steel structure consists of a large cantilever steel truss roof and a steel cylinder-shell supporting roof structure, steel cylinder-shell supporting roof structure has the characteristics of large space size, complex state of members under load and low degree of structural redundancy. In order to obtain the stability performance level and anti-continuous collapse of the whole spatial steel structure, buckling eigenvalue analysis, nonlinear buckling analysis and anti-continuous collapse analysis were carried out for the whole spatial steel structure. The results show that the out-of-plane calculated length factor of steel cylinder-shell members is less than 1.6. The whole spatial steel structure has higher integral stability and stiffness, and is not sensitive to initial defects. After a single key member fails, the structure still has a certain ability of anti-continuous collapse, and the structure is safe and reliable.
Keywords: braided steel cylinder-shell; eigenvalue analysis; initial defect; nonlinear buckling analysis; method of dismantling component; anti-continuous collapse analysis
498
0
0