长江科学院院报 ›› 2022, Vol. 39 ›› Issue (12): 111-116.DOI: 10.11988/ckyyb.20221066

• 水工试验与结构分析 • 上一篇    下一篇

大跨度倒虹吸管桥结构抗震性能

石长征1, 程超2, 王志明3, 伍鹤皋1, 胡悦1   

  1. 1.武汉大学 水资源与水电工程科学国家重点实验室,武汉 430072;
    2.云南省滇中引水工程建设管理局,昆明 650051;
    3.云南省滇中引水工程有限公司, 昆明 650000
  • 收稿日期:2022-08-21 修回日期:2022-10-24 出版日期:2022-12-01 发布日期:2023-01-04
  • 通讯作者: 王志明(1973-),男,贵州水城人,高级工程师,主要从事水利工程方面的研究工作。E-mail:245875396@qq.com
  • 作者简介:石长征(1983-),女,湖北荆门人,副教授,博士,主要从事水利水电工程压力管道结构方面的研究工作。E-mail:scz4@163.com
  • 基金资助:
    云南省重大科技专项计划项目 (202102AF080001)

Seismic Performance of Large-span Inverted Siphon Pipe Bridge Structure

SHI Chang-zheng1, CHENG Chao2, WANG Zhi-ming3, WU He-gao1, HU Yue1   

  1. 1. State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University,Wuhan 430072, China;
    2. Construction Administration Bureau of Central Yunnan Water Diversion Project, Kunming 650051, China;
    3. Central Yunnan Water Diversion Project Co., Ltd., Kunming 650000, China
  • Received:2022-08-21 Revised:2022-10-24 Published:2022-12-01 Online:2023-01-04

摘要: 建立了考虑支座、伸缩节等细部构件的大跨度倒虹吸管桥有限元模型,采用有限单元法对管桥结构的抗震性能进行了研究,分析了支座、伸缩节、管内水体质量对结构动力响应的影响。计算结果表明:大跨度拱桥结构对地震波有明显放大作用,放大系数约为2~5;钢管采用单向滑动支座,约束了钢管横向位移,伸缩节变形和支座滑移量均在10 mm以内,对结构抗震有利,但支座在横向将承受较大的反力,给支座设计带来困难;由于伸缩节和滑动支座的设置,钢管在地震作用下近似刚体运动,钢管应力增幅较小,但支承环将产生较明显的弯曲应力,是抗震中的一个薄弱环节;大直径输水钢管管内水体质量巨大,会增大结构的动力响应,计算中应予以考虑。

关键词: 管桥, 抗震性能, 滑动支座, 伸缩节, 水体质量

Abstract: The finite element model of a pipe bridge structure with large span inverted siphon including support and expansion joint is established. The structural seismic performance of the pipe bridge is investigated using finit element method by examining the influence of supports, expansion joint and water mass in steel penstock on structural seismic response. The large span arch bridge has a significant amplification effect on seismic wave, and the amplification coefficient is within 2-5. Unidirectional sliding supports constrain the lateral displacement of the steel penstock and keep the deformations of the expansion joints and the sliding distance of the supports both within 10 mm, which are beneficial to the seismic resistance of the structure. However, the supports bear large reaction force in lateral direction, which is unfavorable to the design of the supports. Due to the sliding supports and expansion joints, the steel penstock moves like a rigid body under earthquake. The stress of steel penstock is not much affected; but the supporting ring becomes a weakness as it is subjected to notable bending stress. In addition, the huge water mass in the large-diameter steel penstock should also be considered in calculation as it intensifies the structural dynamic response.

Key words: pipe bridge, seismic performance, sliding support, expansion joint, water mass

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