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并置双缆超大跨悬索桥缆索系统振动异步性研究

王昆鹏张旭杨怀茂温佳年张田

北京交通大学学报2024，Vol.48Issue(1)：115-124,10.

北京交通大学学报2024，Vol.48Issue(1)：115-124,10.DOI:10.11860/j.issn.1673-0291.20230008

并置双缆超大跨悬索桥缆索系统振动异步性研究

Study on vibration asynchrony in cable system of super-large span suspension bridge with parallel twin cables

王昆鹏 ¹张旭 ¹杨怀茂 ¹温佳年 ¹张田²

作者信息

1. 中交公路长大桥建设国家工程研究中心有限公司,北京 100088
2. 大连海事大学交通运输工程学院,辽宁大连 116026
折叠

摘要

Abstract

Super-large span suspension bridges are susceptible to vibrations under the influence of windloads and heavy traffic. To mitigate the risk of cable collisions in the operational phase of super-large span suspension bridges employing a parallel twin cable configuration, this paper studies the issue of vibration asynchrony between the parallel twin cables. A dynamic analysis model for the wind-vehicle-bridge coupling system is established, encompassing the vehicle subsystem, bridge subsystem, and wind subsystem. Using a specific parallel twin cable arrangement for a super-large span suspension bridge as a case study, 3 cable suspension schemes including separated hanger, shared hanger-cable articulation, and shared hanger-cable rigid connection are comparatively studied under crosswind and random traffic flow conditions. The results show that crosswind is the primary factor causing vibration asynchrony in parallel twin cables, predominantly manifesting as lateral vibration asynchrony. Theshared hanger scheme effectively reduces lateral vibration asynchrony but marginally increases vertical vibration asynchrony. The wind-induced transverse vibration asynchrony of the separated suspension scheme is the highest, with the maximum lateral proximity being approximately 1/4 of the clear distance. A preliminary assessment suggests the absence of collision risk.

关键词

超大跨悬索桥/并置双缆/振动异步性/横风/随机车流

Key words

super-large span suspension bridge/parallel twin cables/vibration asynchrony/transverse wind/random traffic flow

分类

交通工程

引用本文复制引用

王昆鹏,张旭,杨怀茂,温佳年,张田..并置双缆超大跨悬索桥缆索系统振动异步性研究[J].北京交通大学学报,2024,48(1):115-124,10.

基金项目

国家重点研发计划(2022YFB2602500) （2022YFB2602500）

中交集团院士专项项目(YSZX-01-2020-01-B) （YSZX-01-2020-01-B）

中国博士后科学基金(2021M693545,2022T150732)National Key R&D Plan(2022YFB2602500) （2021M693545,2022T150732）

Academician Special R&D Project of CCCC(YSZX-01-2020-01-B) （YSZX-01-2020-01-B）

China Postdoctoral Science Foundation(2021M693545,2022T150732) （2021M693545,2022T150732）

北京交通大学学报

OA北大核心CSTPCD

ISSN：1673-0291

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