Analysis of Influence of Suspender Cable Force Change on Bending Moment of Stiffening Girder of Super-Long Span Suspension Bridge

LU Chao, WU Wenming, WANG Kui, MIAO Tingxuan, XIONG Haitao, XIN Haohui, LIU Jielin, LIU Bingfeng

STRUCTURAL ENGINEERS ›› 2024, Vol. 40 ›› Issue (3) : 8-15.

PDF(1839 KB)
PDF(1839 KB)
STRUCTURAL ENGINEERS ›› 2024, Vol. 40 ›› Issue (3) : 8-15.
Structural Analysis

Analysis of Influence of Suspender Cable Force Change on Bending Moment of Stiffening Girder of Super-Long Span Suspension Bridge

  • LU Chao1, WU Wenming2,*, WANG Kui1, MIAO Tingxuan1, XIONG Haitao3, XIN Haohui4, LIU Jielin4, LIU Bingfeng4
Author information +
History +

Abstract

After long-term service on a long-span suspension bridge, the cable force of some hangers can easily deviate from that of the completed bridge. However, the effect of the change in local hanger cable force on the bending moment of the whole main girder is unknown. In this paper,the Wuhan Yangluo Bridge is taken as the research object, and numerical analyses of a long-span suspension bridge are carried out. The validity of the finite element model is verified by comparing it with actual bridge test data. Based on the verified numerical model,a parametric analysis was carried out to study the effect of 10%, 15%, and 20% negative deviations of local single and three suspender cable forces (less than the cable force of the bridge) on the maximum bending moment of each beam section of the steel box girder. The results show that the negative deviation of single or three suspender cable forces is linearly related to the bending moment variation of a steel box girder. When the single suspender cable force has a 20% negative deviation from the bridge state, the bending moment of the steel box girder increases by 40% to 97%. When the cable force of the three suspenders has a negative deviation of 20% compared with the bridge state, the bending moment of the steel box girder increases by 195% to 445%.

Key words

long-span suspension bridge / deviation of suspender cable force / steel box girder bending moment / numerical simulation

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations
LU Chao, WU Wenming, WANG Kui, MIAO Tingxuan, XIONG Haitao, XIN Haohui, LIU Jielin, LIU Bingfeng. Analysis of Influence of Suspender Cable Force Change on Bending Moment of Stiffening Girder of Super-Long Span Suspension Bridge. STRUCTURAL ENGINEERS. 2024, 40(3): 8-15

References

[1] 毛伟琦,胡雄伟.中国大跨度桥梁最新进展与展望[J].桥梁建设,2020,50(1):13-19.
MAO Weiqi,HU Xiongwei.Latest progress and prospect of long-span bridges in China[J].Bridge Construction,2020,50(1):13-19.(in Chinese)
[2] CLEMENTE P,NICOLOSI G,RAITHEL A.Preliminary design of very long-span suspension bridges[J].Engineering Structures,2000,22(12):1699-1706.
[3] XU Y L,XIA Y.Structural health monitoring of long-span suspension bridges[M].CRC Press,2011.
[4] 周毅,陈波,夏勇.大跨度悬索桥温度变形监测与分析[J].华中科技大学学报(自然科学版),2022,50(8):117-123.
ZHOU Yi,CHEN Bo,XIA Yong.Temperature deformation monitoring and analysis of long-span suspension bridge[J].Journal of Huazhong University of Science and Technology (Natural Science Edition),2022,50(8):117-123.(in Chinese)
[5] 张新军,应赋斌,赵晨阳.斜风下大跨度悬索桥颤振稳定性研究[J].土木工程学报,2022,55(4):68-75.
ZHANG Xinjun,YING Fubin,ZHAO Chenyang.Research on flutter stability of long-span suspension bridges under oblique wind[J].China Civil Engineering Journal,2022,55(4):68-75.(in Chinese)
[6] 宗海,庞振浩,茅建校,等.大跨悬索桥塔梁纵向位移控制阻尼器病害分析[J].哈尔滨工程大学学报,2022,43(7):950-957.
ZONG Hai,PANG Zhenhao,MAO Jianxiao,et al.Disease analysis of longitudinal displacement control damper for long-span suspension bridge[J].Journal of Harbin Engineering University,2022,43(7):950-957.
[7] 阳威,郝宪武,张鑫敏.行波效应对大跨度悬索桥地震响应的影响分析[J].工程抗震与加固改造,2020,42(2):100-106.
YANG Wei,HAO Xianwu,ZHANG Xinmin.Analysis of the influence of traveling wave effect on the seismic response of long-span suspension bridges[J].Earthquake Resistant Engineering and Retrofitting,2020,42(2):100-106.(in Chinese)
[8] 尹智勇. 旋转地震作用下非对称大跨悬索桥动力响应[J].噪声与振动控制,2022,42(2):207-213,225.
YIN Zhiyong.Dynamic response of asymmetric long-span suspension bridge under rotational earthquake[J].Noise and Vibration Control,2022,42(2):207-213,225.(in Chinese)
[9] 黄国平,胡建华,华旭刚,等.移动车辆作用下大跨度悬索桥梁端纵向位移机理[J].振动与冲击,2021,40(19):107-115.
HUANG Guoping,HU Jianhua,HUA Xugang,et al.Longitudinal displacement mechanism of long-span suspension bridges under moving vehicles[J].Journal of Vibration and Shock,2021,40(19):107-115.(in Chinese)
[10] 王丽,朱颖,郭辉,等.大跨度悬索桥疲劳受力特征及损伤规律[J].铁道建筑,2021,61(2):12-15.
WANG Li,ZHU Ying,GUO Hui,et al.Fatigue stress characteristics and damage law of long-span suspension bridges[J].Railway Building,2021,61(2):12-15.(in Chinese)
[11] CHENG S H,LAU D T,CHEUNG M S.Comparison of numerical techniques for 3D flutter analysis of cable-stayed bridges[J].Computers & Structures,2003,81(32):2811-2822.
[12] GRECO L,IMPOLLONIA N,CUOMO M.A procedure for the static analysis of cable structures following elastic catenary theory[J].International Journal of Solids and Structures,2014,51(7-8):1521-1533.
[13] ZHOU M R,SHEN Q F,ZHANG Z N,et al.Based on MIDAS/CIVIL the anchorage of mass concrete temperature field and stress field simulation analysis[C]//Advanced Materials Research.Trans Tech Publications Ltd,2013,724:1482-1488.
[14] 郭建明. 基于Midas civil的悬索桥精细化成桥线形及吊索无应力长度分析[J].市政技术,2022,40(12):125-130,172.
GUO Jianming.Based on Midas civil,the refined linear analysis of the suspension bridge and the unstressed length of the sling[J].Municipal Engineering Technology,2022,40(12):125-130,172.(in Chinese)
[15] 卢朝勇,王作文,廖玉凤,等.某大跨度悬索桥桥塔施工过程数值模拟分析[J].建筑结构,2018,48(S2):959-962.
LU Zhaoyong,WANG Zuowen,LIAO Yufeng,et al.Numerical simulation analysis of bridge tower construction process of a long-span suspension bridge[J].Building Structure,2018,48(S2):959-962.(in Chinese)
PDF(1839 KB)

791

Accesses

0

Citation

Detail
Sections
Recommended

/