|Table of Contents|

Research on Control Parameter of Main Cable Shape of Suspension Bridge Based on Reliability Theory(PDF)

《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:
2010年03期
Page:
47-52
Research Field:
Publishing date:
2010-09-20

Info

Title:
Research on Control Parameter of Main Cable Shape of Suspension Bridge Based on Reliability Theory
Author(s):
YAN Xiao-yu1 SHEN Rui-li1 TANG Mao-lin1 CHEN Wei-guo2
1. Department of Bridge Engineering, Southwest Jiaotong University, Chengdu 610031, Sichuan, China; 2. Zhejiang Provincial Construction Headquarters of Zhoushan Islands Link Project, Zhoushan 316000, Zhejiang, China
Keywords:
suspension bridge main cable shape reliability Monte Carlo method
PACS:
U448.25
DOI:
-
Abstract:
The reliability analysis method on the basis of adaptive importance sampling was proposed and the concrete steps of this method were presented. Four suspension bridges including Jiaolongba Bridge, Haicang Bridge, Balinghe Bridge and Xihoumen Bridge, which differed from each other in span, were taken as examples. According to theoretical calculations and actual experimental data, the distributions of span, height difference, sag, steel wire-diameter, elastic modulus and temperature were obtained. Then the mentioned analysis method was used to calculate and analyze the reliability of datum strand and unloaded cable shape, as well as to discuss the parametric sensitivity. The study result shows that, under the current measurement accuracy, the reliability index of construction geometry of datum strand meeting the design geometry decreases as span increases; the reliability index of unloaded cable shape decreases as main cable strand increases. For the datum strand shape, elastic modulus is the most important factor while temperature has the greatest influence on the unloaded cable shape.

References:

[1] 卢亚洲,颜东煌,许红胜,等.自锚式悬索桥钢箱梁顶升施工的监控要点[J].长沙交通学院学报,2006,22(4):11-16. LU Ya-zhou,YAN Dong-huang,XU Hong-sheng,et al.Supervision Points on Jacking up Steel-box Construction of Self-anchored Suspension Bridge[J].Journal of Changsha Communications University,2006,22(4):11-16.
[2]潘 韬,杨德灿.悬索桥主缆成桥线形的迭代算法[J].交通科技,2008(5):3-5. PAN Tao,YANG De-can.Iteration Algorithm for Main Cable Shape of Suspension Bridge[J].Transportation Science & Technology,2008(5):3-5.
[3]CREMONA C.Probabilistic Approach for Cable Residual Strength Assessment[J].Engineering Structures,2003,25(3):377-384.
[4]HAIGHT R Q,BILLINGTON D P,KHAZEM D.Cable Safety Factors for Four Suspension Bridges[J].Journal of Bridge Engineering,1997,2(4):157-167.
[5]邵旭东,程翔云,李立峰.桥梁设计与计算[M].北京:人民交通出版社,2007. SHAO Xu-dong,CHENG Xiang-yun,LI Li-feng.Bridge Design & Computation[M].Beijing:China Communications Press,2007.
[6]沈锐利.悬索桥主缆系统设计及架设计算方法研究[J].土木工程学报,1996,29(2):3-9. SHEN Rui-li.Calculation Methods for Design and Erection of Cable Curve of Suspension Bridge[J].China Civil Engineering Journal,1996,29(2):3-9.
[7]叶志龙.悬索桥主缆架设误差影响分析及参数控制[D].成都:西南交通大学,2008. YE Zhi-long.The Effect Analysis of Errors and Par-ameters Control for Main Cable Erection of Suspension Bridge[D].Chengdu:Southwest Jiaotong University,2008.
[8]王 墩,阿肯江·托呼提.工程结构设计可靠度理论综述[J].工业建筑,2008,38(增1):217-221. WANG Dun,AKENJIANG Tuohuti.Summarization of Reliability Theory for Engineering Structural Design[J].Industrial Construction,2008,38(S1):217-221.
[9]RUBINSTEIN R Y.Simulation and the Monte Carlo Method[M].New York:John Wiley & Sons,1981.
[10]SHINOZUKA M.Basic Analysis of Structural Safety[J].Journal of Structural Engineering,1983,109(3):721-740.
[11]ENGELUND S,RACKWITZ R.A Benchmark Study on Importance Sampling Techniques in Structural Reliability[J].Structural Safety,1993,12(4):255-276.
[12]郑云龙.改进的重要抽样技巧[J].大连理工大学学报,1998,38(4):410-413. ZHENG Yun-long.An Improved Importance Sampling Technique[J].Journal of Dalian University of Technology,1998,38(4):410-413.

Memo

Memo:
-
Last Update: 2010-09-20