Mechanical analysis on construction process of extra wide stiffening girder of self-anchored concrete suspension bridge

doi:10.3969/j.issn.1000-2006.2017.02.021

SUO Xiaocan, DUAN Maojun, LI Guofen, ZHOU Guangpan

Journal of Nanjing Forestry University (Natural Sciences Edition） ›› 2017, Vol. 41 ›› Issue (02) : 143-149.

PDF(2032803 KB)

Journal of Nanjing Forestry University (Natural Sciences Edition） ›› 2017, Vol. 41 ›› Issue (02) : 143-149. DOI: 10.3969/j.issn.1000-2006.2017.02.021

Mechanical analysis on construction process of extra wide stiffening girder of self-anchored concrete suspension bridge

SUO Xiaocan¹, DUAN Maojun¹, LI Guofen^1*, ZHOU Guangpan²

Author information +

History +

Abstract

【Objective】Studying the stress distribution of an extra-wide stiffening girder of a concrete self-anchored suspension bridge, during the construction process, could provide theoretical reference for its design and construction.【Method】The shear flexible beam grid method was used to establish a finite element beam grid model in space with a Midas/Civil system. Further, the performance of stiffening girder under loading was analyzed.【Result】 The transverse stress distribution in the top and bottom plates of the stiffening girder demonstrated an obvious non-uniformity. In the process of pre-stressing, the stress on the outer webs of the girder was larger than that on the inner webs. In the process of system conversion, the stress increment on inner webs was larger. It was during the process of system conversion that the stress variations in the top and bottom plates of the stiffening girder were different. The maximum compressive stress in the bottom plate was recorded in the hanger tensioning process. Therefore, in the top plate, the compressive stress reaches a maximum after system conversion, while in the bottom plate, the compressive stress reaches a maximum during the process of system conversion. As a passive tensioning process of the hangers, the application of second-phase constant load could significantly reduce the stress difference between the top and bottom plates caused by the initial hanger tension.【Conclusion】The main reason for the non-uniformity in the transverse stress distribution was investigated to be the axial force in the main cable and the action of pre-stressed tendons. The stress distribution in the stiffening girder could be made uniform by adjusting the number and position of pre-stressed tendons.

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

SUO Xiaocan, DUAN Maojun, LI Guofen, ZHOU Guangpan. Mechanical analysis on construction process of extra wide stiffening girder of self-anchored concrete suspension bridge[J]. Journal of Nanjing Forestry University (Natural Sciences Edition）. 2017, 41(02): 143-149 https://doi.org/10.3969/j.issn.1000-2006.2017.02.021

References

[1] 李建慧,李爱群. 空间缆索自锚式悬索桥计算、监控与评估 [M]. 北京:人民交通出版社,2011.
[2] 高丕勤,王小松. 顶板横向预应力作用下宽箱梁空间效应分析 [J]. 重庆交通大学学报(自然科学版),2012,31(1):668-671. DOI: 10.3969/j. issn. 1674-0696. 2012. Sup. 1. 32. GAO P Q, WANG X S. Spatial effect analysis of broad box girder under transverse pre-stressing forces [J]. Journal of Chongqing Jiaotong University(Natural Science), 2012, 31(1): 668-671.
[3] 张元海,白昕,林丽霞. 箱形梁剪力滞效应的改进分析方法研究 [J]. 土木工程学报,2012,45(11):153-158. ZHANG Y H, BAI X, LIN L X. An improved approach for analyzing shear lag effect of box girders [J]. China Civil Engineering Journal, 2012, 45(11): 153-158.
[4] 彭德运,丁敬,李正. 成市高架桥连续宽箱梁空间效应研究[J]. 公路,2012(8):134-138. PENG D Y, DING J, LI Z. Research on space wide effect of the city viaduct continuous box girder [J]. Highway, 2012(8): 134-138.
[5] 宁立,郭文华. 梯形多室宽箱梁上部结构设计研究[J].公路,2012(1):74-77. NING L, GUO W H. Research on trapezoidal multicellular wide box girder upper structure design [J]. Highway, 2012(1): 74-77.
[6] 徐华,余泽,唐盛华,等. 超宽分离式混凝土边箱梁剪力滞效应研究[J]. 中外公路,2012,32(4):93-98. DOI: 10.14048/j. issn.1671-2579. 2012.04.018. XU H, YU Z, TANG S H, et al. Research on shear lag effect of ultra wide separate concrete box girder [J]. Journal of China & Foreign Highway, 2012, 32(4): 93-98.
[7] 谭冬莲. 大跨径自锚式悬索桥合理成桥状态的确定方法[J]. 中国公路学报,2005,18(2):52-54. TAN D L. Decision method on reasonable design state of self-anchored suspension bridge [J]. China Journal of Highway and Transport, 2005, 18(2): 52-54.
[8] 马勇毅,张威振. 剪力-柔性:梁格法在Midas中的具体应用[J]. 中外公路,2007,27(5):173-175. MA Y Y, ZHANG W Z. The application of shear-flexible girder method in Midas [J]. Journal of China & Foreign Highway, 2007, 27(5): 173-175.
[9] 戴公连,李德建. 桥梁结构空间设计方法与应用[M].北京:人民交通出版社,2001..
[10] 聂建国,朱力,樊健生,等. 钢-混凝土组合箱梁桥杆系模型的理论与计算[J]. 中国公路学报,2014,27(7):32-35. NIE J G, ZHU L, FAN J S, et al. Theory and calculation of beam-truss model of steel-concrete composite box-girder bridge [J]. China Journal of Highway and Transport, 2014, 27(7): 32-35.
[11] 邱文亮,姜萌,张哲. 混凝土自锚式悬索桥极限承载力影响因素[J]. 哈尔滨工业大学学报,2009,141(8):128-131. QIU W L, JIANG M, ZHANG Z. Influencing factors of ultimate load carrying capacity of self-anchored concrete suspension bridge [J]. Journal of Harbin Institute of Technology, 2009, 141(8): 128-131.
[12] 王桢,吴海军,周志祥,等. 大跨径自锚式悬索桥主缆位移特性分析[J]. 土木工程学报,2015,48(7):102-111. WANG Z, WU H J, ZHOU Z X, et al. Displacement characteristics analysis on the main cable of large-span self-anchored suspension bridge [J]. China Civil Engineering Journal, 2015, 48(7): 102-111.
[13] 张俊平,黄海云,刘爱荣,等. 空间缆索自锚式悬索桥体系转换过程中受力行为的全桥模型试验研究[J]. 土木工程学报,2011,44(2):108-114. ZHANG J P, HUANG H Y, LIU A R, et al. An overall bridge model test study on the mechanical behaviors in the process of system transformation of self-anchored suspension bridge with spatial cable system [J]. China Civil Engineering Journal, 2011, 44(2): 108-114.
[14] 柯红军. 广州猎德大桥体系转换施工方法的确定及实施[J]. 桥梁建设,2010(2):80-83. KE H J. Determination and implementation of construction method for system transformation of Liede Bridge in Guangzhou [J]. Bridge Construction, 2010(2): 80-83.
[15] 王邵锐,周志祥,吴海军. 超大跨径自锚式悬索桥施工过程中力学性能的试验研究[J]. 土木工程学报,2014,47(6):71-76. WANG S R, ZHOU Z X, WU H J. Experimental study on the mechanical performance of super long-span self-anchored suspension bridge in construction process [J]. China Civil Engineering Journal, 2014, 47(6): 71-76.

PDF(2032803 KB)

Accesses

Citation

Detail

Sections

Recommended

The full text is translated into English by AI, aiming to facilitate reading and comprehension. The core content is subject to the explanation in Chinese.

www.nldxb.njfu.edu.cn

Edited ＆ Published by Editorial Department of Nanjing Forestry University(Natural Sciences Edition)
Address： No.159 Longpan Road,Nanjing 210037 Jiangsu,P.R.China
E-mail ：xuebao@njfu.edu.cn , xuebao@njfu.com.cn
Telephone +86-25-85428247,85427076
Distributed by China International Book Trading Corporation P.O. Box 399, Beijing ,P.R. China

〈

〉

Please choose a citation manager

Content to export