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Research on the Track Expansion Value on Tied-arch Continuous Bridge for High-speed Railway |
HUANG Jie1, XIE Haoran2, LIU Congxin1, YAN Bin3 |
1. CSCEC AECOM Consultants Co. Ltd, Lanzhou, Gansu 730030, China; 2. China Railway Design Corporation, Tianjin 300308, China; 3. Central South University, Changsha, Hunan 410075, China |
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Abstract Research purposes: In order to study the effect of temperature and live load on track expansion value on tied arch continuous bridge for four-line railway, the line resistance in ballast track was simulated with nonlinear bar elements (the method was already confirmed by UIC774-3 case), the integrated 3D model was established considering the concrete-filled steel tube arch, suspender, beam, bearing, pier, pile foundation, four-line track structure and track expansion device. Based on this, the distribution for track stress and deformation and pier-top horizontal force was analyzed in a variety of arrangements for track expansion devices. And it was explored that the arch, suspender and girder temperature variation, as well as combined cases of various braking bending forces made the impact on track expansion value and substructure. Research conclusions: (1) Track expansion device is set at side span mid-span to be able to greatly reduce track stress in the case of relatively small track expansion value. (2) The temperature variation of girder has a significant effect on the track expansion value, and the track stress can increase by 40 MPa after considering arch temperature variation. (3) The effect of braking bending force on the track expansion value is less, and the braking bending force peaks of load and no-load line appear in adjacent embankment segments when considering the multi-line load. (4) At the time of multi-line face-to-face load, the torque generated at the top of the pier can reach 8 033 kN·m. (5) The research results can provide a reference for the design of track structures on long-span arch bridges.
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Received: 10 January 2022
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[1] |
郑鹏飞, 闫斌, 戴公连. 高速铁路斜拉桥上无缝线路断缝值研究[J]. 华中科技大学学报, 2012(9):85-88.Zheng Pengfei, Yan Bin, Dai Gonglian. Rail Broken Gap Study on Continuous Welded Rail on Cable-stayed Bridge of High-speed Railway[J]. Journal of Huazhong University of Science and Technology, 2012(9):85-88.
|
[2] |
魏贤奎, 王平, 徐浩, 等. 铁路上承式拱桥上无缝线路断缝影响因素[J]. 中南大学学报, 2013(7):3053-3060.Wei Xiankui, Wang Ping, Xu Hao,etc. Influencing Factors of Rail Broken Gap of Continuous Welded Rail on Railway Deck Arch Bridge[J]. Journal of Central South University, 2013(7):3053-3060.
|
[3] |
张建, 刘俊颖, 李大成. 跨海铁路大桥长联大跨度连续梁无缝线路研究[J]. 铁道工程学报, 2022(4):48-53.Zhang Jian, Liu Junying, Li Dacheng. Research on the CWR Track of Long-span Continuous Beam of Sea-crossing Railway Bridge[J]. Journal of Railway Engineering Society, 2022(4):48-53.
|
[4] |
高洪涛. 沪昆客专湘江特大桥无砟轨道钢轨伸缩调节器设计方案及铺设技术[J]. 铁道建筑, 2017(7):127-130.Gao Hongtao. Design Scheme and Laying Technique of Rail Expansion Regulator for Ballastless Track on Xiangjiang Super Bridge in Shanghai-Kunming Passenger Dedicated Railway[J]. Railway Engineering, 2017(7):127-130.
|
[5] |
闫斌. 高速铁路中小跨度桥梁与轨道相互作用研究[D]. 长沙: 中南大学, 2013.Yan Bin. Interaction between Continuously Welded Rail and Medium & Small Bridges of High-Speed Railway[D]. Changsha: Central South University, 2013.
|
[6] |
TB 10015—2012, 铁路无缝线路设计规范[S].TB 10015—2012, Code for Design of Railway Continuous Welded Rail[S].
|
[7] |
戴公连, 王芬, 葛浩, 等. 基于最大熵模型的斜拉桥拉索温度极值研究[J]. 铁道工程学报, 2021(11):59-66.Dai Gonglian, Wang Fen, Ge Hao, etc. Research on the Extreme Value of Cable Temperature of the High-speed Railway Cable-stayed Bridge Using Maximum Entropy[J]. Journal of Railway Engineering Society, 2021(11):59-66.
|
[8] |
闫斌, 谢浩然, 潘文彬, 等. 大跨度混合梁斜拉桥-轨道系统受力特性[J]. 铁道工程学报, 2019(9):11-16.Yan Bin, Xie Haoran, Pan Wenbin, etc. Characteristics of Interaction between Tracks and Long-span Cable-stayed Bridge with Steel-concrete Composite Beam[J]. Journal of Railway Engineering Society, 2019(9):11-16.
|
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