跨海铁路大桥长联大跨度连续梁无缝线路研究

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (513 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要 研究目的: 以某跨海铁路大桥长联、大跨度连续梁桥无砟轨道无缝线路系统为研究对象,对结构受力与变形规律开展研究,提出(60+37×80+60)m连续梁桥上无砟轨道无缝线路铺设方案、钢轨伸缩调节器设置方案,分析列车运行条件下桥上无缝线路的动力特性,提出养护维修建议。
研究结论: (1)在(60+37×80+60)m连续梁桥上,采用常阻力扣件或小阻力扣件时必须设置伸缩调节器;(2)列车以350 m/h通过主桥区域时,轨道和桥梁结构的振动特性指标和车辆行驶特性指标均满足规范要求;(3)在钢轨伸缩调节器影响区域内,轮轨的垂向力、轮重减载率均明显增大;(4)结合地震、风浪等偶然荷载因素,建议选用超大量程的伸缩调节器和梁端伸缩装置,加强混凝土连续梁伸缩调节区域轨道状态的在线监测与科学维护;(5)该研究结论可为长联大跨度连续梁无缝线路设计与建造提供借鉴和参考。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	张建
	刘俊颖
	李大成

关键词 ：跨海大桥, 长联大跨, 连续梁, 无缝线路, 动力性能

Abstract：Research purposes: This paper takes the CWR track system of ballastless track on a long-span continuous beam bridge of a sea-crossing railway bridge as the research object, carries out research on the structural force and deformation law, and proposes (60+37×80 +60) m continuous beam bridge laying plan for CWR track of ballastless track, installation plan of rail expansion joints,analyzes the dynamic performance of the CWR track on the bridge, and puts forward maintenance and repair recommendations.
Research conclusions: (1) On (60+37×80+60) m continuous beam bridges, rail expansion joints must be installed when constant and small resistance fastenings are used; (2) When the train passes through the main bridge area at 350 km/h, the vibration characteristic indexes of the track and bridge structure and the vehicle driving characteristic indexes meet the requirements of the specification; (3) In the area affected by the rail expansion joints, the wheel-rail vertical force and the reduction rate of wheel load are significantly increased; (4) In combination with accidental load factors such as earthquakes, wind and waves, it is suggested to select the rail expansion joints with ultra-large range and girder end expansion device, strengthen the on-line monitoring and scientific maintenance of track condition in the rail expansion joint area of concrete continuous beam;(5) The research conclusions can be used to guide the design and construction of CWR track of long-span continuous beam of sea-crossing railway bridge.

Key words： sea-crossing bridge long-connected large-span continuous beam CWR track dynamic performance

收稿日期: 2021-01-21

PACS:

U212

基金资助:中国国家铁路集团有限公司科技研究开发计划重大课题(K2020G030);中国铁路设计集团有限公司科技研究计划重大课题(2020YY140601);中国铁路设计集团有限公司科技开发重点课题(2019YY220505)

作者简介: **张建,1984年出生,男,高级工程师。

引用本文:

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, 39(4): 48-53.
ZHANG Jian, LIU Junying, LI Dacheng. Research on the CWR Track of Long-span Continuous Beam of Sea-crossing Railway Bridge. Journal of Railway Engineering Society, 2022, 39(4): 48-53.

链接本文:

https://tdgcxb.crec.cn/CN/ 或 https://tdgcxb.crec.cn/CN/Y2022/V39/I4/48

[1]	乔建东, 李志辉, 杨晴. 无缝线路大跨简支梁桥桥墩线刚度优化[J]. 西南交通大学学报, 2013(2):278-282.Qiao Jiandong,Li Zhihui,Yang Qing.Pier Linear Stiffness Optimization of Large-span Simply-supported Beam Bridge for Continuously Welded Rail[J].Journal of Southwest Jiaotong University,2013(2):278-282.
[2]	蔡小培, 谭茜元, 刘万里,等. 无砟轨道简支梁桥墩纵向刚度限值研究[J]. 铁道工程学报, 2019(11):38-44.Cai Xiaopei,Tan Xiyuan,Liu Wanli,etc.Research on the Limit Value of Pier Longitudinal Stiffness of Simply Supported Beam Bridge Paved with Ballastless Track[J]. Journal of Railway Engineering Society,2019(11):38-44.
[3]	蔡小培, 田春香, 王铁霖,等. 长联大跨桥梁无缝线路力学特性与结构设计[J]. 高速铁路技术,2020(4):73-79.Cai Xiaopei,Tian Chunxiang,Wang Tielin,etc.Mechanical Characteristics and Structural Design of Continuous Welded Rail on Long-unit Bridge with Long Span[J].High Speed Railway Technology,2020(4):73-79.
[4]	王伟华.高速铁路64m 简支箱梁桥上无砟轨道无缝线路纵向力分析与桥墩刚度限值研究[J].铁道标准设计,2021(6):82-88.Wang Weihua.Research on the Limit Value of Pier Longitudinal Stiffness and Rail Longitudinal Force Analysis on 64 m Simply Supported Box Beam Bridge with Ballastless Track[J]. Railway Standard Design,2021(6):82-88.
[5]	戴公连, 闫斌, 魏标. 门式墩纵向刚度及其对无缝线路纵向力的影响[J]. 华中科技大学学报:自然科学版, 2012(11):33-36.Dai Gonglian,Yan Bin,Wei Biao.Longitudinal Stiffness of Frame Pier and Its Influence on Longitudinal Force on CWR[J].Journal of Huazhong University of Science and Technology:Natural Science Edition,2012(11):33-36.
[6]	蔡小培, 苗倩, 李大成, 等. 斜拉桥上无缝线路力学分析与调节器布置研究[J]. 铁道工程学报,2018(1):36-41.Cai Xiaopei,Miao Qian,Li Dacheng,etc.Mechanical Analysis and Arrangement Study of REJ for CWR on Cable-stayed Bridge[J].Journal of Railway Engineering Society,2018(1): 36-41.
[7]	梅琴. 高速铁路大跨度桥梁钢轨伸缩调节器区轨道结构健康监测系统设计及应用[J]. 铁路计算机应用, 2020(5):33-37.Mei Qin.Track Structure Health Monitoring System in Rail Expansion Regulator Area of Long Span Bridge of High-speed Railway[J].Railway Computer Application,2020(5):33-37.
[8]	朱志辉, 李晓光, 闫铭铭,等. 基于扣件阻力试验的高速铁路桥上无缝线路纵向力研究[J]. 中南大学学报:自然科学版, 2020(7):1966-1976.Zhu Zhihui,Li Xiaoguang,Yan Mingming,etc.Longitudinal Force of CWR on High Speed Railway Bridge Based on Fastener Resistance Test[J].Journal of Central South University:Science and Technology,2020(7):1966-1976.