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伸缩斜腹杆可展式铁路抢修梁技术方案与行车安全

徐光兴刘志轩李朝红

中国铁道科学2026，Vol.47Issue(2)：61-75,15.

中国铁道科学2026，Vol.47Issue(2)：61-75,15.DOI:10.3969/j.issn.1001-4632.2026.02.06

伸缩斜腹杆可展式铁路抢修梁技术方案与行车安全

Technical Scheme and Train Operation Safety of Deployable Railway Emergency Repair Girder with Telescopic Diagonal Web Members

徐光兴 ¹刘志轩 ²李朝红³

作者信息

1. 石家庄铁道大学省部共建交通工程结构力学行为与系统安全国家重点实验室,河北石家庄 050043||石家庄铁道大学安全工程与应急管理学院,河北石家庄 050043||石家庄铁道大学河北省交通应急保障技术创新中心,河北石家庄 050043
2. 石家庄铁道大学省部共建交通工程结构力学行为与系统安全国家重点实验室,河北石家庄 050043||石家庄铁道大学安全工程与应急管理学院,河北石家庄 050043
3. 石家庄铁道大学土木工程学院,河北石家庄 050043
折叠

摘要

Abstract

To meet the requirements of modern railway bridge emergency repair,a technical scheme for a deployable medium-span emergency repair girder based on telescopic diagonal web members is proposed.The girder utilizes deployable frame units as its basic components,enabling folding and deployment through the extension and retraction of the diagonal web members.This design resolves the technical challenge of balancing assembly efficiency with storage and transportation space in existing repair girders,while also meeting the emergency repair demands of both conventional-speed and high-speed railway bridges.Finite element analysis models and multi-body dynamics models are established to conduct static analysis and vehicle-bridge coupled dynamic response analysis on the deployable railway emergency repair girder.The results indicate that the stress levels and displacements of the deployable repair girder meet the limit requirements of the"Code for Design on Railway Bridge and Culvert".The member stresses are highest under the loading of mixed passenger and freight railway traffic.The arrangement of the diagonal web members significantly influences the ultimate bearing capacity of the deployable girder,with the inverted V-shaped configuration yielding a higher ultimate bearing capacity.Among the three truss configurations for the 32 m span,the heavy truss emergency repair girder exhibits superior dynamic response indices.The wheel load reduction rate is identified as the key factor controlling train speed,and the speed limit for high-speed trains crossing the 32 m span deployable railway emergency repair girder can be controlled at 120 km·h-¹.

关键词

铁路抢修梁/可展结构/静力分析/极限承载力/车桥耦合/动力响应

Key words

Railway emergency repair girder/Deployable structure/Static analysis/Ultimate bearing capacity/Vehicle-bridge coupling/Dynamic response

分类

交通工程

引用本文复制引用

徐光兴,刘志轩,李朝红..伸缩斜腹杆可展式铁路抢修梁技术方案与行车安全[J].中国铁道科学,2026,47(2):61-75,15.

基金项目

国家重点研发计划项目(2016YFC0802207) （2016YFC0802207）

石家庄铁道大学研究生创新资助项目(YC202452) （YC202452）

中国铁道科学

ISSN：1001-4632

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