Structure and behavior of floor system of two super high-speed railway Changjiang composite bridges 被引量：4

Structure and behavior of floor system of two super high-speed railway Changjiang composite bridges

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摘要 Wuhan Tianxingzhou Changjiang (WTC) Bridge and Nanjing Dashengguan Changjiang (NDC) Bridge are two super high-speed railway 3-trusses composite bridges. This is the first time of using three trusses in such large bridges in the world. These two types of railway floor systems of the two bridges have never been used in China before. The problem how to conform the deformations and stress levels of the railway floor system of WTC Bridge was studied. After finite element analysis and comparison,the plan of arranging one expansion stringer every two panels in railway floor system were proposed and good effect was obtained. Because of the application of three trusses,the allocation of the loads acted on the deck in three trusses is different and varies in different places of NDC Bridge. This problem was studied by model experiment and 3D finite element analysis. The results of 3D FEM analysis coincide with the model test results. The allocation rule of the loads acting on the deck in three trusses was presented. Because of the application of monolithic decks,the stiffness and structural integrity of NDC Bridge are high. Wuhan Tianxingzhou Changjiang （WTC） Bridge and Nanjing Dashengguan Changjiang （NDC） Bridge are two super high-speed railway 3-trusses composite bridges. This is the first time of using three trusses in such large bridges in the world. These two types of railway floor systems of the two bridges have never been used in China before. The problem how to conform the deformations and stress levels of the railway floor system of WTC Bridge was studied. After finite element analysis and comparison, the plan of arranging one expansion stringer every two panels in railway floor system were proposed and good effect was obtained. Because of the application of three trusses, the allocation of the loads acted on the deck in three trusses is different and varies in different places of NDC Bridge. This problem was studied by model experiment and 3D finite element analysis. The results of 3D FEM analysis coincide with the model test results. The allocation rule of the loads acting on the deck in three trusses was presented. Because of the application of monolithic decks, the stiffness and structural integrity of NDC Bridge are high.

作者张晔芝张敏

机构地区 School of Civil Engineering and Architecture

出处《Journal of Central South University》 SCIE EI CAS 2011年第2期542-549,共8页 中南大学学报（英文版）

基金 Projects(2004G028, 2004G016) supported by the Science and Technology Development Program of Railways Department, China

关键词 high-speed railway composite mechanics characteristics floor system Wuhan Tianxingzhou Changjiang Bridge Nanjing Dashengguan Changjiang Bridge 高速铁路桥梁结构完整性长江大桥复合系统地板三维有限元分析世界贸易中心行为

分类号 U441 [建筑科学—桥梁与隧道工程]

作者简介 Corresponding author： ZHANG Ye-zhi, Associate Professor, PhD, Tel：＋86-731 82656954; E-mail： zhangyz824@163.com

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