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Research on key technologies in design of middle pylon of Taizhou Bridge 被引量:1

Research on key technologies in design of middle pylon of Taizhou Bridge
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摘要 At the middle pylon of a three-pylon two-span suspension bridge, the effect of unbalanced loads on the adjacent spans may result in a series of technical bottlenecks in design, such as stability and anti-slippage between saddles and main cables. This article presents the researches conducted on structure selection and behavior characteristics of middle pylon, interaction mechanism between main cables and saddles and their anti-slippage safety performance, elastic and plastic stability analysis and safety assessment of steel middle pylon, and fatigue design load and method for steel pylon of Taizhou Bridge. According to the research results, a longitudinal inverted Y shape steel middle pylon is used in design, effectively solving many technical difficulties, and this type of pylon has become a suitable middle pylon structural form for many three-ovlon two-soan susoension bridges.
作者 Ji Lin
出处 《Engineering Sciences》 EI 2012年第3期2-7,共6页 中国工程科学(英文版)
基金 National Science and Technology Support Programs of China(No.2009BAG15B02) Key Programs for Science and Technology Development of Chinese Transportation Industry(No.2008-353-332-180) "333 High-level Personnel Training Project"Special Funded Projects in Jiangsu Province
关键词 three-pylon two-span suspension bridge structural behavior and selection elastic and plastic stability main cable and saddle anti-slippage 塔设计 技术 大桥 稳定性分析 相互作用机制 不平衡负载 安全性能 行为特征
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