1) stress-ribbon footbridges
人行悬带桥
2) pedestrian suspension bridge
人行悬索桥
1.
Based on the method of analysis of structures stability,some asymmetry pedestrian suspension bridge without tower was taken as the studying case.
基于结构稳定性分析方法,借助大型有限元分析程序ANSYS,以某无塔非对称人行悬索桥为实例,建立了4个有限元计算模型,分别对设置有抗风缆的钢桥面板悬索桥结构、有风缆的混凝土桥面板悬索桥结构和不设置抗风缆的钢桥面板悬索桥结构、混凝土桥面板悬索桥结构进行了静风稳定性研究。
2.
Based on the practical features of the project,the paper mainly introduces the conception of a pedestrian suspension bridge , including the general arrangement ,selection of main cables ,tower ,anchorage and wind cable layout.
根据工程实际特点,介绍了某人行悬索桥的主要设计构想,包括桥梁总体布置、主索选择、桥塔、锚碇和抗风索的构造与布置。
3) overhead pedestrian crossing
悬挂式人行桥
4) stress-ribbon bridge
悬带桥
1.
There is little domestic research about stress-ribbon bridge,this paper introduces a method of design and construction about stress-ribbon through specific engineering example.
悬带桥是一种在国内应用较少的新桥型,其具有结构轻,传力简洁,架设方便等优点,目前多被公园人行桥所采用。
5) asymmetry pedestrian suspension bridge
非对称人行悬索桥
6) foot path platform
天桥;行人桥
补充资料:悬带
1.犹携带。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条