本实用新型提供一种水平斜拉吊索桥,属于一种架桥方式。
The utility model provides a horizontal cable-stayed suspension bridge, and belongs to a bridging mode.
针对已有计算方法的不足之处,提出了一种各种状态下悬索桥主缆线形的精确数值算法和索股、吊索长度的计算方法。
In view of the drawbacks of the existed methods, an accurate numerical analysis method to calculate the cable shape in various cases and the length of cable strand of suspension Bridges is presented.
悬索桥是一种高次超静定柔性结构,由刚度相差较大的构件(主缆、吊索、加劲梁)组成。
Suspension bridge is a type of flexible structure with high degree of statical indeterminacy and composite by different components (main cable, suspender cable and pylon) with different stiffness.
自锚式悬索桥理想状态的成桥吊索力,可借用斜拉桥中常用的几种索力优化方法进行研究。
The rational cable force of self-anchored suspension bridge can be researched by the methods being used in optimizing the cable force of cable-stayed bridge.
基于内力平衡法,对自锚式悬索桥的成桥吊索力进行研究。
Based on the internal force equilibrium method, the hanger forces of completed self-anchored suspension Bridges have been researched.
悬索桥缆索索箍是缆索与吊索的连接构件。
The cable band of a suspension bridge is a structural element connecting the main cable and suspenders.
特大跨径悬索桥对钢丝绳吊索的要求越来越高,要求吊索钢丝绳在保证直径和抗疲劳能力的前提下提高其破断拉力。
The breaking force of suspender steel wire rope should be increased based on the assure of diameter and fatigue performance.
悬索桥的主要构成包括:桥塔、主缆、吊索、加劲梁以及锚墩等。
The main components of suspension include:bridge towers, main cables, slings, stiffening girder and anchor pier, etc.
悬索桥的主要构成包括:桥塔、主缆、吊索、加劲梁以及锚墩等。
The main components of suspension include:bridge towers, main cables, slings, stiffening girder and anchor pier, etc.
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