and the influence of horizontal and vertical earthquake actions should be considered in antiearthquake designs.
![analysis and design of three span suspension bridge using midas civil analysis and design of three span suspension bridge using midas civil](http://online.anyflip.com/tmjze/mwxg/files/mobile/2.jpg)
The results show that the transverse stability problem of bridges is prominent and should be the focus of antiearthquake fortification, the inclined cable tower of this bridge is not conducive to the earthquake resistance of the structure in comparison with the vertical cable tower.
![analysis and design of three span suspension bridge using midas civil analysis and design of three span suspension bridge using midas civil](https://ars.els-cdn.com/content/image/1-s2.0-S0141029617325397-gr6.jpg)
Lastly, the results of the response analysis is compared and the behavior characteristics of arch bridge is summarized under seismic action. Furthermore, a time-history response analysis under the action of one-dimensional and multidimensional earthquake is performed. Then, a proper seismic wave is selected according to engineering conditions and in terms of three orthogonal directions: inputting the adjusted El Centro seismic wave, considering Rayleigh damping, and calculating via the Newmark method. 3.1.3 Design procedure for mode shapes with constant sign. Firstly the vibration period, vibration frequency, and modal characteristics are computed, thus the dynamic performance is summarized of the bridge. Analysis of a three span bridge based on theoretical methods and Eurocode 1.
#Analysis and design of three span suspension bridge using midas civil software
The space analysis model is enhanced of the Xiang Feng River Bridge using finite element software Midas Civil, whose lower foundation considers the effects of piles and soil. The main issue of design and analysis shall consider the excessive deformability induced by the interaction of flexible and kinematic displacement. Recently, not only the single-span bridges but also multi-span suspension bridges have been used. This study aims to investigate the dynamic performance and structural response of cable-stayed arch bridges under seismic action. Suspension bridges are one of the most effective bridge structures used for large spans to overlap. The strength, stiffness, and stability check calculations and the effect of earthquakes should be considered in the design of cable-stayed arch bridges with collaborative systems.