Finite element analysis on through tied-arch bridge with inclined arch rib during construction stage

Jing Ji; Gan Luo; Ming Xu; Meihui Zhong; Liangqin Jiang

doi:10.1117/12.2642651

28 July 2022 Finite element analysis on through tied-arch bridge with inclined arch rib during construction stage

Jing Ji, Gan Luo, Ming Xu, Meihui Zhong, Liangqin Jiang

Proceedings Volume 12303, International Conference on Cloud Computing, Internet of Things, and Computer Applications (CICA 2022); 1230322 (2022) https://doi.org/10.1117/12.2642651
Event: International Conference on Cloud Computing, Internet of Things, and Computer Applications, 2022, Luoyang, China

Abstract

In order to verify the rationality and safety of the through tied-arch bridge with inclined steel box arch ribs, the mechanical properties of the bridge are investigated. By establishing a finite element model, its strength, stiffness, and stability are analyzed, and the safety and reliability of the structure can be verified. Combined with the forward-backward analysis method, the suspender cable force of the model is optimized. Compared with the results of the design cable force and the measured cable force in the bridge completion stage, the consistency of the suspender cable force is commented. The results show that the requirements of the strength, stiffness and stability of the structure are met in the construction stage, which proves the rationality of the structural design and the safety in the construction stage. The suspender cable force after model optimization is in good agreement with the design value and the measured value. It provides a reference for the construction and application of such types of tied-arch bridges.

Citation Download Citation

Jing Ji, Gan Luo, Ming Xu, Meihui Zhong, and Liangqin Jiang "Finite element analysis on through tied-arch bridge with inclined arch rib during construction stage", Proc. SPIE 12303, International Conference on Cloud Computing, Internet of Things, and Computer Applications (CICA 2022), 1230322 (28 July 2022); https://doi.org/10.1117/12.2642651

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KEYWORDS

Bridges

Finite element methods

3D modeling

Analytical research

Optical simulations

Structural design

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