The Influence of Structural and Materials on Bridge Stability and Stabilization Measures

Hao Cheng

doi:10.54097/hset.v18i.2647

Authors

Hao Cheng

DOI:

https://doi.org/10.54097/hset.v18i.2647

Keywords:

Materials, Structure, Stabilization Measures, Bridge Stability

Abstract

Bridges are now not only an auxiliary tool for travel, but it is also an important way to measure a country's comprehensive strength. Because the stability of a bridge structure is affected by a variety of professional knowledge and various aids which made by advanced technology. So whether the bridge is stable and how to be more stable are the focus of discussion. This paper mainly analyzes and summarizes the stability of the bridge from the perspective of influencing factors and structural principles, and puts forward some measures which could improve stability accordingly. It includes the most common natural factors: earthquake and flood, which need to be considered from different perspectives due to their different failure principles and structures. As for the bridge structure itself, its upper and lower structures have cracks or lack bearing capacity, resulting in uneven settlement of the foundation. The sliding and tilting of the foundation and the local voids in the foundation are all factors that endanger the stability of the bridge. As for the effects of cracks, freeze-thaw denudation, scouring and grinding, cavitation erosion, water erosion, weathering and denudation of materials, they should be considered as important factors. Moreover, the improvement of the existing technology, such as strengthening the anti-corrosion layer, waterproof layer and protective layer, are also important.

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References

H. Luo, K. Wang, L. Yan, Analysis of common diseases and causes of Highway Bridges. Water transportation in China, 2021, pp.148-150. DOI: 10.13646/j.cnki.42-1395/u.2021.07.054.

Y. Zhang. S.X. Jin, On the stability and detection of modern bridges. Theoretical research on urban construction (electronic version), 2015, vol.3, pp.1227-1228.DOI: 10.3969/j.cnki.42-1395/u.2021.07.054.

P. Zhang, H.L. You, Analysis on the design problems of roads and bridges and the causes of cracks in construction. value engineering. 2022, vol,41, pp.153-155.DOI: 10.3969/j.issn.1006-4311.2022.13.048.

R. Wei, M.M. Wei, Causes and prevention methods of reinforcement corrosion in Highway Bridges. Encyclopedia forum e-magazine.vol.5.2020, pp.1209-1210.

G.Q. Shi, Y.H, Chen. Investigation and analysis of surface erosion of pier in water of Qinghai Tibet Railway Bridge. Railway Construction Technology. 2006, vol. z1, pp.83-85.DOI: 10.3969/j.issn.1009-4539. 2006.z1.028.

J.G. Lei, Application of waterproof layer design of cement concrete bridge deck pavement structure in Hong Kong Zhuhai Macao Bridge. Engineering construction and design. 2020, vol.15, pp.82-84. DOI: 10.3969/j.issn.1009-4539. 2006.z1.028.

G.F. Shang, Application analysis of steel fiber reinforced concrete technology in highway bridge construction. Engineering construction and design. 2022, vol.8, pp.110-112. DOI: 10.13616/j.cnki.gcjsysj.2022.04.235.

X.Q. Xie, T.F. Nian, S.P. Cao, Anti corrosion construction strategy of reinforced concrete bridge. Engineering construction and design. 2021, vol.12, pp.90-92. DOI: 10.13616/j.cnki.gcjsysj.2021.06.228.

D.Q Su, Current situation and future development trend of bridge construction technology in Construction Engineering. Interior Design China, 2020, vol.11, pp. 275-275.

K.N.P. Steele, G. Cole, G. Parke, B. Clarke, J. Harding, November. The application of life cycle assessment technique in the investigation of brick arch highway bridges. In Proceedings of the Conference for the Engineering Doctorate in Environmental Technology, 2002, vol. 156, no. 4, pp. 176-182.

K. Steele, G. Cole, G. Parke, B. Clarke, J. Harding, November. Highway bridges and environment—Sustainable perspectives. In Proceedings of the Institution of Civil Engineers-Civil Engineering., 2003, vol. 156, mo. 4, pp. 176-182.