Research Planning and Experimental Study on Soft Soil Foundation Suspension Bridges

Yan Xu

doi:10.59238/j.pt.2025.01.006

Prestress Technology ›› 2025, Vol. 3 ›› Issue (1) : 73 -82. DOI: 10.59238/j.pt.2025.01.006

Research Report

research-article

Research Planning and Experimental Study on Soft Soil Foundation Suspension Bridges

Yan Xu

Author information +

History +

PDF (1377KB)

Abstract

Taking the Jiasong Highway Bridge over Huangpu River in Shanghai as the research background, multiple schemes were proposed for comparison, and detailed scientific research planning was carried out on the basis of the characteristics of soft soil foundations during the project promotion process. Focus on the planning of the scientific research project of the bridge and the implementation of key experiments.

Keywords

soft soil foundation / suspension bridge / scientific research / model test

Cite this article

Download citation ▾

Yan Xu. Research Planning and Experimental Study on Soft Soil Foundation Suspension Bridges. Prestress Technology, 2025, 3(1): 73-82 DOI:10.59238/j.pt.2025.01.006

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Hu, F.; Chen, L.; Huang, Z.; Shan, J.a. Application and Practice of Replaceable Main Cable Strand Anchorage Scheme in Self-Anchored Suspension Bridges. Prestress Technology 2024, 2,47-56, doi:10.59238/j.pt.2024.03.005.

[2]	Jiang, H. Adaptability Analysis of the Main Girder and Materials of a Partial Ground-anchored Suspension Bridge. Prestress Technology 2023, 1,57-69, doi:10.59238/j.pt.2023.03.005.

[3]	Fu, J. Overview of the Design for the Jiashong Highway Bridge Cross Huangpu River in Shanghai. Urban Roads Bridges & Flood Control 2021, 28-32,48, doi:10.16799/j.cnki.csdqyfh.2021.07.008.

[4]	Xiao, R.; Zhuang, D.; Yang, L.; Wen, X.; Sun, B. Basic Structural Performance of Partially Anchored Suspension Bridge. Journal of Tongji University(Natural Science) 2020, 48,1545-1551,1587, doi:10.11908/j.issn.0253-374x.20049.

[5]	Li, J.; Zhang, Z.; Huang, H.; Li, Y. Research on Similarity Model Test of Anchorage of Qingfeng Suspension Bridge in Ningbo. Journal of Tongji University(Natural Science) 2005, 33,1011-1016, doi:10.3321/j.issn:0253-374X.2005.08.004.

[6]	Jiaping, L.I.; Yongsheng, L.I.; Rulu, W. Research on displacement of anchorage of suspension bridge. Rock and Soil Mechanics 2007, 28,145-150.

[7]	Zhou, Z.J.; Chen, C.R.; Wang, L.F.; Tian, Y.Q.; Feng, H.M.; Wang, K.C. Stability Analysis of the Gravity Anchorage of a Suspension Bridge Based on Large-Scale Field Tests. Civ. Eng. J.-Staveb. Obz. 2021, 30,282-297, doi:10.14311/cej.2021.01.0021.

[8]	Li, W.; Yang, H.; Yin, X.; Qiao, W.; Wang, Y. Study on Limit Bearing Feature of Gravity Anchorage Based on Model Test. Journal of Highway and Transportation Research and Development 2021, 38,97-103, doi:10.3969/j.issn.1002-0268.2021.06.013.

[9]	Yin, X.; Yan, F.; Zhou, L.; Wang, D.; Deng, Q. Joint Bearing Mechanism of Structure and Foundation for Gravity Anchor Block of Suspension Bridge. Journal of Traffic and Transportation Engineering 2017, 17,1-11.

[10]	Ya, G.; Han, D.; Shi, H.; Yang, J. Study on the Stability of Gravity Anchorage Foundation for Humen Second Bridge Nima Channel Bridge. Highway 2017, 62,129-135.

[11]	Liang, F.; Hua, J.; Jiang, Z.; Lu, Y.; Dai, J. Centrifugal Model Tests on Earth Pressure and Displacement of Adaptive Anchorage for Suspension Bridges. China Journal of Highway and Transport 2024, 37,125-134, doi:10.19721/j.cnki.1001-7372.2024.08.011.

[12]	Chen, Y. Experimental Study on Wind Resistance Performance of Semi-closed Box Girder of Long-span Self-anchored Suspension Bridge. Engineering and Technological Research 2024, 9,1-4, doi:10.19537/j.cnki.2096-2789.2024.06.001.