Asia Pacific Academy of Science Pte. Ltd. (APACSCI) specializes in international journal publishing. APACSCI adopts the open access publishing model and provides an important communication bridge for academic groups whose interest fields include engineering, technology, medicine, computer, mathematics, agriculture and forestry, and environment.
Research on the Innovation of Anticorrosion Process of Wufengshan Yangtze River Bridge
Vol 2, Issue 1, 2022
VIEWS - 2487 (Abstract)
Download PDF
Abstract
Wufengshan Yangtze River Bridge is the first highway and railway suspension bridge in China and the first high-speed railway suspension bridge in the world. The anticorrosion engineering of the bridge is an important link to ensure the long-term and efficient operation of the bridge. This paper first reviews the research results of steel structure bridge anticorrosion construction, and then elaborates the process flow optimization and management innovation in the steel structure anticorrosion engineering of Wufengshan Bridge, and compares and analyzes the differences, advantages and disadvantages between the new and old anticorrosion process flow. On this basis. It calculates the economic and social benefits of the new process from the aspects of improving engineering quality, reducing environmental pollution, reducing construction period, saving labor and material costs. The related research has important reference significance for the reform and innovation of steel structure bridge anticorrosion technology.
Keywords
References
1. Chen Yi. Analyzing the quality control of anti-corrosive painting construction of steel structure bridge[J]. New Technology Application and Practice, 2019 (8):193-194.
2. Luo Mingdi., Li Hangyun. Introduction to anticorrosion coating methods and quality control of steel structure bridges[J]. Bridge and Tunnel Engineering, 2018 (3):83-86.
3. Wang Weidong, Yang Qiaofu, Zhang Yingli. Quality control measures of anti-corrosive coating of steel structure bridge[J]. Highway, 2018 (10):128-130.
4. Cui Xin. Research and application of anti-corrosive coating process for steel structure bridges [J]. Green Building Materials, 2019(1): 91, 93.
5. Li Shaozhen. Research on anticorrosion coating process and construction of steel structure bridge [J]. Transportation World, 2019(6):84-85.
6. Guo Fang. Introduction to corrosion protection system and heavy-duty anti-corrosive coatings for steel bridges[J]. Modern Coatings and Painting, 2011(6):25-30.
7. Li Yunde, Zhang Liang, Jiang Xiaogang, Yang Zhenbo. Design of anti-corrosive coating system for steel structure of modern bridges[J]. Plating and Coating, 2011(1):57-62.
8. Zhang Hui. Discussion on the design of anticorrosion coating system for modern bridge steel structure[J]. China Construction Steel Structure, 2013(6):73.
9. Dai Runda. Long-lasting anticorrosion coating for steel bridges[J]. Coating Industry, 2018 (12):74-79.1
10. Yang Zhenbo, Shi Hua, Huang Jiumei. Current status and development trend of anticorrosion coating technology for modern bridge structures[J]. Shanghai Coatings, 2012(7):35-40
11. Ma Hongwei. Trial analysis of bridge steel structure repair anticorrosion coating construction technology control points [J]. China Construction Metal Structure, 2013 (10):2
12. Wang Weiwei. Construction technology of anticorrosion coating for steel structure bridge project[J]. Construction Technology (Supplement), 2012(12):196-198.
13. Chang Yanhu, Wang Shouli, Guo Fang. New technology of anti-corrosive coating for steel bridges[J]. Modern Coatings and Coating, 2015 (6):14-16.
14. Xu Jun, Luo Liehao, Zhang Huang. Talking about the improvement of bridge steel structure anti-corrosive thermal spraying aluminum construction[J]. World Nonferrous Metals, 2018(2):282-284.
15. Zong Na. Analysis of technical points of rust and corrosion prevention construction of steel structure bridge [J]. Housing and Real Estate, 2017(7):295-296.
16. Yang Chen. Analysis of the causes of anticorrosion coating disease in steel structure bridges and analysis of the preferred repair scheme[J]. Total Corrosion Control, 2020(1):83-84.
17. Tong Jiaming, Zang Xiaoqiu, Shi Qiujun. Research on the analysis of factors affecting the corrosion and weather resistance of railroad bridge bearings and strengthening measures[J]. Railway Construction, 2017(6):36-40.
18. Du Baiji, Liu Jianjian. Prevention and control of common problems in the construction of long-lasting anticorrosion technology for bridge steel structures[J]. Special Structures, 2008 (3):97-98, 12.
19. Gao Xueying. Analysis of problems and suggestions for anticorrosion coating of steel structure bridges[J]. Total Corrosion Control, 2017(12):29, 68.
Refbacks
- There are currently no refbacks.
Copyright (c) 2024 Hu Ying jian, Li Ying, Wang Liang, Zou Jian bo, Guan Xue wen
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
This site is licensed under a Creative Commons Attribution 4.0 International License (CC BY 4.0).
Zhibiao Gao
Nankai University, China