摘要
Abstract
In response to the issues of insufficient durability and weak impact resistance of traditional embankment revetment structures in harsh coastal environments,this study takes Zongjiangwei seawall project in Hepu,Guangxi as an example.High-strength reinforced concrete materials is employed,incorporating silica fume,fly ash,and polypropylene fibers to enhance its impermeability and freeze-thaw resistance.Combined with finite element numerical simulation,the wave protection wall structure is optimized for anti-overturning,anti-sliding,and shear mechanical performance.The key construction processes,from reinforcement cage fabrication and formwork installation to concrete pouring and curing,are systematically elaborated.The research has developed a comprehensive structural design methods and construction technical system for high-strength wave protection walls suitable for coastal environments,significantly improving the structure's durability,overall stability,and resilience against storm surge impacts.Practice has shown that this optimized solution can effectively extend the project's service life and reduce maintenance costs,providing important technical reference and practical basis for the construction of similar embankment projects in coastal areas.关键词
防浪墙/高强度钢筋混凝土/结构优化/耐久性/滨海环境/施工技术Key words
wave protection wall/high-strength reinforced concrete/structural optimization/durability/marine environment/construction technology分类
建筑与水利
