Study on Durability of New Concrete Materials in Marine
Yanming Yue
DOI: https://doi.org/10.59429/pest.v5i3.1716
Keywords: Marine Environment; Concrete Materials; Durability; Saltwater Erosion; Seawater Corrosion
Abstract
Concrete structures in marine environments are often subjected to multiple factors such as saltwater erosion, seawater corrosion, and physical impacts, leading to their deterioration and damage. This paper analyzes the mechanisms of concrete deterioration in marine environments and proposes strategies to enhance the durability of new concrete materials in such settings. These strategies include the use of high-performance concrete, the addition of corrosion inhibitors, increasing the thickness of concrete protective layers, surface coatings for protection, and the incorporation of high-performance mesh fibers, among others. These approaches are expected to prolong the service life of concrete structures, reduce maintenance costs, and support sustainable marine infrastructure development.
References
Huang Y, Zheng SS, Wei CX. Durability damage and improvement measures of concrete structures in marine chloride ion environment [J] Journal of Beibu Gulf University, 2022, 37 (06): 39-47.
Song Y, Hu X, Zhao YF, Zhu DJ, Shi CJ. Durability Study of Glass Fiber Fabric Reinforced Seawater Sand Concrete in Simulated Marine Environment [J] Material Introduction, 2022, 36 (09): 93-101.
Wang LZ. Research and Application of Sea Sand and Sea Water Concrete Materials and Durability [J] Engineering Technology Research, 2021,6 (08): 150-151.
Liu JH, Yang F, Chen JQ, Ji HG. Study on the Durability of Modified Polyester Fiber Concrete in Simulated Marine Environment [J] Concrete, 2014, (08): 64-67+73.
Dai YX. Analysis of the Application of New Concrete Materials in Construction Engineering [J] Shanxi Architecture, 2014,40 (18): 126-127.