What question did this study set out to answer?

The research aims to understand the deterioration mechanism of concrete subjected to sulfate erosion in humid thermal environments.

April 29, 2026Open Access

湿热耦合环境下混凝土硫酸盐侵蚀劣化机制分析

Key Points

The research aims to understand the deterioration mechanism of concrete subjected to sulfate erosion in humid thermal environments.
Systematic review of sulfate erosion mechanisms in concrete.
Analysis of factors such as temperature, humidity, and ion concentrations affecting erosion products.
Development of a multi-scale deterioration model based on existing research.
Identified the conditions for the formation of typical erosion products like gypsum and ettringite.
Discussed the impact of environmental factors on microstructure evolution and macroscopic performance.
Suggested design strategies to improve concrete's resistance to sulfate erosion.

Abstract

混凝土作为现代土木工程中最广泛使用的建筑材料之一，其耐久性直接关系到基础设施的安全服役寿命。在滨海、盐湖、工业废水排放区等特殊环境中，混凝土结构长期暴露于硫酸盐侵蚀介质中，尤其在高温高湿（即湿热耦合）条件下，其劣化过程显著加速，严重威胁结构安全。本文系统梳理了湿热耦合环境对混凝土硫酸盐侵蚀过程的影响机制，从物理、化学及力学三个维度深入剖析了侵蚀产物生成、膨胀应力发展、微观结构演化及宏观性能退化的全过程。重点探讨了石膏（CaSO4·2H2O）、钙矾石（AFt）及碳硫硅钙石（Thaumasite）等典型侵蚀产物的形成条件与破坏机理，并结合温度、湿度、硫酸根离子浓度及混凝土自身组分等因素，构建了湿热-硫酸盐协同作用下的多尺度劣化模型。最后，基于现有研究成果，提出了提升混凝土抗硫酸盐侵蚀性能的设计策略与防护建议，为相关工程实践提供理论支撑。

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湿热耦合环境下混凝土硫酸盐侵蚀劣化机制分析

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Abstract

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